ES1298764U - AUTONOMOUS GENERATOR EQUIPMENT FROM SECONDARY CELL BANK (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Autonomous generator equipment from a secondary cell bank, made up of an electrical circuit and a configuration of electrical elements and modules such as: a secondary cell bank made up of two batteries (1) and (2), a switch (3), a DC-AC current converter (4), an alternating current electric motor (5), an alternator or alternating current generator (6), a voltage regulator (7), a general protection box (8) and a secondary cell charger regulator (9), characterized in that once the circuit is closed from the circuit breaker (3), the current from the secondary bank (1 or 2), through the secondary cell charger regulator (battery) electronic (9), passing through the DC-AC current converter (4), activates the AC electric motor (5), and when this is activated,generates a rotating movement that transmits through its axis to the alternator or AC current generator (6), whose output current passes through the voltage regulator (7), and reaching a general protection box or CGP (8), for its distribution, it is derived, for its consumption and to feed the electronic secondary cell charger regulator (battery) (9), which supervises the charge of the secondary cell banks (1) and (2). (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

AUTONOMOUS GENERATOR EQUIPMENT FROM SECONDARY CELL BANK

OBJECT OF THE INVENTION

The present invention refers to a device capable of generating electrical energy (AC or DC), autonomously, continuously, portable or stationary, without the need to use external power sources for its operation or recharging.

The portable or stationary electricity generation systems that currently exist use internal combustion engines for their generation that need some type of non-renewable fuel for their operation (fossil fuels: oil, natural gas, biofuels, agrofuels or fuels cultivated or nuclear.), of increasingly higher costs and, in turn, generate high degrees of contamination.

The UPS type (Uninterruptible Power Supply), need, to charge their batteries, a supply such as: The Electric Power Distribution Network or Electric Power Distribution System, Ionity charging network, or any other charging network for electric cars, charging assisted by an internal combustion or electric car, renewable energy, photovoltaic solar energy, thermal solar energy, thermoelectric solar energy, geothermal energy, marine energy, wind energy, hydraulic or hydroelectric energy, pneumatic energy, biomass or bio gas . Renewable electric power generation systems (photovoltaic solar energy, solar thermal energy, thermoelectric solar energy, geothermal energy, marine energy, wind energy, hydraulic or hydroelectric energy, pneumatic energy, biomass and bio gas), need large structures, for their operation (solar cells, wind generators, hydraulic or hydroelectric generators, etc.) and, in turn, the large number of special tools, operational and professional personnel, and large areas for their installation, causing high costs in the project, if applicable, which in the absence of Some of them are impossible to install.

The equipment object of the present invention comes to propose a solution when it comes to having a safe and reliable energy source, with low maintenance and without having to worry about recharging it, exceeding the previously mentioned data by far, since its installation, set-up and operation, does not require any of the previously described elements since, due to its design and construction (size, portability and intuitive electronics), a small professional staff will install it in record time.

For this, the initial energy or fuel, would be supplied by a secondary cell (Battery) of the voltage and power indicated by the project, previously charged, (lead-acid battery, LFP battery (Lithium Ferrum Phosphate, lithium-ferrophosphate or LiFePO4). , Nickel-iron (Ni-Fe) battery, Nickel-cadmium (Ni-Cd) battery, Nickel-hydride (Ni-MH) battery, Lithium-ion (Li-ion) battery, Lithium-polymer battery ( LiPo), fuel cells, high capacity condenser, or any other secondary cell that meets the project specifications.

All this translates into low cost in its operation and low carbon footprint. And the most important thing is to be able to use electrical appliances at home and camping (Air Conditioning in its cold form or heat pump, ironing, washing, drying clothes, etc. etc.) or in the general or automotive industry (recharging electric cars ), throughout the year (365 days), without having to worry about the electricity rate.

The industrial application of this invention is within the energy generation systems and equipment sector, and more specifically, autonomous equipment from a secondary cell bank.

BACKGROUND OF THE INVENTION

Although no invention identical to the one described has been found, we present below the documents found that reflect the state of the art related to it.

Thus, document ES2325848 refers to a system for the production of hydrogen and electrical energy from photovoltaic energy. It has at least one photovoltaic cell module that feeds an electrolyser that generates hydrogen and that has storage means for the hydrogen produced; including at least one fuel cell that makes it possible to generate electrical energy from stored hydrogen; Facilitating improvements in the production of electrical energy from photovoltaic energy and its availability when hydrogen is used as an energy vector for intermediate storage.

ES2213122 proposes a hydrogen source comprising one or more hydrogen generating elements arranged in a pressure vessel and an ignition control system associated with the hydrogen generating element(s), in which the one or more hydrogen generating elements comprise a plurality of pellets of a chemical mixture that, by thermal decomposition, evolves hydrogen gas, and in the that the ignition control system is positioned to control the rate of ignition of the pads.

WO2012085307 describes a fuel cell, where there is a continuous replenishment of consumed reagents; characterized in that the fuel cell system comprises at least one low temperature, polymetric fuel cell; said system being connected to a fuel storage and distribution system and to a control, security and communications system; which also connects with a power adaptation system; the control system being linked to the storage and distribution system; being governed both the fuel cell and the referred systems by a central government block.

ES2704105 claims an electrochemical energy storage device that comprises a container that includes a negative electrode, a positive electrode and an electrolyte that is arranged between said negative and positive electrodes, wherein the electrochemical energy storage device has a first potential difference between the negative and positive electrodes at a first temperature that is less than about 50°C and a second potential difference between the negative and positive electrodes at a second temperature of at least about 250°C, wherein the second potential difference is greater than the first potential difference, where at least two of the positive electrode, the electrolyte, and the negative electrode are liquid at the second temperature, where the container has a surface area to volume ratio of less than or equal to approximately 100 m-1.

WO2020227839 refers to a low fuel consumption hybrid power generator, which can be used continuously over time as permanent power generation equipment and not just as a backup or emergency source, which generates electricity alternating three-phase through electromagnetic induction, characterized in that it is made up of an opz deep cycle battery bank that comes with an initial charge of 2 volts and 620 amps, the battery bank feeds an inverter/charger of 6 Kwh of continuous output and 10 kWh of peak for 25 seconds, which transforms the direct current of said bank of batteries into alternating current to be able to feed energy to a system, such as water pumps, a house, industry, etc.

Conclusions: As can be seen from the research carried out, none of the documents found solve the problems posed as does the proposed invention.

DESCRIPTION OF THE INVENTION

The autonomous generator equipment from a secondary cell bank, object of the present invention, is constituted from an electrical circuit and a configuration of electrical elements and modules that together provide electrical energy, either alternating or direct current, autonomously. and uninterruptedly, starting from an initial source made up of two secondary cell banks (two direct current batteries).

Once the equipment is turned on, the current from the aforementioned cell bank passes through an electronic secondary cell (battery) charger regulator, passing through a DC-AC current converter, which activates an alternating current electric motor, that will generate a rotating movement that will transmit through its axis to an alternator or alternating current generator; and said output current goes through a voltage regulator, and, arriving at a general protection box or CGP, for its distribution, it will be derived, to feed lighting elements, water pumps, household appliances (A / C, heating refrigerators, freezers, microwave ovens, televisions, computers, industrial machinery and equipment, recharging electric cars, camping, maritime, etc. etc.), and on the other hand, the electronic secondary cell (battery) charger regulator will be fed, which supervises the charge of the secondary cell banks.

The electronic secondary cell (battery) charger regulator controls that, when one of the secondary cell (battery) banks discharges a predefined amount of its nominal capacity, the electronic secondary cell (battery) charger regulator will connect it to the second, secondary cell bank (battery), in parallel for a few seconds, leaving this second secondary cell bank (battery) connected, and disconnecting the first, in order to start its respective charge.

The cycle will be repeated when the same thing happens with this second bank of secondary cell (battery), and the preset amount is discharged, and thus the cycle will be maintained in such a way that the equipment continues to operate and generate electricity autonomously and continues, for the time specified in the project.

Unless otherwise indicated, all technical and scientific elements used herein have the meaning that is usually understood by a normal person skilled in the art to which this invention pertains. Similar or equivalent procedures and materials to those described herein may be used in the practice of the present invention.

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 characteristics of the invention will emerge in partly the description and partly the practice of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

For a better understanding of this description, some drawings are attached that represent a non-limiting preferred embodiment of the present invention:

Figure 1: Schematic view of the autonomous generating equipment from the secondary cell bank object of the present invention.

The numerical references that appear in said figures correspond to the following constituent elements of the invention:

1. First bank of secondary cell (battery)

2. Second bank of secondary cell (battery)

3. Switch

4. DC-AC power converter

5. AC electric motor

6. Alternator or alternating current generator

7. Voltage regulator

8. General protection box

9. Secondary cell charger regulator

DESCRIPTION OF A PREFERRED EMBODIMENT

A preferred embodiment of the autonomous generator equipment from a secondary cell bank object of the present invention, with reference to the numerical references, can be based on an electrical circuit and a configuration of electrical elements and modules such as: a secondary cell bank composed two batteries (1) and (2), a switch (3), a DC-AC current converter (4), an alternating current electric motor (5), an alternator or alternating current generator (6), a voltage regulator (7), a general protection box (8) and a secondary cell charger regulator (9) that together provide electrical energy, either alternating or direct current, autonomously and uninterruptedly, starting from the initial source of the secondary cell bank, preloaded.

Said initial energy, of specific voltage and power for each project, can be from any type of secondary cell (lead-acid battery, LFP battery (Lithium Ferrum Phosphate, lithium-ferrophosphate or LiFePO4), nickel-iron battery (Ni- Fe), nickel-cadmium (Ni-Cd) battery, nickel-hydride (Ni-MH) battery, lithium-ion (Li-ion) battery, lithium-polymer (LiPo) battery, fuel cells, high-capacity capacitor , or similar.

By activating the circuit breaker (3), the current coming from the secondary bank (1 or 2), through the electronic secondary cell (battery) charger regulator (9), passing through the DC-AC current converter (4), It will activate the AC electric motor (5), of the type, voltage and power specified in the project, and when it is activated, it will generate a rotating movement that will be transmitted through its axis (either axis to axis, by pulley or gear), to an alternator or AC current generator (6), of the voltage and power specified in the project, whose output current will pass through the voltage regulator (7), and reaching a general protection box or CGP (8), for its distribution, it will be derived, for (luminaires, water pumps, household appliances, the industry in general or automotive (recharging electric cars) etc.), and on the other hand for self-consumption, to feed the secondary cell charger regulator (battery ) electronic (9), of power and voltage specified in the project, which will supervise the charge of the secondary cell banks (1) and 2 (DC Battery).

This supervision will control that, when the secondary cell bank (1) (battery) discharges to a % (specified in the project), of its nominal capacity, the electronic secondary cell (battery) charger regulator (9), of power and voltage specified in the project, it will connect it to the secondary cell bank (2) (battery) in parallel for a few seconds, leaving it connected to the secondary cell bank (2) (battery), and disconnecting the secondary cell bank (1 ) (battery), in order to start its respective charge at the time specified in the project.

The cycle will be repeated when the secondary cell bank (2) (battery) is discharged to a % (specified in the project) of its nominal capacity; and this global cycle will be maintained in such a way that the equipment will operate and generate electricity autonomously and continues, for the time specified in the project.

Claims (8)

1.

- Autonomous generator equipment from a secondary cell bank, made up of an electrical circuit and a configuration of electrical elements and modules such as: a secondary cell bank composed of two batteries (1) and (2), a switch (3), a DC-AC power converter (4), an alternating current electric motor (5), an alternator or alternating current generator (6), a voltage regulator (7), a general protection box (8) and a secondary cell charger regulator (9), characterized in that once the circuit from the circuit breaker (3), the current from the secondary bank (1 or 2), through the electronic secondary cell (battery) charger regulator (9), passing by DC-AC current converter (4), activates the AC electric motor (5), and when it is activated, generates a rotating movement that transmits through its axis to the alternator or generator AC current (6), whose output current passes through the voltage regulator (7), and reaching a general protection box or CGP (8), for its distribution, is derived, for its consumption and to feed the electronic secondary cell (battery) charger regulator (9), which supervises the load of the secondary cell banks (1) and (2). 2.

Autonomous generator equipment from a secondary cell bank, according to claim 1, where the electronic secondary cell (battery) charger regulator (9) controls that, when the secondary cell bank (1) (battery) discharges a % (specified in the project) of its nominal capacity, it connects it with the secondary cell bank (2) (battery) in parallel for a few seconds, leaving connected to the bank secondary cell (2) (battery), and disconnecting the secondary cell bank (1) (battery), in order to start their respective load at the time specified in the project; and said cycle repeat if the same happens with the secondary cell bank (2) (battery). 3.

- Autonomous generator equipment from a secondary cell bank, according to claim 1, where the type of secondary cell is lead-acid battery, battery LFP Lithium Ferrum Phosphate, lithium-ferrophosphate or LiFePO, nickel-iron (Ni-Fe) battery, Nickel-Cadmium (Ni-Cd) Battery, Nickel-Hydride (Ni-MH) Battery, Lithium-Ion (Liion) Battery, Lithium-Polymer (LiPo) Battery, Fuel Cells, High Capacity Capacitor, or similar