GR20220100012A - Energy generation mechanism - Google Patents

Abstract

The invention relates to an energy generation mechanism consisting of two parallel shafts (1), each shaft (1) having at its ends two toothed wheels (3) with notches (8). Articulated chain (5) encloses the toothed wheels (3) of each shaft (1) and vanes (9) are perpendicularly located on the chains (5). The rotation of the vanes (9) by fluid contributes to the generation of electricity upon conversion of their kinetic energy. The drive shaft (11) transmits the drive to a gearbox (12) and from there, via another high-speed shaft (13), to a generator (14).

Description

DESCRIPTION

ENERGY PRODUCTION MECHANISM

THE FIELD OF TECHNOLOGY

The invention refers to the field of electricity and more specifically to the field of devices for the production of electrical energy and even more specifically to the field of the production of electrical energy from the kinetic energy of a fluid.

THE HISTORY OF THE INVENTION

The power generation mechanism disclosed in the present invention has not been disclosed in the prior art.

Mechanisms for converting kinetic or potential energy have been known for centuries. In recent years, many variations or new inventions have been used to convert kinetic or dynamic energy into electrical energy, with the aim, among other things, of protecting the environment. Wind turbines are usually used, which are placed in clusters on mountain tops, in order to exploit air currents. Correspondingly, dams are created in rivers or lakes, in order to change the direction of water flow, so that hydroelectric power can be produced. However, each of these solutions presents inherent problems, which make them technically complex, but also costly. Wind turbines, in addition to the difficulty of installation, have disadvantages related to the visual pollution of the environment, while at the same time their oversized blades are often made of non-recyclable materials, resulting in material accumulation problems. On the other hand, dams have specific requirements for their installation, are particularly expensive installations and often require huge volumes of water to be efficient. Besides, changing the flow of rivers or creating artificial lakes often has negative effects on the environment as well, since human intervention disturbs the environmental balances.

Also known from the prior art are applications such as WO2018/029387 which presents a system for capturing the energy of fluids, using axial turbines with a free end, where the other end is connected to an electric generator. Similarly known is W02016/030910 which presents a hydro-turbine that works with the kinetic energy of water. The design of this particular turbine is such that its conical shape and its blades form a screw shape and do not affect the flow of water during their rotation.

It is thus an object of the present invention to advantageously address the aforementioned disadvantages and shortcomings of the prior art by proposing a mechanism for power generation.

It is a further object of the present invention to provide an energy generating mechanism of which only the lower branch is the active branch for generating energy.

A further object of the present invention is to provide a power generation mechanism that can be placed wherever there is a flowing fluid, such as for example running water (rivers, sea currents, sewage system flow, industrial waste water), but also in air currents. A further object of the invention is the presentation of an energy production mechanism that exploits the flow of fluids, without requiring the construction of dams and other technical structures to change the direction of the fluid flow.

A further advantage of the invention is the fact that the power generating mechanism has a large number of blades, with a large surface area, which results in the production of large power.

Another characteristic of the invention is that the mechanism can be placed both in streams of fluids with a constant and variable level, ensuring the uninterrupted operation of the mechanism in any condition. In case the fluid level is not stable or the depth is great, the mechanism can be placed on a floating platform, together with means of lifting it, both for the purpose of maintenance and protection of the mechanism from severe weather effects.

An additional characteristic element of the present invention is that it can be placed on a rotating base, which allows the operation of the mechanism by air currents.

Another feature of the power generation mechanism is that it has fins with high stiffness and light weight, so that they do not bend from the pressure of the fluid and the distance between the articulated chains is kept constant.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawings, in which it is illustrated in an illustrative, non-limiting manner.

Figure 1 shows an illustrative perspective view of the energy production mechanism, which exploits fluid kinetic energy.

Figure 2 shows a perspective view of the power generation mechanism mounted and stabilized on a base.

Figure 3 shows in an illustrative illustration the mechanism placed in a stream of fluid, preferably a volume of water.

Figure 4 shows the power generation mechanism on a rotating base, with its upper branch covered, for operational and protection purposes.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawings we will describe illustrative applications of the power generation mechanism, so that its mode of operation and innovative features become apparent.

The power generating mechanism of the present invention consists of two parallel shafts (1), Fig. 1, with two bearings (2) on each shaft (1). Two sprockets (3) are attached to each shaft (1) using a wedge (4), one at each end of the shaft (1). Each wheel (3) is identical to the others in use, having the same pitch, and their rotation is simultaneous, so that there are no synchronization issues. Articulated chain (5), Fig. 3, suitable for transmitting the movement, encloses the toothed wheels (3) located along the shaft (1). Each articulated chain (5) consists of pieces of plate (6), which are connected to each other with pins (7) and form modular assemblies. The pins (7) engage in the notches (8) of the gears (3) during their rotation. A plurality of fins (9) is placed perpendicular to the two chains (5), joining them. The fins (9) preferably have a curved shape and are made of metal alloys, carbon fibers, polyesters or any suitable combination thereof, in order to achieve high rigidity, but also low weight. It is imperative that the fins (9) are constructed in this way so that they are rigid from the pressure of the fluid and that the distance between the two chains (5) is kept constant. The fins (9) may be supported on a metal frame, in the event that their dimensions are such that their further support is required. It goes without saying that the length of the chains (5) and the number of fins (9) also define the power produced by the mechanism. An increase in one or both elements contributes to an increase in energy production capacity.

Only the wings (9) are active which are occasionally located in the lower branch of the mechanism, i.e. from the imaginary line defined by the two parallel axes (1) and towards the ground. The vanes (9) located in the upper part of the mechanism move against the direction of movement of the respective fluid and do not contribute to the production of energy. For this reason, but also for reasons of their protection, the branch, above the imaginary line of the two parallel axes (1) may be covered with a single cover (10), Fig. 4. Along with the vanes, both the toothed wheels (3), as well as the chains (5), leaving the lower branch of the structure exposed to the fluid.

On the front axle (1) and on one of its toothed wheels (3), there is, as a continuation, a drive shaft (11), Fig. 2, which transfers the drive to a gearbox (12) and from there via another high-speed shaft speed (13), the movement is transmitted to a generator (14).

The power generation mechanism of the invention can be installed where there is a flow of fluid, such as for example rivers, sea currents or even industrial effluents. The direction of the fluid flow corresponds to the direction of the arrow in Fig.

1. When the fluid flow is stable and the depth is small, the installation of the mechanism can be done on a base (15), which is stable and fixed to the ground. But in case of unstable fluid flow or great depth, which may be combined with strong currents, the mechanism can be placed on a floating platform. In such an embodiment, the existence by way of lifting the mechanism is recommended so that it can be protected when there are strong weather phenomena or when its maintenance is required. Alternatively, in case the mechanism is used to generate energy from air currents, it is preferable to place it on a rotating base (16), so as to take advantage of the direction of the wind, to maximize the energy produced.

It should be noted at this point that the description of the invention was made with reference to indicative application examples to which it is not limited. Therefore, any change or modification in terms of shape, dimensions, morphology, materials used and construction and assembly components, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the aims and objectives of the present invention as summarized in below claims.

Claims (4)

1. Power generation mechanism, placed in a fluid, consisting of two parallel shafts (1) with two bearings (2) on each shaft (1), where at the two ends of each shaft (1) are fixed two identical toothed wheels (3) with notches (8), enclosed along each axis (1) by an articulated chain (5), made of plates (6) connected to each other by pins (7), engaged in the notches (8) and by fins (9) vertically placed as for the two articulated chains (5), on the front axle (1) there is as a continuation of it a drive shaft (11), transmitting the drive to a gearbox (12) and from there via another high-speed shaft (13), to a generator of electric current (14), characterized by the fact that only the fins (9) located below the imaginary line of the two parallel axes (1) come into contact with the fluid. 2. Power generation mechanism, according to claim 1, characterized in that the cover (10) covers the parts of the toothed wheels (3), the articulated chain (5) and the vanes (9) located above the imaginary line of of two parallel axes (1). 3. Energy production mechanism, according to claim 1, characterized in that it is placed on a base (15). 4. Energy production mechanism, according to claim 1, characterized in that it is placed on a rotating base (16).