IT201600111433A1 - TWIN-SHAFT TURBINE WITH LONGITUDINAL TRANSLATION FOR ENERGY PRODUCTION. - Google Patents

Description

PROVISIONAL DESCRIPTION OF INDUSTRIAL INVENTION With the title: "Longitudinal translation double shaft turbine for energy production".

Summary

The present invention refers to a machine which ensures production of electrical and / or mechanical energy given by a fluid in motion and suitably harnessed in the system.

In one of its embodiments it comprises: a crankshaft with longitudinal translation connected to the transmission shaft via a catenary where blades moved by fluid harnessed on a floating machine are mounted.

The correct feeding is ensured by the bridles fixed to the machine frame which is anchored to an external constraint.

The electricity produced takes place via a generator driven by the transmission. The mechanical energy produced takes place through the moving blades in turn moved by the transmission.

Additional mechanical energy can be used with output via a secondary shaft.

Furthermore, the "system" is enslaved by the machine control and command center. Field of application of the invention

The present invention refers to a longitudinal turbine (electric machine), for current generators and for generators of potential and alternative energy.

In one of its embodiments it comprises: a catenary where blades moved by fluid harnessed are mounted on a floating machine.

The correct feeding is ensured by the bridles fixed to the machine frame which is anchored to an external constraint.

The electrical and mechanical energy produced takes place via a generator driven by the transmission.

Additional mechanical energy can be used with output via a secondary shaft.

Furthermore, the "system" is enslaved by the machine control and command center. Description of the known art

From physics it is well known that a moving fluid gives rise to a force that acts on a cycloidal section in motion, a torque which, if transmitted to a generator of electric current, direct and / or alternating, thus produces potential energy.

In our case, however, it is a trolley / platform that slides with external static constraints, fixed and / or floating on special modules and / or train of wheels, where a mechanical unit is mounted which transmits the power specially harnessed and extracted from a motion of a chain and / or band in penetrating contact, in the dynamic currents of a fluid, which transmits a torque given by the force and speed of the currents, as well as a function of the penetrating adhesion coefficient of the wheel on the moving fluid itself.

Therefore, to date the state of the art and applied technology, in this case of systems that generate typical and atypical potential energy, as far as is evident from the current state of the art for experts in the sector, highlights that in the largest majority of cases , there is no mechanical system immersed and / or in contact with moving currents of a fluid (e.g. typical water), on one or more moving blades. blade in rotation.

Better to say, the invention shows the way of co-generator of potential energy with a force that translates in its direction, and not with a tangential force acting in its main axis of rotation.

Summary of the invention

These and other purposes are achieved in accordance with the present invention, by means of a "Longitudinal translation double shaft turbine for energy production", comprising: a transmission unit immersed in a moving fluid, a reduction / multiplier unit of revolutions / a generator of current, a command and control unit in order to guarantee the required safety standards. Further advantageous aspects of the present invention are set out in the dependent claims.

By using a second shaft, therefore, a correct and better continuity of the turbine power supply is obtained, compared to those obtainable through the known art.

Furthermore, the invention has an embodiment of simple construction.

Brief description of the figures

The characteristics and advantages of the present invention will become evident from the following description of a practical embodiment thereof, illustrated by way of non-limiting example in the accompanying drawings, in which:

The figure (a1-a2-a3-a4) represents a typical machine according to the known art; ref. mechanical technology applied to hydraulic machines.

Figure (b) represents a typical practical implementation of the invention, used in the machine for the production of energy.

Detailed description of the invention

A machine, according to the known art is shown in the figure (a1-a2-a3-a4), includes a series of "Hydraulic turbine" machines, which are qualified as a mechanical device suitable for transforming the kinetic energy of a liquid in mechanical energy.

An energy production machine, according to a first embodiment of the present invention is shown in figure (b). it includes every single element / component / group referred to in the "overall project": The basic model machine object of the invention consists of the following composition groups:

1. Structure.

2. Floating trolley group.

3. Receiving mechanical group.

4. Power generator group.

5. Electronic control unit.

6. Fairing.

The aforementioned composition as well as the basic forms is designed to receive modular construction sectors without limits, and previously appropriate to specific practical applications.

It should also be highlighted in particular that the various particular mechanical groups, in the practical realization of more complex and articulated mechanical transmission systems, suitable for the production of potential and / or alternative energies, the number of elements inserted in the system both basic and complementary , which transmit and / or receive the various motions or other, can be one in number or indifferently more than one, depending on and depending on the specific application project.

Said real and effective variable is due solely to the calculation of the specific project; mathematical-mechanical, and of the actual powers involved necessary for the realization of the machine expressly desired by the designer.

The practical effect thus obtained is evident in the light of the most non-employed, and is the main fulcrum of the system object of the present invention.

It should also be pointed out that the potential of the system is a function of the active forces put into play as a whole by the specific updated project.

The same will be studied in depth for the engineering and the study of the executive project, which will be carried out for each application required by the real external use.

The main purpose of the present invention is to devise a specific machine suitable for the production of potential and / or alternative energy,

compact in its overall dimensions, but well defined in the so-called significant parameters and determined in the "space-time" factors, as well as the same when considered in relation to the passive power engaged in the whole.

Further characteristics and advantages of the invention, as well as the great innovative evidence of the same, can be seen by carefully observing and analyzing the figures included in the table listed below, as well as will emerge more clearly from the detailed description of one of its embodiments illustrated by way of example, but not for this limitative, of the attached drawings tables:

Table_1; fig. 1,

Therefore, with reference to the aforementioned tables, the materials and components of the "Longitudinal translation double shaft turbine for energy production". according to the present invention, they can be the most varied, such as mechanical, electrical, electronic, hydraulic, pneumatic, etc., depending on the needs of the specific project.

Furthermore, in accordance with the present invention, applications for more complex and articulated machines are not excluded, therefore the number of elements inserted in the actual work process, as well as the mechanical transmissions, can be in a variable number of one, and / or indifferently in a number more than one, and relate to the manufacturing technique of the machine. Any “optional-accessories” are considered to be supplied with it.

Then, among the various innovations of the invention, it is noted that the product (waste) collected in the warehouse is classified as "semi-finished", therefore, of great utility and economic advantage for the subsequent processing process.

Observing also a typical use of the "machine" object of the invention, the economy and savings in terms of; product, space, energy, useful for achieving the best result.

Any other construction detail will be suitably sized according to the updated application, and required by modern technology and will be replaceable by other technically equivalent elements.

In practice, the materials used, as well as the dimensions, and everything else required for the realization, may be any according to the requirements.

Furthermore, the foregoing as a demonstration represents the schematic methods sufficient for the expert person to implement the "project", although, in concrete application, there may be variations.

Therefore, with reference to the preceding description and the attached illustrated tables, the attached claims are expressed.

Claims (1)

General definition (Preamble) With reference to the description and drawings: fig.a; fig.b; fig.c; fig.d; fig. and, of the present invention, the "Longitudinal translation double shaft turbine for energy production", comprising: - Support frame (1), - Mechanical transmission (2), - Push blade (3), - Flow guide bridle (4), - Energy generator (5), - Electronic control unit (6), - Protective fairing (7). The whole as a whole, hereinafter referred to as “Turbine”, finds application principal in the field of potential and alternative energy production. Claim 1 "Turbine" characterized by the fact that the blade (3), receives the thrust (S), from a moving fluid (F), fed by the bridle (4), moves the mechanical transmission (2), through the transmission shaft (1.2), rotates the drive shaft (1.1), connected to a mechanical drive torque transmission unit (1.5?), Transmits the resulting drive torque to the energy generator (5). Claim 2 "Turbine", according to Claim 1, characterized in that the blade (3) is fixed or mobile. Claim 3 "Turbine" according to Claims 1 and 2, characterized in that the blade (3) has a different surface size and shaped profile. Claim 4 "Turbine" according to Claims 1 and 3, characterized in that the blade (3) is mechanically mounted, at constant intervals on the development of the mechanical transmission. Claim 5 "Turbine" according to Claim 4, characterized by the fact that the interval between the standard surface blade (3.1) and the reduced surface blade (3.2), is corresponding to one or more steps of the mechanical transmission. Claim 6 "Turbine" according to Claims 1 and 2, characterized in that the movable blade (3) is orientable. Claim 7 "Turbine" according to Claim 6, characterized in that a mechanical device (3.4?) Is provided for the best performance. Claim 8 "Turbine" according to Claim 7, characterized by the fact that the device is lever 3.5?). Claim 9 "Turbine" according to Claims 7 and 8, characterized by the fact that the lever is self-controlled by a spring (3.6?), With an antagonistic action to the specific pressure. Claim 10 "Turbine", according to Claims 1 and 2, characterized by the fact that the power supply of the blade (3) is guided by a bridle (4) suitably positioned on the frame (1) of the machine. Claim 11 "Turbine" according to Claim 6, characterized in that the bridle (4) is orientable. Claim 12 "Turbine" according to Claim 1, characterized in that the transmission (2) is of the type a); chain, type b); belt, type c); tape, type d); rope, type e); other not well defined. Claim 13 "Turbine", according to Claim 12, characterized in that the transmission (2) is inclinable with respect to its main axis. Claim 14 "Turbine" according to Claim 13, characterized by the fact that the inclination of the transmission (2) is adjustable by means of a screw or other operating element. Claim 15 "Turbine" according to Claim 1, characterized by the fact that the lay shaft (1.2) starts the crankshaft (1.1) through the transmission (2). Claim 16 "Turbine", according to Claim 1 or 15, characterized by the fact that the lay shaft (1.2), and crankshaft (1.1), has an end pin (1.6?). Claim 17 “Turbine” according to Claims 1 and 16, characterized by the fact that the pin (1.6?) Is connected to the mechanical group (1.5?). Claim 18 "Turbine", according to Claim 17, characterized by the fact that the mechanical group (1.5?) Is indifferently a multiplier or a speed reducer. Claim 19 "Turbine", according to Claims 1 and 18, characterized in that the mechanical group (1.5?), Transmits the resulting driving torque to the power generator (5). Claim 20 "Turbine", according to Claims 1, 16 and 19, characterized in that the energy generator (5) receives the torque given by each end pin (1.6?). Claim 21 "Turbine", according to Claims 1 and 19, characterized in that the energy generator (5), produces electrical power. Claim 22 "Turbine", according to Claims 1 and 19, characterized in that the energy generator (5), produces hydraulic power. Claim 23 "Turbine", according to Claims 1 and 19, characterized in that the energy generator (5), produces mechanical power. Claim 24 "Turbine", according to Claim 23, characterized in that the mechanical power is given to an additional output shaft (5.1). Claim 25 "Longitudinal translation twin shaft turbine for energy production", second Claim from 1 to 24, which is characterized by what is described in claim and illustrated in the attached drawing tables: 01/04 - 02/04 - 03/04 - 04/04.