BRPI0802533A2 - hydraulic circular moving power machine in electric power generation - Google Patents

Abstract

HYDRAULIC CIRCULAR FORCE MACHINE FOR ELECTRIC POWER GENERATION. it consists of (1) eight tubes made of steel or other materials, (2) eight floats made of metal or other movement resistant materials of this machine, (3) sixteen float fittings one at each end of each tube, (4) Sixteen force transfers from the inside of the pipe, one at each end of the pipe, this transfer takes place when the float rises and unwinds an axis attached to the wire rope inside the pipe which at the same time transfers outside, its movement and the transfers to the movement of belts or chains, (5) spindle one and spindle two of the pipe supports, these shafts are properly separated to allow the machine to stop and climb at different times from the rise of the floats, these shafts are made of iron or other resistant materials, (6) Two large-point wheels that allow the tubes to be rotated in a circle to the float-up position, these wheels or gears are made of iron. m a gearbox can be used which changes nothing in the movements of the machine, (7) shaft that receives the movement of the belts or chains and transfers it to the power generator or other means that need it, (8) power generator , (9) power transfer shaft to the power generator, (10) each pipe end has a shaft where the wire rope is wound and unwound, the motion of winding the wire rope is performed by an electric motor . Small power motors since their use is only for coiling the wire rope, (11) inside the tubes the float can be made in many ways and driven in many ways through the center or the ends of the buoys, which does not change anything the idea of this construction (12). In (Figure 2) I better clarify the movements of the floats and how it is possible to reverse the movement of the tube with the float.

Description

"HYDRAULIC POWER FORM IN CIRCULAR MOVING ELECTRIC POWER NIGERATION"

The present invention relates to a machine properly developed to produce electrical energy or other motions so that this force can be applied as this energy can be generated and transported with moving vehicles and transferred to them like automobiles, ships and other moving vehicles. and also generate large amounts of energy in a small amount of ground space. As I will start your power generation with a tube or several tubes attached to an axis or more than one axis, here in the patent I will work with more than one axis and with several tubes full of water, describing more than one axis for the reason that it is The machine at work works better with more than one shaft, when the first shaft rotates with the tubes attached to water pipes inside the tubes always contains a float on each tube of the steel rope on each tube, a fitting on each side of the tube. When each tube is positioned vertically, the float rises inside the water tube attached to a cable to one side of the tube, when rising it rotates an axis where it was coiled one of the steel cables when being unwound exerted a movement in its ascent. reused this movement is transferred to the outside couplings to a catraka which in turn transfers through a chain or belt in rotation by a eix °. On this axis the force can drive a generator or other machines that need power. When the float has risen with the first cable and ends if a climb movement attaches to the second cable inside the tube, in this movement the first cable is released and wound through an electric motor to the place where it came out. The tubes filled with water or other liquids are then turned behind a wheel larger in diameter than the length of the tubes to facilitate their rotation, because the larger this wheel, the less effort the tube narrows until the machine stops. then the new rise of the second cable which became attached with the float to the starting point was then the second movement of the rise of the float and so on, each time one end of the tube is placed vertically, the machine stops and gives a movement to the float along one of the cables, sometimes the float rises on one side of the tube, sometimes the float on the other side of the tube, sometimes it loosens a cable and coils, sometimes it holds the other cable together with the float and positions itself for the respective one. rise giving rise to the float start and the movement of the machine. At this beginning of machine movement and force transfer, it is noted that the need for the machine to have more than one separate axis to be able to start the buoys rise, they rise at separate times as long as the tubes are hung on more than one axis. To give different times for the fit and transfer of force for the movement of the buoys for its proper operation the rise times always need to be synchronized when one float rises to the other for the docking for this reason the larger the number of buoys and the number of axes the better. transmits power to the shaft that will rotate a generator or other machines that need power to move as I will show the machine with its float-up movements exert when the tubose is vertical and the machine stops and starts the float-up . But it can also be different by changing the external fitting so that the movements of the floats are performed with the moving tubes and transfers this movement to the fitting of the catraka, since it allows us to perform the movements immediately as the float rises, just check the movement of the float. a bicycle to better understand how it is possible to transfer your motion without stopping the machine, as there is only movement when the float moves and at the same time transfers it to the catraka. (Figure 1) Axis one of the water-filled tube supports where the buoys move (1), axis two of the water-filled tube supports where the buoys move, it should be noted that this axis is equal to axis one, except that it has to be separated to tune the buoys and the machine stops to perform each upward movement at different times of the buoys (2), water filled tube where the buoys move (3), water filled tube where the buoys move ( 4), water-filled tube where floats are moving (5), water-filled tube where floats are moving (6), water-filled tube where floats are moving (7), water-filled tube where floats are moving (8) ), water-filled tube where floats are moving (9), water-filled tube where floats are moving (10), wire rope that rises along with the float at one end of the tube (11), wire rope that makes the same eleven (12) function, steel cable making the same function of eleven (13), steel cable making the It is a function of eleven (14), a steel cable that is at the other end of the tube waiting for the float to rise, when the float has finished its elevation. The eleven cable loosens and coils to where it departed from the cable. to the float, in this movement the machine turns the float along with the tube until it positions the tube vertically and gives the float a new movement and then either a cable on one side of the float or the other cable on the other side of the float and so it is possible to machine perform its movements (15), same function as cable fifteen (16), same function as cable fifteen (17), same function as cable fifteen (18), electric motor on each side of each end of each tube , its function is to wrap the cables when they come loose from the buoys (19), the same function of motor nineteen (20), the same function of motor nineteen (21) the same function of motor nineteen (22), the same function of motor nineteen

(23), the same nineteen engine function (24), the same nineteen engine function (25), the same nineteen engine function (26), the same nineteen engine function (27), the same nineteen engine function (28) ), the same function of motor nineteen (29), the same function of motor nineteen (30), the same function of motor nineteen (31), the same function of motor nineteen (32), the

same function of motor nineteen (33), same function of motor nineteen (34), tip of a tube properly constructed in catraka system to transfer the movement of the buoys to a chain or belts and if possible to move a shaft through its coupling (35). ), the same function as thirty-five (36), the same function as thirty-five (37), the same function as thirty-five

(38) the same function as thirty-five (39), the same function as thirty-five (40), the same function as thirty-five (41), the same function as thirty-five (42), same function as thirty-five (43), same function as thirty-five (44), same function as thirty-five (45), same function as thirty-five (46), same function as the thirty-five (47), the same function

that the thirty-five (48), the same function as the thirty-five (49), the same function as the thirty-five (50), power generator (51), shaft that transfers the power to the generator or other machines need wheel (52), wheel to axle one or gear larger than the length of the tubes to reduce the effort at the pipe turn until the machine stops to position the float upright and start its rise (53), Wheel two that exerts The same function as the fifty-three, but its pipe support is separated to allow the buoys to rise at separate times and to maintain the rotation of the machine (54), electric motor that moves the wheel fifty-three (55), motor that moves the wheel fifty-four (56), breathable breather valve of each pipe to allow through the air vent to improve the rise of the float (57), the same function as fifty-seven (58), the same function as fifty-seven (59), the same function that fifty-seven (60), the same function as fifty-seven (61), the same function as fifty-seven (62), the same function as fifty-seven (63), the same function as fifty this (64), the same function as fifty-seven (65), the same function as fifty-seven (66), the same function as fifty-seven (67), the same function as fifty-seven (68) , the same function as fifty-seven (69), the same function as fifty-seven (70), the same function as fifty-seven (71), the same function as fifty-seven (72), support of shaft one (73), shaft support one (74), shaft support two (75), shaft support two (76), shaft support fifty two (77), shaft support fifty two (78). Wire ropes which are hung on shaft two which perform the same service as elevation of cable eleven buoy (79), wire rope that performs the same function as cable eleven (80), wire rope that performs the same function as cable eleven (79). 8th 1), steel cable which performs the same function as eleven (82), steel cable which performs the same function as fifteen (83), steel cable which performs the same function as fifteen (84), steel cable which performs the same function. same function as fifteen (85), wire rope which performs the same function as fifteen (86). Catraka coupled belt or chain awaiting the passage of each tube in the transfer of uphill movement of buoys (87), catraka coupled belt or chain waiting for the passage of each tube in the transfer of upward movement of buoys (88), coupled belt or chain the catraka that awaits the passage of each tube in the

transfer of the upward movement of the buoys (89), belt or chain coupled to the catraka awaiting the passage of each tube in the transfer of the upward movement of the buoys (90), belt or chain coupled to the catraka awaiting the passage of each tube in the motion transfer buoy (91), belt or chain attached to the catraka

each tube in the transfer of the upward movement of the buoys (92), belt or chain attached to the catraka awaiting the passage of each tube in the transference of the upward movement of the buoys (93), belt or chain attached to the catraka waiting for the passage of each tube in the ascent transfer of the buoys (94), buoy that exerts the force function in the ascent

inside a liquid and properly reused its movement (95), float that exerts the force function on rising inside a liquid and properly reused its movement (96), float that exerts the function of force on the inside of a liquid and properly reused its movement (97), buoy that exerts the function of force in the rise in a liquid and properly

reused its movement (98), buoy that exerts the force function in the sub-center of a liquid and properly reused its movement (99), buoy that exerts the function of force on the rise inside a liquid and properly reused its movement (100) , buoy that exerts the function of force submerged within a liquid and properly reused its movement (101), buoy that exerts the function of force ascending inside a liquid and properly reused its movement (102), Figure (2). figure clarifies better movement of the buoys in greater port with the buoy on the rise point of tube one.In tube two the buoy has already finished the climb, released the cable that climbed attached to it and attached to the other cable, was ready for the turn of the tube. tube along with the float and start new climb and so on.

Claims (5)

1. "HYDRAULIC CIRCULAR MOVING MACHINE ELECTRIC POWER NAGERATIONCharacterized by the fact that it comprises more than one axis of pipe holders in circular stopping movements for rising buoys at different times. This machine is interesting because its consumption for its movements is very small and its output can be large depending on the size of the machine, this machine can be built on a small amount of ground or on a ship's ballast as it can be built on a moving vehicle. I convey that the machine itself can feed through the generation of electrical energy generated by this machine through the reuse of the buoys rise and their respective movements that I describe and claim in its entirety. Round tubes made of iron or other materials filled with water or other liquids, one, two, three, four, five, six, seven and eight, these tubes are superimposed two by two which could be one by one, nothing prevents their function it is to allow a force to be realized when a float in each tube rises and to exert a force on its lift that is transferred in the movement of a catraka to the outside and its movement properly utilized. Tubes that are supported on shaft one (1) Tubes supported on shaft two. Two in two overlays perform the same function as the tubes that are supported on axis one, but there is a separation of axes and axes to make the machine stop possible when the tubes are placed vertically at different times and start the buoys rising. and start moving the machine as the pipes touch at different times it is possible to keep the machine always moving as more pipes more buoys and more shafts can be built separately and thus remain the most uniform machine motion these pipes are constructed of iron or other materials (2 ) One float in each tube of the machine is these floats that when moving give the movement to an outer axis of the machine when the float rises it is attached to the cable and ends its course from the end of the tube to the other end at that time the other cable in the same tube. . The cable that has risen is released and returned to look where it left. Attached to the float by the cable, the machine begins its turn from the pipe or tubes, float or floats to the place from which it started. The tubes are positioned vertically again and start the new movement of the float only this time with the cable fifteen that when rising to the end of the tube the cable eleven is released and the buoy attaches to the cable eleven and starts the new movement and so on, now it rises with the eleven cable, turns the tube rises with the cable fifteen and thus the movements of the machine go, a float in each tube. And two cables in cadatube. These floats are constructed of metal or other resistant and lightweight materials so as to withstand the rising speed and pressure inside the tubes, each float has two snap-in points. (3) Steel cable, these float-holding cables allow reversing the movement of the float, sometimes moist, now in the other direction to reverse the float, it is necessary to be stuck while tapping on the tube reverses its position, leaves a cable and is attached to the other to start the float on another end of the tube. For this reason it has two independent cables. Here it is noteworthy that the machine depending on its size and the speed of moving the materials to be used may be other, as well as ductile shafts replacing the moving steel cable of the buoys in fast and short spaces, the smaller the full tube size. less water is the clear time of the buoys, this is why I claim the movements of this machine in transmission to moving vehicles as this machine can also rotate without pipe stop and its fittings are performed with the moving machine in the power transmission of the buoys. When the inner pulley rotates, it will snap a shaft outside the catraka that fits and transfer the movement to a gear, which rotates a chain or belt to transfer the force to another axis, where the power generator or other means is located. that need this force. (4) Air vent valve to allow air to enter the tubing when the float rises, each tube contains a valve at each end constructed of iron or other materials. (5) Large gear on spindle one, this gear is required to have its diameter greater than the length of the tubes filled with water or other liquid to turn the tubes and position them for the float as the diameter of the gear increases. At the length of the tubes, the greater the effort made by an electric motor to perform its movement on each axis one and two there is a large gear so that it is possible to allow the movements of the raised buoys at separate times. (7) This machine can be made of iron or other materials which nothing prevents its movement, they are very distinct. It is possible to build the machine with one tube which is very slow, so do the demonstration with several tubes and time separation. buoys and their movements. These gears can also be smaller and placing a gearbox in the machine depends on the cost of the parts. (8) All these movements of this machine here claim as a whole. It can be built in large or small size depending on the needs of your use. It is also possible to transfer the force of the buoy upward rotation with the tubes moving only by changing the locking system on the outside of the tube towards the chain or belts. (Figure 2) is a demonstration of the movement of the floats inside tube one and tube two to make it easier to clarify the movements of this machine.