UA138095U - DEVICE FOR RESTORATION OF LIFTING FORCE FOR THE PURPOSE OF OBTAINING MECHANICAL FORCE AND ELECTRICITY - Google Patents

Abstract

Device for renewing lifting force to obtain mechanical force and electricity, containing a container that is fixed to the supports and filled with liquid, in the environment of which is a bucket float, floating vertically due to lifting force according to Archimedes' law, the float movement is converted by transmission, with connected to the wheel, to obtain electricity, after the gas is completely filled with bucket floats and floated to the level of the upper wheel, they turn over and are released from the gas below the liquid level in the tank, as they fill with gas and empty subsequent bucket floats, the work cycle resumes. to restore the lifting force, the float in the tank is made in a sealed form, and the liquid has a high density and sliding coefficient, the renewal of lifting force is carried out by turning 180 degrees of the sealed tank (1) filled with liquid with high density and sliding coefficient. ( 2), which during the ascent performs work, the value of which is equal to the product of the lifting force and the path of the sealed float (2) and is determined depending on the volume of the sealed float (2), the density of the liquid in the sealed container (1) and the stroke of the sealed float ), and is transmitted to the rods (9), (10) connected to the rod (16), which houses the racks (19), (20), mechanically connected to the cylindrical gear (23), on the axis of which is a bevel gear (25), which leads to the rotation of the wheel with a solid rim (7) (flywheel), the accumulated energy of which by means of a bevel gear (25), a cylindrical gear (23), segments of a cylindrical gear (21), (22) leads before overturning the sealed container (1), so that the sealed float (2) floats again.

Description

The useful model belongs to the field of energy, in particular to devices capable of converting inexhaustible power into mechanical power with subsequent transformation and accumulation of it into ecologically clean, cheap electrical energy and supplying it to the user of electricity, In residential premises, enterprises, places with difficult conditions (mountains, deserts , islands and polar climate zones) to ensure the supply of constant, stable electricity with wide possibilities for lighting, heating, powering electrical appliances, to the central electrical network of the state without the construction of complex structures and costs of any type of fuel and violations of the ecology and topography of the area.

The obtained cheap electricity allows you to preserve for future generations energy sources (oil, gas, coal) lying in the bowels of the Earth. Wind, hydro, nuclear, and solar power plants require a large area of the Earth to produce a large amount of energy, while the blades of windmill blades create infrasonic noises, due to which the surrounding area becomes a dead zone; hydroelectric power plants of the dam type lead to the flooding of fertile lands and can cause irreparable damage and lead to the flooding of populated areas in the event of unforeseen disasters caused by the breach of the dam, and the most striking examples of the dangers of nuclear power are the disaster at the Chernobyl nuclear power plant on April 26, 1986 and the accident at the Japanese nuclear power plant "Fukushima -1" March 11, 2011. The proposed device for renewing the lifting force in order to obtain mechanical power and electricity excludes any shortcomings and is available for use at any point on Earth without the use of any type of fuel and natural phenomena.

A known method of obtaining energy based on the use of sea wave energy (СА 2 503 607 AI, 11.10.2006, E 02 89/08, 17p. Sapadiap ipiePesitsa! rgorepu oyisye, Spiazzop, M. Maio, "Arragei! de rgody a'epegdiesip eIesigidiese a rapik de Ia yogse de5 madiez, arragaiv og depegaiypa eIesigis romeg ivzipud mame Togse"). The essence of the method is as follows. In the coastal zone, at a shallow depth, an installation consisting of modules is being built. The unit module of the installation is a stand fixed in the bottom soil, on which a two-armed lever is hinged, at one end of which there is a float, and the other is connected by means of a drive to the rotor of the electric generator, which is located in the hermetically sealed inner space of the base, which is attached to the bottom in coastal zone. Oscillations of the float cause the movement of the two-armed lever and through the drive of rotation of the rotor of the electric generator, which produces electricity.

The disadvantages of this method are: modules can be subject to the destructive effects of storms; limited fundamental opportunities for capacity building; in the process of obtaining energy, the potential energy of water is not fully used; dependence of received energy on natural and climatic conditions; long-term unpredictability; complexity of construction; road construction; low quality of electricity due to inconsistency of sea waves.

There is a known method of converting the energy of falling water into electrical energy (patent of the Russian Federation

Mo2494282). It includes a water turbine and an electric generator connected to each other.

The disadvantages of this method are: limited area of application (necessary presence of a mountain river flowing along the mountain slope); impossibility of using the method at a temperature lower than the freezing point of water.

A water power conversion system is also known (A. zai?eg, "Ulageg rozheg sopmegviop zutet", US patent Mo 3,084,905 dated 02/09/1963, ROZZ 1/00). The system is a large number of rows of chains of tanks, the rows are arranged transversely and at different levels with the tanks in each row at the same height. The chains are located longitudinally. The following tanks in each chain are connected so that the output from one tank enters the input of the next one, which is at a lower level.

Each tank has a float that contains a rack in each row that drives a shaft. The shafts in each row rotate the PTO shaft and the flywheel. The main purpose of the system is to create a mechanical force on the PTO shaft.

The disadvantages of this system are: attachment to the water environment; inability to function at temperatures below the freezing point of water; the need to ensure water drainage; the complexity of the design;

the system cannot provide stable electricity production due to the need to pass a long time to fill the tanks with water, especially with their large volumes.

The presence of these shortcomings limits the scope of the useful model.

A known method of maximum extraction of kinetic energy from a turbulent air flow and its transformation into electrical energy and a device for its implementation (patent of the Russian Federation

Mo2297549). The essence of the method is to ensure the braking of the air flow, the realization of the potential of the air pressure into the kinetic energy of the jets and the rotation of the rotor of the axial synchronous multipole electric generator with external excitation, equipped with a device for controlling the external load on the generator.

The disadvantage of this method is: the dependence of the operation of the device on the magnitude and presence of wind pressure on the reactive surface formed by the sail, which limits the scope of application and reduces the efficiency, namely, it makes it impossible to use the method in closed, industrial, warehouse, residential, underground premises, in forest parks, near the foothills of the mountains, on the lunar surface.

The closest in terms of technical essence and the positive effect that is achieved is the method of extracting the energy stored in liquid and gas and converting it into mechanical work (Russian Patent

Mo2059110, GO307). The essence of the method is as follows: the gas compressed by the compressor is fed under bucket floats immersed in the liquid supplied from the outlet water channel of the CHP or the bypass channel of rivers. Bucket floats with gas float under the action of Archimedes' force, with the liquid transferring its heat to the expanding gas. After the bucket floats are completely filled with gas and float up to the level of the upper wheel, they turn over and are freed from gas below the liquid level in the container, after which the cycle of operation is repeated. The movement of bucket floats is transformed by the transmission into rotation of the electric generator shaft.

The gas compression compressor is cooled by a flow of liquid passing through the capacity of the bucket pneumohydromotor between its lower and upper parts.

The disadvantages of the closest analogue are: the complexity of the design, insufficient efficiency and reliability, the presence of friction in the transmission, the movement of the float-bucket in the liquid both during the rise and during the sinking, the bearing rollers, which are included in the sockets and axles of the wheels, and limited

From the functional capabilities of the closest analogue due to the lack of maximum accumulation of various positive, practically useful and important effects (gas supply from the compressor under bucket floats and temperature from heat utilization of liquid media), lack of systematic full use of energy in the device due to the impossibility of timely and rapid full gas filling capacity of the bucket float during its movement. As the subsequent bucket floats are filled with gas and emptied, the work cycle is repeated. At the same time, it should be noted the decrease in efficiency due to the resistance of the movement of numerous bucket floats during their floating and sinking.

The useful model is based on the task of renewing the lifting force obtained according to Archimedes' law in order to obtain mechanical force and electricity by using the device, excluding dependence on high-cost structures that are used in the nearest analogue with the possibility of using the proposed device at any point

of the globe to obtain environmentally clean, independent mechanical power and electricity, increase the efficiency of the device, reliability, efficiency, reduce friction in the transmission and friction of the float when moving in a liquid, simplify the design, expand functionality, obtain mechanical power and electricity from the use of lifting force with the subsequent supply of electricity to consumers of the national economy, in private and apartment buildings, to the central electrical network of the state, as well as the use of mechanical power directly to perform useful work in the national economy: pressing material, bending and cutting blanks, lifting and lowering loads, drilling

BO works for extracting minerals, crushing stones, etc.

The task is achieved by the fact that the device for renewing the lifting force in order to obtain mechanical force and electricity contains a container that is fixed on supports and filled with a liquid, in the middle of which there is a float-bucket, floating vertically due to the lifting force in accordance with Archimedes' law, the movement of the float is transformed into by a transmission connected to the wheel to receive electricity, after the bucket floats are completely filled with gas and float up to the level of the upper wheel, they turn over and are freed from gas below the liquid level in the container, as they are filled with gas and the subsequent bucket floats are emptied, the cycle of operation is renewed, and in order to renew the lifting force, the float in the container is made in a hermetic form, and the liquid has an increased density and because the sliding coefficient, the renewal of the lifting force is carried out by turning the sealed container (1), filled with a liquid with increased density and sliding coefficient, by 180 degrees, in the environment which of there is a hermetic float (2), which performs work when floating, the value of which is equal to the product of the lifting force and the path of the hermetic float (2) and is determined depending on the volume of the hermetic float (2), the density of the liquid in the hermetic container (1) and the amount of stroke hermetic float (2), and is transmitted to the rods (9), (10), connected to the rod (16), on which the racks (19), (20) are placed, mechanically connected to the cylindrical gear (23) , on the axis of which there is a bevel gear (25), which leads to the rotation of a wheel with a massive rim (7) (flywheel), the energy of which is accumulated with the help of a bevel gear (25), a cylindrical gear (23), segments of a cylindrical gear (21), (22) causes the sealed container (1) to overturn, causing the sealed float (2) to float again, and the lift force cycle of the sealed float (2) is repeated to produce mechanical force and electricity.

The essence of the useful model is explained by the drawing. In fig. 1 conventionally depicts a device for renewing the lifting force in order to obtain mechanical force and electricity, which contains a sealed container (1) filled with a liquid with an increased density and slip coefficient, in the middle of which there is a sealed float (2), axes (3) and (4) ), rigidly attached to the walls of the hermetic container (1), the ends of the axles with the help of roller radial support bearings (not shown in Fig. 1), installed in the upper parts of the supports (5) and (6), a wheel with a massive rim (7) (flywheel), mechanically connected to the electric generator (8). Rods (9) and (10) protrude from the upper and lower parts of the hermetic float (2), placed inside the bushings (12), rigidly attached to the body of the hermetic container (1). External sliding bushings (11) and (13) are placed on them with the help of support rings, which come into contact with the flexible limiter (14) located on the support (5) together with the retractable plug (15) for setting up the device. The rods (9) and (10) are rigidly connected to the rod (16), which has a through longitudinal groove and moves along the guide pins (17) and (18). The rod (16) contains rigidly fixed toothed rails (19) and (20) (Fig. 2) and segments of cylindrical gears (21) and (22) (Fig. 1) fixed through the gap relative to the toothed rails, the arcs of which are toothed from the outer side, to perform a revolution with the help of a cylindrical gear (23), on the axis of which there is a cylindrical gear (24) and a bevel gear (25), mechanically connected to the wheel with a massive

From the rim (7) (flywheel), around which additional identical unified modules mechanically connected to it (30), (31), (32), (33), (34), (35), (36) are uniformly located ) (Fig. 3). The wheel with a massive rim (7) (flywheel) (fig. 1) by means of a pulley (26) rigidly fixed on it and a belt transmission is mechanically connected to the pulley of a smaller diameter of the electric generator (8), as well as to the starting device (27) (fig. 3), forming a torque of the wheel with a massive rim (7) (flywheel) (fig. 1), located on the support ring (41) of the elevated platform (28).

In fig. 2 conventionally depicts the interaction of the rod (16) with the bearings (37, 38, 39, 40), installed on the pins (17), (18), rigidly fixed on the side wall of the sealed container (1). The same bearings (37) and (38) are installed on the pin (17), and bearings (39) and (40) are installed on the pin (18). Bearings (37) and (39) touch only one of the two inner walls of the longitudinal transverse groove of the rod (16), and bearings (38) and (40) also touch only the opposite inner wall of the longitudinal transverse groove of the rod due to the slot in its opposite walls, which eliminates the transverse backlash of the rod (16) and increases the reliability of the engagement of the racks (19) and (20) with the cylindrical gear (23).

In fig. 3 shows a block diagram of the lift recovery device for obtaining mechanical power and electricity.

In fig. 4 conventionally shows the location of hermetic floats (2) in hermetic containers (1) during the operation of the device for renewing the lifting force in order to obtain mechanical force and electricity.

The principle of operation of the device for restoring the lifting force in order to obtain mechanical power and electricity is that the hermetic float (2) (see Fig. 1), which is located in the hermetic container (1), filled with a liquid with an increased density and slip coefficient, floats up under the action of the Archimedean thrust force and performs the work allocated to the rod (9), the rod (16) and the toothed rack (19) fixed on it, which rotates the cylindrical gear (23), which transmits the torque with the help of the bevel gear (25) of a wheel with a massive rim (7) (flywheel) with identical unified modules (29, 30, 31, 32, 33, 34, 35, 36) installed evenly around its circumference, also simultaneously creating a torque moment of a wheel with a massive rim (7) ( flywheel). When the hermetic float (2) reaches the critical upper position, the toothed rack (19) disengages from the cylindrical gear (23), which continues to rotate due to the return of the accumulated energy of the flywheel and engages with the segment of the cylindrical gear (22), turning over at the same time airtight container

(1) by 180 degrees to renew the lifting force by the hermetic float (2) located in the hermetic container 1, after which, floating due to the pushing force according to Archimedes' law, the hermetic float (2) again performs the work allocated to moving the rod (10 ), rod (16) and toothed rack (20), which leads to the rotation of a cylindrical gear (23) and a bevel gear (25) to rotate a wheel with a massive rim (7) (flywheel), which accumulates it and when reached by a sealed float ( 2) in the upper critical position, it is ready to transfer it again to a new revolution of the hermetic container (1) to create a torque of the reverse mechanical connection, due to which the lifting force is renewed indefinitely during the next revolutions of the hermetic container (1) and reaching the hermetic float (2) the upper critical position, which is the device for renewing the lifting force in order to obtain mechanical power and electricity.

The device for renewing the lifting force in order to obtain mechanical force and electricity is based on the renewal of the lifting force obtained according to Archimedes' law and is a device in the form of identical unified modules (29, 30, 31, 32, 33, 34, 35, 36) (see . fig. 3), which are evenly installed around the perimeter of the wheel with a massive rim (7) (flywheel) and are mechanically connected to it through bevel gears (25) of all identical unified modules.

The total force obtained from identical unified modules (29, 30, 31, 32, 33, 34, 35, 36) is increased due to the use of a lever of the second kind (spindle), which is a spoke of a wheel with a massive rim (7) (flywheel) and is transmitted by the pulley 26 fixed on it by means of a belt transmission to the pulley of the electric generator 8 and to other consumers. The total force 9 on the axis of the ele ro g nedatarya repekovustva truss: skin ,

Пр : - liquid density,

Mp. the volume of the sealed float (2),

Mo, p. . 25 A - the number of modules,

M wheels. the number of teeth of a wheel with a massive rim (7) (flywheel),

As. the number of teeth of the bevel gear (25), du lesa « diameter of the wheel with a massive rim (7) (flywheel), pkira . pulley diameter (26),

From Gter. friction force,

Kk length factor due to the lever of the second kind in a wheel with a massive rim (7).

The number of installed identical unified modules, located evenly around the circumference of the wheel with a massive rim (7), depends on the required electricity demand obtained from the electric generator (8) and the required mechanical force for external users. To bring the device for renewing the lifting force in order to obtain mechanical force and electricity into working condition, it is necessary to carry out one-by-one adjustment of all identical unified modules (29, 30, 31, 32, 33, 34, 35, 36) with the load disconnected. Before starting the adjustment, the plugs (15) of all identical unified modules must be installed between the body of the hermetic container (1) and the sliding sleeve (13), which ensures a stable static state of the identical unified modules. To restore the lifting force at the initial floating state of hermetic floats (2), which are in a limited state (the hermetic float (2) cannot reach the uppermost position by the thickness of the retractable fork (15)), which is determined by installing the retractable forks (15), which are located between the body of the sealed container (1) and the inner part of the sliding sleeve (13), while the sealed float (2) with the rods (9) and (10) are connected to the rod (16), on which the toothed rails (19) are located ), (20). With a limited vertical position of the sealed floats (2), the teeth of the racks (19), (20) were out of engagement with the cylindrical gear (23), which did not engage with the segment of the cylindrical gear (21), (22). In the initial static state of adjustment, there is no torque of the wheel with a massive rim (7) and all gears (23, 24, 25). With the limited position of the hermetic float (2), the segments of the cylindrical gear (21) or (22), the teeth of which are located on the outer part of the arc, do not reach the engagement with the cylindrical gear 23, which makes the static idle state of all identical unified modules.

To bring the identical unified modules into working condition, it is necessary to create a torque using the starting device (27) of the wheel with a massive rim (7)

(flywheel), which is mechanically connected to all bevel gears (25) of all identical unified modules. The received torque is transmitted by the bevel gear (25) with the help of gears (24) and (23) located on its axis, to which the torque received from the starting device (27) is transmitted, while all gears (23, 24, 25) rotate in idle state. In order to start the given module into working condition according to the given program in the specified sequence (see Fig. 4), it is necessary to extend the plug (15) (Fig. 1), placed in the support (5), while the outer sliding sleeve (13) is under the influence the floating of the sealed float (2) and the associated rod (10) rises up and out of engagement with the flexible stop (14) fixed to the support (5), resulting in the sealed container (1) freed from contact with the flexible of the limiter (14), fixed on the support (5), is ready for a revolution. The hermetic float (2), floating in the hermetic container (1) to the upper critical position and performing work, vertically moves the rod (9), the rod (16) and the segment of the cylindrical gear (22) fixed on the rod (16), while the teeth placed on the outer arc of the segment of the cylindrical gear (22) engaged with the cylindrical gear (23), which had previously rotated in the idle state. The resulting mechanical connection transmits the obtained torque from idling, creating a torque of the segment of the cylindrical gear (22), at the same time, the hermetic container (1), hermetic float (2), rods (9) and (10), the rod ( 16) by the specified value (180 degrees). When the hermetic container (1) is turned 180 degrees, the outer sliding sleeve (13) is displaced, which, abutting against the flexible limiter (14) and stabilizing the vertical position of the hermetic container (1), increases the reliability of the mechanical connection of the toothed rack (20) with cylindrical gear (23). The launcher can be disabled after configuring several unified modules. After the end of setting up all identical unified modules according to the given program, the device works in automatic mode. The rotation of the wheel with a massive rim (7) (flywheel) can be changed to the opposite by shifting the gears (23), (24), (25) of all identical unified modules to the opposite side of the support (6), simultaneously shifting the wheel with a massive rim (7) (flywheel), which explains the unification of the module. It is possible to expand the functionality of the device by installing a wheel with additional identical ones

With unified modules in a vertical position, in which the wheel receives a torque due to a cylindrical gear (24) and a bevel gear (25).

Claims (1)

UTILITY MODEL FORMULA 35 1. A device for renewing the lifting force in order to obtain mechanical force and electricity, containing a container that is fixed on supports and filled with a liquid, in the middle of which there is a float-bucket, floating vertically due to the lifting force according to Archimedes' law, the movement of the float is converted by a transmission connected to the wheel to receive electricity, after the floats-40 buckets are completely filled with gas and float to the level of the upper wheel, they turn over and are freed from gas below the level of the liquid in the container, as they fill with gas and empty further floats - the work cycle of the bucket is renewed, which is distinguished by the fact that to renew the lifting force, the float in the container is made in a hermetic form, and the liquid has an increased density and sliding coefficient, the renewal of the lifting force is carried out by turning over 180 degrees 45 of the sealed container (1) filled with liquid with increased density and coefficient of skating in which there is a hermetic float (2), which performs work when floating, the value of which is equal to the product of the lifting force and the path of the hermetic float (2) and is determined depending on the volume of the hermetic float (2), the density of the liquid in the hermetic container ( 1) and the magnitude of the stroke of the sealed float (2), and is transmitted to the rods (9), (10), 50 connected to the rod (16), on which the racks (19), (20) are mechanically connected with a cylindrical gear (23), on the axis of which a bevel gear (25) is located, which leads to the rotation of a wheel with a massive rim (7) (flywheel), the energy of which is accumulated with the help of a bevel gear (25), a cylindrical gear (23), segments of the cylindrical gear (21), (22) causes the sealed container (1) to overturn, due to which the sealed float (2) floats again, and the lifting force cycle of the sealed float (2) is repeated to obtain mechanical power and electricity. 2. A device for renewing the lifting force in order to obtain mechanical power and electricity according to claim 1, which is characterized by the fact that the implementation of the device is carried out by a unified module (29), which contains a transmission (toothed racks (19), (20), segments of cylindrical gears (21), (22), cylindrical gear (23), on the axis of which cylindrical gear (24) and bevel gear (25) are located), rearrangement of gears (23), (24), (25) to the opposite side of the support (b ) changes the direction of rotation of the wheel with a massive rim (7) (flywheel), which is placed either in the horizontal plane, mechanically connected to the bevel gear (25), or in the vertical plane, mechanically connected to the cylindrical gear (24), and renewal of the lifting force of the hermetic float (2) occurs due to the inversion of the hermetic container (1) with the hermetic float (2), due to which the functional capabilities are expanded. C. A device for renewing the lifting force in order to obtain mechanical force and electricity according to any of claims 1, 2, which is characterized by the fact that the wheel (7) is made with a massive rim (flywheel), around which identical unified modules are evenly located ( 29), (30), (31), (32), (33), (34), (35), (36), in which the sealed float (2) is in a sealed container (1), which is filled with a liquid with an increased density and sliding coefficient, the total force of identical unified modules is increased due to the use of a lever of the second kind (spindle), which is a spoke of a wheel with a massive rim (7) (flywheel) and transmits the resulting total force with the help of a pulley (26) , fixed on a wheel with a massive rim (7) (flywheel), and a belt transmission to a pulley of a smaller diameter of the electric generator (8) and to other consumers, due to which the efficiency increases and efficiency 4. A device for renewing the lifting force in order to obtain mechanical power and electricity according to any of claims 1, 2, 3, which is characterized by the fact that a cylindrical gear (23) is used, on the axis of which a cylindrical gear (24) and a bevel gear are located (25), as well as a wheel with a massive rim (7) (flywheel), on which a pulley (26) is fixed, which, excluding redundant axles, transmits the torque of the generator pulley (8) with the help of a belt transmission, which significantly reduces friction in numerous elements of the transmission and contributes to increasing the efficiency, while the liquid with increased density creates increased resistance to the sealed float (2) during its movement, in order to reduce this resistance, the sealed float (2) is covered with a film forming a slippery surface (for example, fluoroplastic), and the liquid in the hermetic container (1) has an increased sliding coefficient, in addition, when the lifting force is restored, the reverse movement of the hermetic ZO float (2) is excluded by a device that overturns hermetically sealed container (1) with hermetically sealed float (2) by 180 degrees, due to which the friction of moving hermetically sealed float (2) in a liquid with increased density and slip coefficient in hermetically sealed container (1) and friction in the transmission are reduced. 5. Device for renewing the lifting force in order to obtain mechanical force and electricity according to claim 1, which is characterized by the fact that the hermetic float (2) floats to the upper critical position and returns to the initial position due to its lifting force, accumulating it with a wheel with a massive rim (7) (by a flywheel), and gives it with the help of a transmission to overturn the sealed container (1), after which the sealed float (2) again floats to the upper critical position, at which the sealed container (1) turns over again, once again repeating the lifting the force of the hermetic float (2), thanks to which the device is simplified, its reliability is increased and dependence on high-cost structures is excluded, which ensures the production of mechanical power and electricity.