GR1009887B - Energy generation mechanism - Google Patents

Abstract

The present invention relates to an energy generating mechanism. The mechanism according to the present invention combines an arrangement of eight mechanical polyspasts with eight cross-gears (N1,2,3,4 Ξ1,2,3,4 01,2,3,4), a fixed rule in the form of an axle ( I) and pistons (A), (B) of the same size, on which dual-action pistons (A), (B) low pressure is applied through a suitable air circuit (II) and energy is generated by the piston (B).

Description

ENERGY PRODUCTION MECHANISM

Description

The present invention relates to an energy production mechanism. The mechanism according to the present invention combines an arrangement of eight mechanical multisplits with gears and pistons, on which pistons a low air pressure is applied through a suitable circuit.

State of the art

There are many energy production mechanisms today, which exploit various sources of energy such as the combustion of hydrocarbons, solar radiation, wind energy, etc.

However, there is always the need for the most economical and clean energy production possible. It is in this field that the present invention aims to provide.

Brief description of the invention

The mechanism according to the present invention consists of eight mechanical multisplits with gears (N 1 ,2,3,4 ξ1 ,2,3,4 01,2,3,4) and two pistons (A), (B) on the whose pistons are subjected to low air pressure through a suitable circuit (Π). Both pistons (A), (B) have equal sizes. The two pistons are permanently supported on two bushings. The stem (D) of the piston sleeve (B) is different from the stem (Y) of the piston sleeve (A) to save space. The pistons are connected to each other through movable gears (N1 ,2,3,4 Ξ1 ,2,3,4 O1,2,3,4), racks (T1, 2, 3, 4, 5, 6, 7, 8 ) and a fixed toothed rule in the form of a shaft (I) in a suitable arrangement between them so that during the simultaneous displacement of the two pistons a large force is created due to the assistance of the polyspasts in the rod (D) sleeve which through a pusher (C) and a crankshaft ( L) can be used to produce energy.

The present invention is described below in more detail with the help of Figure 1.

Shape description

In Figure 1, two pistons (A), (B) can be distinguished. The two pistons (A), (B), are double action and are connected to a common air supply device (P), which is connected to the two pistons through the air supply distributor (Z) through the air pocket (E). In the upper part of the figure, the piston (A) can be seen, which is connected to the toothed rods (T1,2,3,4,5,6,7,8) the toothed rods (T1,2,3,4 , 5, 6, 7, 8) are engaged with the gears (N 1 ,2,3,4 Ξ1 ,2,3,4 O1,2,3,4), which at the same time are engaged with the fixed toothed shaft rule (I ). The toothed gears per four are connected at their centers by cylindrical gear support bodies (S) and to the pistons (A) and (B). through the racks. All gears are the same size in fours, differ diametrically in fours according to the distances at movable and fixed points, and have the same pitch. All racks are parallel to each other.

Description of the invention

On the two pistons (A), (B), double acting, a low air pressure, for example, 7 bar, is applied through the air supply device from the air pocket (E), the distributor (Z) and the air supply pipe (P) (see Figure 1).

The two pistons (A), (B) are of equal size. In the lower part of the figure, the piston (A) can be seen, which is permanently connected to the bactro sleeve (Y) by means of toothed rules (Φ1 ,2,3,4. ) the mobile toothed rules (Φ1 ,2,3, 4.) engage with the gears (N 1 ,2,3,4), which at the same time engage with the fixed toothed shaft rule (I). The movement and forces are transferred from the piston (A) through the movable toothed rules (Φ1 ,2,3,4. ) engaged with the toothed gears (N 1 ,2,3,4), each separately with the fixed toothed rule axis (I) parallel to the notched rules (Φ1 ,2,3,4). The toothed gears (N 1,2,3,4) are connected in their center with the cylindrical trunks (S1~3). The trunk moves up or down depending on the air pressure in the same direction that is exerted on the pistons (A), (B) which are double acting simultaneously between an initial and an end position. The distance between the initial and final position is not equal in both pistons because we have a differential division, the eight gears of them are of equal size and four of those involved in the piston (A) are of different size and all the teeth have the same pitch.

Description of the operating cycle of the mechanism.

The two pistons are in their original lower position. The supply of low air pressure, e.g. 7 bar, is put into operation. Applying the rules of mechanics it is found that due to the pressure exerted on the surfaces of the pistons in the rod (D) sleeve plus the force from the piston (B) we get about three times the force on the piston (B). This power can be used to produce energy. Both pistons perform a reciprocating engine similar to steam through the air supply manifold (Z).

It is obvious that changes can be made in the geometry and sizes of the technical features of the invention while remaining within the scope of protection of the invention as defined by the claims.

List of reference symbols:

A piston

B piston

C pusher

D piston sleeve rod (B)

E air pocket

Z air distributor

The cylinder

Th piston cylinder sleeve (A)

I fixed rule in axis form

K metal disc guide toothed bars L pusher

M piston cylinder (B)

(N1,2,3,4 X1,2,3,4 O1,2,3,4) . gears

P air supply pipe

R piston cylinder sleeve (B)

Cylindrical gear support body

T1 ~ 8 toothed bars

Y piston cylinder sleeve (B)

(Φ1~4) dentate rules

Claims (1)

1. Energy production mechanism, which consists of two pistons (A), (B), a pressure supply device (Π), eight gears of a cross arrangement (N1 ,2,3,4 Ξ1,2,3,4 01,2 ,3,4) , a fixed toothed rule in the form of a shaft (I), eight movable toothed bars of single toothing (T 1 ~ 8 ) which is characterized by the fact that the piston (B), from which the energy is produced, has the same size as the piston (A) and in the lower part the piston (A), is permanently connected to the bactro sleeve (Y) through toothed rules (Φ1,2, 3,4.), the movable toothed rules (Φ1 ,2,3,4.) engage with the gears (N1 ,2,3,4), which at the same time engage with the fixed axis toothed rule (I), the movement and the forces are transferred from the piston (A) through the movable racks (Φ1,2,3,4.) which mesh with the rack gears (N1,2,3,4), each separately with the fixed rack rack shaft ( I) parallel to the toothed rules (Φ1,2,3,4), since the toothed gears (N 1,2,3,4) are connected in their center to the cylindrical logs (Σ1 ~3) which through the toothed rods of single toothing (T1 ~ 8 ) they transfer the movement and the forces to the piston (B), where the logs (S1~3) move up or down according to the pressure exerted on the double action pistons (A ) and (B).