BR102016002854A2 - UNIFIED PARALLEL BUS MECHANICAL POWER SYSTEM - Google Patents

Abstract

unified mechanical power system in parallel bus. This invention is a mechanical energy unification system produced by 2 (two) or more sources. This system can be used in machines, equipment and / or structures, such as: hydroelectric plants, vertical axis wind power plants and / or others. The system minimizes friction between mechanical energy unification structures, giving the near-nullity of dissipated energy between them, resulting in a measurable increase in power source efficiency.

Description

(72) Inventor (s): NAILSON PEREIRA BARROSO (54) Title: UNIFYING SYSTEM (57) Abstract: Energy Unifying System

MECHANICAL ENERGY ON BUS Mechanical on Parallel Bus. It is about

PARALLEL present invention of a unification system (51) Int. Cl .: F03C 4/00; F03B 11/06; F03D 3/02; 9 ^{ener of} mechanical ^was produced by 2 (two) or more sources. This system can be used in machines, equipment and / or structures, such as: hydroelectric plants, wind power plants with vertical axis and / or others. The system minimizes the friction between the mechanical energy unification structures, giving the energy dissipated between them almost null, resulting in a measurable increase in the efficiency of the energy source.

1/3

Parallel Bus Mechanical Energy Unification System [001] This invention refers to a process of mechanical energy unification that can be used in machines and / or equipment that need to unify the mechanical energy produced by 2 or more sources, such as : hydroelectric plants, wind power plants with vertical axis and / or others.

[002] Currently the Mechanical Energy Unification Systems are based on the following sets of processes: worm, pawns, belts, gears and chains.

[003] In the aforementioned processes, there is an intense dissipation of energy in the contacts between the unification structures.

[004] In order to solve this inconvenience, the present invention was developed, through which, minimizing the friction between the energy unification structures, there is almost nullity of the energy dissipated between them, resulting in a measurable increase performance of the energy source.

[005] The invention can be better understood through the following detailed description, in line with the attached figures, where:

[006] FIGURE 01 represents a perspective view of the 2 (two) support structures (ESE) and (ESD), interconnected at the bottom through a base (BST) that supports the 6 (six) axes (ET1) , (ET2), (ET3), (ET4), (ET5) and (ET6) of the 6 (six) hydraulic turbines.

[007] FIGURE 02 represents a perspective view of the water flow (F) for driving the 6 (six) hydraulic turbines. The mechanical energy that each hydraulic turbine produces with the force of the water is transferred to the primary draw bar (Bl) of the system through the 6 (six) connecting pins (PL1), (PL2), (PL3), (PL4) , (PL5) and (PL6). This primary traction bar (Bl) transports mechanical energy through the System

2/3

Parallel Bus Mechanical Energy Unifier for the generator shaft (EG1).

[008] FIGURE 03 represents a detailed view of the Left Side Support Structure (ESE), with emphasis on the primary drawbar (Bl), the secondary drawbar (B2) and its support guides, on the 2 (two ) transversal guides (GST1) and (GST2) and in the 4 (four) parallel guides (GSP1), (GSP2), (GSP3) and (GSP4).

[009] As shown in FIGURE 03, the draw bars (Bl) and (B2) move transversely in relation to the support guides (GST1) and (GST2). These guides in conjunction with the pull bars (Bl) and (B2) move in parallel with the support guides (GSP1), (GSP2), (GSP3) and (GSP4).

[010] FIGURE 04 represents a detailed view of the Right Side Support Structure (ESD), with emphasis on the primary drawbar (Bl), the secondary drawbar (B2) and its support guides, on the 2 (two ) transversal guides (GST3) and (GST4) and in the 4 (four) parallel guides (GSP5), (GSP6), (GSP7) and (GSP8).

[011] As shown in FIGURE 04, the draw bars (Bl) and (B2) move transversely in relation to the support guides (GST3) and (GST4). These guides together with the draw bars (Bl) and (B2) move in parallel with the support guides (GSP5), (GSP6), (GSP7) and (GSP8).

[012] In FIGURE 05, 2 (two) support structures (ESD) and (ESE) can be seen. On the right side (ESD) the base support / generator axis (EG1) and the parallel guides (GSP5), GSP6), (GSP7) and (GSP8) are attached. On the left side (ESE) the base support axis (EG2) and parallel guides (GSP1), (GSP2), (GSP3) and (GSP4) are attached.

[013] FIGURE 06 represents a perspective view of the Unified System of Mechanical Energy in Parallel Bus, where 2 (two) support structure (ESE) and (ESD) and 2 (two) are observed

3/3 pull bars (Bl) and (B2), each having 2 (two) cross guides and 4 (four) parallel guides.

[014] The drawbars (Bl and B2) move in parallel in the same direction of rotation, around the axes (EG1) and (EG2), in different planes, along the circumferences delimited by the radii (EG1 - PL6) and (EG2 and PL1). In the same way and simultaneously the axes (EG1 - E2) and (EG2 - El) work, interconnected through the arms (Bll), (BI2), (BI3) and (BI4), having the axes (EG1) and (EG2) as support points, attached to the support structure (ESE) and (ESD) respectively. The axes (El and E2) act as a resistance point, fixed on the drawbar (B2), while the axes / pins (PL1), (PL2), (PL3), (PL4), (PL5) and (PL6) work as power points, affixed to the drawbar (Bl), with the axes (EG1) and (E2) joined by the arm (BI3). The axes (EG2) and (El) are joined by the arm (Bll), while the axes (E2) and (PL6) are joined by the arm (BI4). The axes (El) and (PL1) are joined by the arm (BI2). The arms connecting the axes (El) - (EG2) and (El) - (PL1) form an angle of 90 degrees. The arms connecting the axes (E2) - (EG1) and (E2) - (PL6) also form an angle of 90 degrees.

[015] According to FIGURE 06, the output of the forces applied by the 6 (six) hydraulic turbines, will be on the transport pins / axes (PL1), (PL2), (PL3), (PL4), (PL5) and (PL6 ), which are the fulcrums of the levers along the drawbar (Bl), the axles (EG1) and (EG2) being their points of support and power.

1/1

Claims (6)

1. Parallel Bus Mechanical Energy Unification System, characterized by 2 (two) pull bars (B1) and (B2), which move in parallel, in the same direction of rotation, around the axes (EG1) and (EG2) , in different planes, along the circumferences delimited by the rays (EG1 - E2), (EG1- PL6) and (EG2 - E1), (EG2 - PL1) respectively. 2. Parallel Bus Mechanical Power Unification System, according to claim 1, characterized by 6 (six) axes / pins (EG2), (E1), (PL1), (EG1), (E2) and (PL6) , interconnected through the arms (BI1), (BI2), (BI3) and (BI4), having the axes (EG2) and (EG1) as support points, affixed to the support structure (ESE) and (ESD) respectively, the axes (E1 and E2) act as a resistance point, affixed to the drawbar (B2), while the axes / pins (PL1), (PL2), (PL3), (PL4), (PL5 ) and (PL6) function as power points, attached to the drawbar (B1), with the axes (EG1) and (E2) joined by the arm (BI3) and the axes (EG2) and (E1) joined by the arm ( BI1), while the axes (E2) and (PL6) are joined by the arm (BI4) and the axes (E1) and (PL1) joined by the arm (BI2), and the arms connecting the axes (E1) - (EG2) and (E1) - (PL1) form an angle of 90 degrees, in the same way the arms connecting the axes (E2) - (EG1) and (E2) - (PL6) also form an angle 90 degrees. 3. Mechanical Energy Unifying System in Parallel Bus, according to claim 1, characterized by 4 (four) transversal movement guides and 8 (eight) parallel movement guides, affixed to the support structures (ESE) and (ESD) , with the draw bars (B1) and (B2) transverse movement in relation to the movement guides (GST1), (GST2), (GST3) and (GST4) and these, together with the draw bars (B1) and (B2), have parallel movements in relation to the movement guides (GSP1), (GSP2), (GSP3), (GSP4), (GSP5), (GSP6), (GSP7) and (GSP8). Petition 870160031502, of 06/27/2016, p. 3/9 1/6 E5E Petition 870160031502, of 06/27/2016, p. 4/9 2/6 Petition 870160031502, of 06/27/2016, p. 5/9 3/6 εο - vdnau Petition 870160031502, of 06/27/2016, p. 6/9 4/5 ESD Petition 870160031502, of 06/27/2016, p. 7/9 5/6 Petition 870160031502, of 06/27/2016, p. 8/9 6/6 Petition 870160031502, of 06/27/2016, p. 9/9 ι / i