ES2532519A1 - Gravitational motor by liquid pumping (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Gravitational motor by liquid pumping. Consisting of a structure that supports a vertical transport conveyor of containers, guided between two main axes. In this transmission, containers are installed, which are filled in the upper part of the engine by means of a liquid pumping system and emptied in the lower part. The containers full of liquid descend attracted by gravity, giving a sense of rotation to the axes and to the transmission that holds them. This rotation will be multiplied by relations with cogwheels on secondary axes, in order to feed a pump system and an electric generator of any conventional type. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

Gravitational motor for liquid pumping.

Object of the invention 5

The present invention relates to an energy generator, specifically a gravitational motor capable of generating a rotating movement, which can be directly used for any purpose but which will preferably convert said movement into electrical energy. 10

The object of the invention is to transform said terrestrial gravitational energy into said electrical or mechanical energy.

Background of the invention

As is known, there are electrical generators that are capable of transforming a rotating and mechanical movement into electrical energy, by turning a spiral or coil of turns in a magnetic field. As gravity is also known, it implies a practically inexhaustible source of energy, so that any body is attracted towards the center of the earth and in its displacement is able to mobilize any object that can be dragged.

No device is known to date that is capable of combining the gravitational effect with the performance of an electric generator, to obtain 25 electricity.

Detailed description of the invention

The object to which the invention is intended to be patented is defined by the following description, which is not intended to limit its scope.

The gravitational engine that the invention proposes constitutes a technological advance in this field of alternative energies and allows, as previously stated, to transform gravitational energy into electrical energy. 35

For this, and more specifically, the gravitational motor for pumping liquid that is recommended is constituted by a metal structure in vertical or upward position, which supports a double transmission of container transporters, joined to two main axes by means of two cogwheels and keyed to each axis It could also contain other axes of reinforcement according to the dimensions of the gravitational motor, but the most notable are two. A main shaft is placed in the upper area of the engine and the second main shaft is installed in the lower area of the engine, the two axes are parallel and horizontal, subject to the structure by means of bearings with support.

 Four. Five

Said conveyor transmission carries containers capable of containing liquid and rotates on the main axes mentioned above. The number of containers and their capacity depend on the height of the conveyor transmission and the power that has been decided for the engine design.

 fifty

While one part of the transmission is lowered with containers loaded with liquid with the filling opening remaining in the upper area of the container, the other part of the transmission raises the inverted containers, leaving the filling opening to the lower part. Naturally, the containers rise in a vacuum, because before ascending they automatically empty the liquid into a main container located in the lower area of the motor.

By means of any water pumping system, the water in said container is suctioned and conducted by a pipe to the top of the engine.

 10

The containers are constantly filled in the upper area of the engine, but in the course of the inverted position to the filling position, if the jet of water were direct from the pump to the containers, it is evident that it would collide in the outer walls thereof and it would spill throughout the system. In addition, much of the effort of the pumping system would be wasted because the water would fall back into the lower container. 15 To solve this problem, an upper container has been installed in the upper part of the engine, which stores the water that will constantly go up the pumping system. This container has a drain pipe to carry the excess water to the main container and a tap with a closing lever, installed above and to the center of the opening of the containers, just when they are placed in the filling position. The nature of said tap is always to be in an open position to let the water out, it only closes when the inverted containers press the closing lever, in the entire filling positioning path. Once the containers are placed in said position, the lever moves backwards, driven by a spring to its initial position, leaving the tap open again, which allows the accumulated water to escape vigorously, to finally achieve a fast and clean filling of the containers.

Water filled containers descend attracted by gravity giving a sense of rotation to the conveyor that supports them and their two main axes, with the lower main axis responsible for transmitting the rotation to the secondary axes through a cogwheel. and keyed or pulley and its corresponding transmission. Installed by means of bearings with support, the three secondary axes are responsible for multiplying the turns by means of relations with sprockets or pulleys and their corresponding transmissions, to power the pumping system and an electric generator of any conventional type. 35

In the path that makes the transmission of the containers filled with liquid, some cylinders with bearings located behind the transmission that turn freely are installed, in order to better support the weight of the containers and guide a completely vertical descent. 40

Obviously, the power of the gravitational engine will vary depending on the height of the engine, the number of containers it contains and the capacity of each container, but the descent speed also greatly influences. The slower the displacement of the container conveyor transmission, by expanding the number of secondary axles and new relationships with sprockets, to obtain a significant multiplication of the turns of the main shaft, the greater the time to ensure complete filling of the containers.

However the tendency of the engine is normally of a continuous increase of the acceleration.

To avoid such behavior, the lower main shaft has a brake installed that helps maintain the desired speed and constant displacement without acceleration. Said brake also has a total braking position, which is used to stop or start the gravitational engine. Only by releasing this position, the gravitational engine will start by starting the movement and pumping liquid. Another fundamental piece is the revolution count that is installed on the last secondary axis, this axis being responsible for turning at a minimum of turns per minute, necessary to properly operate the pumping system and the electric generator. This counter will be a key piece for system control.

 10

Description of the drawings

To complement the description that will then be made and in order to help a better understanding of the characteristics of the invention, a detailed description will be made based on a set of drawings that accompany this descriptive report, forming an integral part of it, where the following are merely indicative and non-limiting:

Figure 1 shows a schematic representation in side view of the gravitational engine made in accordance with the object of the present invention. twenty

It should be noted that the representation of the containers has been through the simulation of tanks with a transparent side, but it only has the purpose of being able to better show their filling and emptying.

 25

Figure 2.- Shows, also according to the schematic representation, a plan view of the assembly of the previous figure. In order to better understand the internal mechanism of relationships between shafts and vessels, this plane has been represented without the upper container (23).

 30

These figures include the following numbered elements:

1 Container conveyor transmission

2 Descending container filled with liquid 35

3A Lower Main Shaft

3B Top Main Shaft

 40

4 Bearing with support

5 Liquid outlet pipe

6A 1st Secondary axis 45

6B 2nd Secondary axis

6C 3rd Secondary axis

 fifty

7 Relationships to multiply the laps

8 Cogwheel, generator transmission

9 Liquid pump

10 Inlet pipe 5

11 Metal structure

12 Cogwheel, primary shaft transmission

 10

13 Mechanical brake

14 Liquid

15 Empty up liquid container 15

16 Anchors of the vessels in the transmission

17 Main Container

 twenty

18 Transmission to secondary axis

19 Electric generator

20 Cogwheel of container conveyor transmission 25

21 Support Cylinder

22 Drain

 30

23 Top container

24 Closing lever

25 Tap 35

26 Rev counter

Preferred Embodiment of the Invention

 40

According to and as can be seen in the aforementioned figures, an embodiment of a purely exemplary title is that represented in Figures 1 and 2, wherein the system in question comprises a structure (11), which supports a vertical transmission (1), joined, conveyor of containers that will rise and fall circling on a minimum of two main axes (3A and 3B) by means of two cogwheels (20) and keyed to each axis. The transmission will also be guided by freely rotating cylinders (21) with bearings (4) located behind the transmission, in order to better support the weight of the containers and guide the transmission to a completely vertical descent. We have the upper (3B) and lower (3A) axle, which the latter has a mechanical brake (13) installed to prevent engine acceleration. Said brake also has the function of stopping and starting the gravitational engine. These axes are subject to the structure by

bearings (4), in horizontal position and parallel to each other. In said transmission, the vessels (2 or 15), which are filled in the upper part of the engine by water pumping, with any pumping system (9) are installed by means of anchors (16). The containers empty the water (15) in the ascent by being inverted, to a main container (17) placed at the bottom, where the pump draws water 5 from said container to conduct it through a pipe to the top of the engine ( 10 and 5). In this area there is installed an upper container (23) that stores the water that will constantly rise, driven by the pumping system. This container has a drain pipe (22) to carry the excess water to the main container and a tap (25) with a closing lever (24). Once the containers are placed in the filling position, the lever moves back to its initial position, leaving the tap open, which allows the accumulated water to escape vigorously, to finally achieve a rapid filling of the containers.

Water filled containers (2) descend attracted by gravity giving a direction of rotation 15 to the main axes (3A and 3B) by displacing the conveyor transmission in which they are installed (1). The lower main shaft (3A) through a cogwheel (12) or pulley and its transmission, transmits said rotation to the secondary axles (6A, 6B and 6C), responsible for multiplying the turns by means of relations with cogwheels or pulleys and its transmissions (7), to power the pumping system (9) and an electric generator 20 (19) of any conventional type. The last secondary axis (6C) has a speedometer (26) to control the accelerations of the engine.

Claims (5)

1. Gravitational motor by pumping liquid, which with the purpose of transforming terrestrial gravitational energy into electrical energy, is characterized by being constituted from a structure that supports a transmission of containers, 5 placed vertically or upwards, guided by gear wheels properly attached to main axles, or also guided by cylinders. At least there are two main axes, placed one in the upper area of the engine and one in the lower area, installed to the structure by means of bearings, the two axes are parallel and horizontal. Said conveyor transmission carries containers capable of containing liquid and rotates on the main axes mentioned above. While one part of the transmission is lowered with containers loaded with liquid with the filling opening remaining in the upper area of the container, the other part of the transmission raises the inverted containers, leaving the filling opening to the lower part. Naturally, the containers rise in a vacuum, because before ascending they automatically empty the liquid into a main container located in the lower area of the engine. Any liquid pumping system is installed, with a liquid inlet pipe located inside the main container and connected to the said pumping system and another liquid outlet pipe, placed in the same pumping system being its entire path verticality of the gravitational motor, with the outlet opening at the top of it. A speed multiplier mechanism is also installed, which multiplies the speed of the container conveyor transmission, consisting of axles installed to the structure by means of bearings, relations with sprockets or pulleys and their corresponding transmissions, in order to feed the system correctly of pumping and an electric generator of any conventional type.  30 2. Gravitational motor by pumping liquid, according to claim one characterized by having a brake installed on one of the main axes, which will prevent the acceleration of the gravitational motor. Said brake is also used when starting or stopping the engine. 3. Gravitational motor for liquid pumping, according to claim one, characterized in that it has cylinders with bearings installed in the structure that rotate freely, located behind the transmission, in parallel with the main axes and horizontally, for the purpose of better withstand the weight of full containers and guide the transmission in its descent.  40 4. Gravitational motor for liquid pumping, according to claim one characterized by having a tank installed in the upper part of the engine that stores the liquid that will constantly rise driven by the pumping system. This reservoir has a drain pipe that carries excess water to the main container and an automatic shut-off and shut-off tap. Four. Five 5. Gravitational motor for liquid pumping, according to the first claim characterized by having a speedometer, installed on the last axis of the speed multiplier system. This axis is responsible for transmitting the rotation regime necessary for the proper functioning of the pumping system and the electric generator 50.