RU2015101130A - ENERGY ACCUMULATING DEVICE USING WORKERS FOR TURNING SPRINGS - Google Patents

Abstract

1. An energy storage device in which energy is accumulated by twisting torsion springs, the device including: several gears, in which each side of the energy supply of the gears is connected to an energy source generating a rotational force, while the energy output from the gears is converted into twisting force; several limiters of the magnitude of the twisting force connected to the sides of the output energy of the gears, in which when the magnitude of the twisting force exceeds the pre o set value of the torsional force limiters, the torsional force limiters stop twisting by putting the device into idle mode to prevent damage to the energy storage units; several unidirectional torque transmission bearings connected to the energy output sides of the torsion force limiters to ensure only unidirectional passage torsional force from each of the limiters of the torsional force to the corresponding energy storage unit and preventing the passage of rotational force in the opposite direction to protect against damage to the limiters of the magnitude of the twisting force and gears; several energy storage units, in which each of the energy storage units includes at least two rotor disks coaxially connected to each other, and a belt spring element located between each pair of rotor disk elements, characterized in that the two ends of each belt spring element

Claims (8)

1. An energy storage device in which energy is accumulated by twisting torsion springs, the device including: several gears, in which each side of the energy supply of the gears is connected to an energy source generating a rotational force, while the energy output from the gears is converted into a twisting force; several torsional force limiters connected to the energy output sides of the gears, in which when the torsional force exceeds a predetermined value of the torsional force limiters, the torsional force limiters stop twisting by putting the device into idle mode in order to prevent damage to the energy storage units; several unidirectional torque transmission bearings connected to the energy output sides of the torsional force limiters to ensure only unidirectional passage of the torsional force from each of the torsional force limiters to the corresponding energy storage unit and to prevent the rotational force from passing in the opposite direction to protect against damage to the torsional value limiters effort and gears; several energy storage units, in which each of the energy storage units includes at least two rotor disks coaxially connected to each other, and a belt spring element located between each pair of rotor disk elements, characterized in that the two ends of each belt spring element are connected with a central holding element and a holding groove, and one end of each belt spring element is curved in the opposite direction in order to increase energy storage efficiency; and several gears that increase the frequency of rotation connected to the elements of the rotor disk of the energy output side, in which the speed-increasing gears can block the elements of the rotor disk when the speed-increasing gears are switched off, in order to ensure rotation of the rotor disk elements on the sides of the energy output energy-saving blocks and, therefore, can accumulate energy, and gears that increase the speed can increase the speed of the element o of the rotor disk of the side of the energy output for energy output when driving to increase the frequency of rotation of the gears. 2. The energy storage device according to claim 1, wherein the gears are connected to an energy generating device acting as an energy source, and a clutch, a flywheel and a gearbox are located between the energy generating device and the gears, characterized in that the clutch is designed to control passage energy from the energy generating device to the gearbox, the flywheel is designed to stabilize the energy output of the energy generating device due to inertia of rotation, and the gearbox aq designed to reduce the rotational speed power generating device to increase the magnitude of twisting effort for energy storage. 3. The energy storage device according to claim 1, wherein the energy output sides of the speed increasing gears are connected to a generator or an electromagnetic brake, stepless speed gearbox, a frequency controller, a flywheel and a clutch are located between the speed boosting gears, and a generator, characterized in that the electromagnetic brake is designed to reduce or stop the output of energy that increases the frequency of rotation of the gear wheel, gearbox with stepless regulation is designed to maintain the rotational speed in the process of energy output, the frequency regulator is designed to control the rotational speed in the process of energy output, the flywheel is designed to stabilize the energy output, and in which the clutch is designed to control the supply of output energy to the generator. 4. The energy storage device according to claim 1, wherein the central holding element is centrally located on each element of the rotor disk and in which the external holding groove is made on the outer part of each element of the rotor disk, and the internal holding groove is made in each central holding element, characterized in that the inner end of each band spring is fixed in the inner holding groove, and the outer end of each band spring is bent in the opposite direction and fixed in the outer ud alive groove. 5. The energy storage device according to claim 1, wherein the central holding element is centrally located on each element of the rotor disk and in which the external holding groove is made on the outer part of each element of the rotor disk and the internal holding groove is made in each central holding element, characterized in that the outer end of each belt spring is fixed in the outer holding groove, and the inner end of each belt spring is bent in the opposite direction and fixed in the inner ud alive groove. 6. The energy storage device according to claim 1, wherein the wave-like structure can be made on the surface of each element of the tape spring in order to increase its energy storage efficiency. 7. The energy storage device according to claim 1, in which several intermediate rotor disks are coaxially placed between each pair of end elements of the rotor disks and in which each element of the rotor disk of the energy supply side is connected to the energy output side of unidirectional torque transmission bearings, and each rotor disk element the output side is connected to speed-increasing gears, and in which a belt spring is placed between each end element of the rotor disk and each span element of the rotor disk, as well as between each intermediate element of the rotor disk and each end element of the rotor disk, characterized in that when the speed increasing gears are turned off, said speed increasing gears can block the rotor disk elements of the energy output side, as a result of which rotation of the rotor disk elements of the energy supply side is ensured and, ultimately, energy storage, and that at the same time belt springs rotate the industrial daily elements of the rotor disk for energy storage, and when the speed increasing gears are turned on, the elements of the rotor disk of the energy output side can rotate the intermediate elements of the rotor discs and the elements of the rotor disk of the energy supply side to accelerate the energy output by the belt spring. 8. The energy storage device according to claim 1, in which the energy storage units can be arranged in parallel so that the gears can distribute energy among the energy storage units, and in which energy can be output by increasing the speed of the gears, characterized in that each of the energy storage units is equipped with its own device for limiting the amount of torsion and a unidirectional torque transmission bearing.