RS20110092A1 - GRAVITATION ELECTROGREGATE - Google Patents

Abstract

Invention herewith described refers to the gravitational electric generator intended for the production of electricity. For its operation the electric generator uses the gravitational force of gravity and the battery terminal voltage. The batteries are replenished from the generator. The battery terminal voltage is required for starting the gravitational electric generator at the change of loading for more steady operation.The gravitational electric generator operates on the principle of shifting the load from one to the other side of the gravitational electric generator, which means that the load from the left side of the gravitational electric generator is decreased and on the right side, it is increased. The gravitational electric generator operates under the influence of Earths gravitation.

Description

GRAVITATIONAL POWER GENERATOR

(GEA)

Technical field to which the invention relates

The invention belongs to the field of electricity production.

Technical problem

The invention solves the problem of lack of energy sources, cheaper production using eternal energy, gravity.

Exposing the essence of the problem

Earth's weight is eternal energy that has not been used. Gravitational power generator, hereinafter referred to as GEA, works by using the gravitational force of the earth's gravity. The operation of the GEA is based on transferring the load from one side to the other side of the GEA. Under the influence of the earth's gravity, the heavier side falls, repeating the cycle of the levers in figure 2 and 3 (A and B), (C and D) and (E and F) working alternately, accomplishing the operation of the GEA.

Brief description of the draft image

Figure 1 shows the complete layout of GEA.

1. axle holder

2. brush holder and brushes

3. belt with bearing

4th axle

5. hydraulic pumps with variable direction electric motors

6. lamellas for voltage transmission to the pump motor

7. hydraulic hoses

8. hydraulic lever lifters

9. weights on the tops of the levers

10. levers

11. lever carrier and lever support

12. GEA housing and hydraulic oil tank

13. V-belt

14th GEA carrier

15. axle nut

G Generator

Detailed description of the invention

Figure 2 and 3 show the working principle of GEA.

Figure 2 the front of the GEA shows the six levers facing each other. The levers (A and B) are driven by a hydraulic pump (p) which is connected to the slats (a) hereafter (pa).

The levers (C and D), the pump (p) which is connected to the fins (d) hereafter (pd), the levers (E and F) are driven by the pump (p) which is connected to the fins (e) hereafter (pe).

Start of work of GEA. By turning on the switch for supplying voltage from the battery, the voltage of Fig. 3 is supplied to the brushes (2). Slats (a) receive power. The hydraulic pump motor (pa) picture 2 lever (A) turns on. When leveraged

(A) finds 10° before top dead center. Fig. 2 the lever (A) is raised from the horizontal position to the vertical, and the lever (B) from the lower vertical hanging

of the auger, in a horizontal position towards the center of the GEA. Moving the lever (A) to the vertical position moves the load away from the center of the GEA, (increases the load).

At the same time, moving the lever (B) from the vertical lower position to the horizontal towards the center of the GEA reduces the load of that lever (B).

When the lever (A) does its work moving from the top dead center (GMT) to the bottom dead center (DMT) the pump (pa) picture 3 blades (a) reach the lower pair of brushes (- and +) the pump (pa) gets the opposite power from the previous one. Raises Figure 2 the lever (A) from the lower vertical position (DMT) to the horizontal. A lever

(B) rises from the horizontal position to the upper vertical position, i.e. 10° before (GMT) pump (pa). When lever (A) is 10° before (DMT) pump (pa)

receives opposite power and reverse direction. So that the lever (A) goes down, i.e. returns to the horizontal position, and the lever (B) raises towards (GMT) to the vertical position. In this way, the cycle of the levers (A and B) is completed, the cycle continues alternately with the other plows until the power supply to the brushes is turned off. In the manner explained above, the load is transferred from one side (GEA) to the other, i.e. from left to right looking at the picture of 2 plows (A,C,E).

Let's imagine (GEA) as a seesaw where children "seesaw" if they are of the same weight, one person leans forward "reduces the weight" and the other person leans back "increases the weight" outweighs the first person and lifts him up and vice versa. Shifting the load from one side to the other (working) side can be done in several ways: using winches, pulleys and cables, chains, levers, using electromagnets with collapsible levers or, as in Figure 4, using a toothed rack.

These are all leveraged opportunities at (GEA).

I have shown the most efficient way with hydraulics, and for easier explanation the procedure using simple levers.

Existing materials are used for manufacturing (GEA).

Claims (1)

The gravity electric generator (GEA) is intended for the production of electricity. For its work, it uses the gravitational force of the earth's weight and battery voltage. The GEA consists of the following parts: Figure: the GEA housing is completed by a pulley (3) a hydraulic oil tank (12) that connects the pulley (3) in a tight connection, a lever carrier and a lever lifter (8), the housing (12) serves as a pump carrier (p). The housing (12) via the pulley (3) via its bearing and the shaft (4) is fixed by the GEA to the support (14) with the shaft holder clutch (1). Three pairs of slats (6) are mounted on the pulley, and they are moved 120° relative to each other. The brushes with the brush holder (2) are mounted on the shaft (4) (or on the GEA holder) (14). The pulley (3) drives the generator (G) by means of the V-belt (13). Levers (10) with weights (9) on the tops of the levers are mounted on the lever carrier and lever lifters (11). The levers (10) are mounted on the support (11) by means of shafts and bearings. The hydraulic lifters (8) are attached to the levers (10) with a shaft and bearings. The other side of the lifter (8) is attached to the lever support and the lever lifter (11) with a shaft and bearings.