BR102016002854A2 - UNIFIED PARALLEL BUS MECHANICAL POWER SYSTEM - Google Patents
UNIFIED PARALLEL BUS MECHANICAL POWER SYSTEM Download PDFInfo
- Publication number
- BR102016002854A2 BR102016002854A2 BR102016002854-0A BR102016002854A BR102016002854A2 BR 102016002854 A2 BR102016002854 A2 BR 102016002854A2 BR 102016002854 A BR102016002854 A BR 102016002854A BR 102016002854 A2 BR102016002854 A2 BR 102016002854A2
- Authority
- BR
- Brazil
- Prior art keywords
- axes
- petition
- parallel
- joined
- arm
- Prior art date
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B9/00—Endless-chain machines or engines
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Wind Motors (AREA)
- Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
- Hydraulic Turbines (AREA)
Abstract
sistema unificador de energia mecânica em barramento paralelo. trata-se a presente invenção de um sistema de unificação de energia mecânica produzidas por 2 (duas) ou mais fontes. sistema este passível de ser utilizada em maquinas, equipamentos e/ou estruturas, tais como: usinas hidrelétricas, usinas eólicas com eixo vertical e/ou outros. o sistema minimiza o atrito entre as estruturas de unificação de energia mecânica, dando a quase nulidade da energia dissipada entre as mesmas, resultando num aumento mensurável do rendimento da fonte de energia.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(es): NAILSON PEREIRA BARROSO (54) Título: SISTEMA UNIFICADOR DE (57) Resumo: Sistema Unificador de Energia(72) Inventor (s): NAILSON PEREIRA BARROSO (54) Title: UNIFYING SYSTEM (57) Abstract: Energy Unifying System
ENERGIA MECÂNICA EM BARRAMENTO Mecânica em Barramento Paralelo. Trata-se aMECHANICAL ENERGY ON BUS Mechanical on Parallel Bus. It is about
PARALELO presente invenção de um sistema de unificação (51) Int. Cl.: F03C 4/00; F03B 11/06; F03D 3/02; de ener9ia mecânica produzidas por 2 (duas) ou mais fontes. Sistema este passível de ser utilizada em maquinas, equipamentos e/ou estruturas, tais como: usinas hidrelétricas, usinas eólicas com eixo vertical e/ou outros. O Sistema minimiza o atrito entre as estruturas de unificação de energia mecânica, dando a quase nulidade da energia dissipada entre as mesmas, resultando num aumento mensurável do rendimento da fonte de energia.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.
1/31/3
Sistema Unificador de Energia Mecânica em Barramento Paralelo [001] Refere-se a presente invenção a um processo de unificação de energia mecânica passível de ser utilizada em maquinas e/ou equipamentos que necessitem unificar a energia mecânica produzidas por 2 ou mais fontes, tais como: usinas hidrelétricas, usinas eólicas com eixo vertical e/ou outros.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] Atualmente os Sistemas de Unificação de Energia Mecânica são baseados nos seguintes conjuntos de processos: rosca sem fim, peões, correias, engrenagens e correntes.[002] Currently the Mechanical Energy Unification Systems are based on the following sets of processes: worm, pawns, belts, gears and chains.
[003] Nos processos citados, existe uma intensa dissipação de energia nos contatos entre as estruturas de unificação.[003] In the aforementioned processes, there is an intense dissipation of energy in the contacts between the unification structures.
[004] Com o intuito de solucionar tal inconveniente, desenvolveu-se a presente invenção, através da qual, minimizando o atrito entre as estruturas de unificação de energia, dá-se a quase nulidade da energia dissipada entre as mesmas, resultando num aumento mensurável do rendimento da fonte de energia.[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] A invenção poderá ser melhor compreendida através da seguinte descrição detalhada, em consonância com as figuras em anexo, onde:[005] The invention can be better understood through the following detailed description, in line with the attached figures, where:
[006] A FIGURA 01 representa uma vista em perspectiva das 2 (duas) estruturas de sustentação (ESE) e (ESD), interligadas na parte inferior através de uma base (BST) que dá suporte aos 6 (seis) eixos (ET1), (ET2), (ET3), (ET4), (ET5) e (ET6) das 6 (seis) turbinas hidráulicas.[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] A FIGURA 02 representa uma vista em perspectiva do fluxo da água (F) para acionamento das 6 (seis) turbinas hidráulicas. A energia mecânica que cada turbina hidráulica produz com a força da água é transferida para a barra primária de tração (Bl) do sistema através dos 6 (seis) pinos de ligação (PL1), (PL2), (PL3), (PL4), (PL5) e (PL6). Esta barra primária de tração (Bl) transporta a energia mecânica através do Sistema[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
2/32/3
Unificador de Energia Mecânica em Barramento Paralelo para o eixo do gerador (EG1).Parallel Bus Mechanical Energy Unifier for the generator shaft (EG1).
[008] A FIGURA 03 representa uma vista detalhada da Estrutura de Sustentação do Lado Esquerdo (ESE), com ênfase na barra primária de tração (Bl), na barra secundária de tração (B2) e suas guias de sustentação, nas 2 (duas) guias transversais (GST1) e (GST2) e nas 4 (quatro) guias paralelas (GSP1), (GSP2), (GSP3) e (GSP4).[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] Conforme a visão da FIGURA 03, as barras de tração (Bl) e (B2) se movimentam de forma transversal em relação às guias de sustentação (GST1) e (GST2). Estas guias em conjuntos com as barras de tração (Bl) e (B2) se movimentam em paralelo em relação as guias de sustentação (GSP1), (GSP2), (GSP3) e (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] A FIGURA 04 representa uma vista detalhada da Estrutura de Sustentação do Lado Direito (ESD), com ênfase na barra primária de tração (Bl), na barra secundária de tração (B2) e suas guias de sustentação, nas 2 (duas) guias transversais (GST3) e (GST4) e nas 4 (quatro) guias paralelas (GSP5), (GSP6), (GSP7) e (GSP8).[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] Conforme a visão da FIGURA 04, as barras de tração (Bl) e (B2) se movimentam de forma transversal em relação às guias de sustentação (GST3) e (GST4). Estas guias em conjunto com as barras de tração (Bl) e (B2) se movimentam em paralelo em relação às guias de sustentação (GSP5), (GSP6), (GSP7) e (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] Na FIGURA 05 podem-se observar 2 (duas) estruturas de sustentação (ESD) e (ESE). No lado direito (ESD) estão afixados o eixo base de apoio/gerador (EG1) e as guias paralelas (GSP5), GSP6), (GSP7) e (GSP8). No lado esquerdo (ESE) estão afixados o eixo base de apoio (EG2) e as guias paralelas (GSP1), (GSP2), (GSP3) e (GSP4).[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] A FIGURA 06 representa uma visão em perspectiva do Sistema Unificador de Energia Mecânica em Barramento Paralelo, onde são observadas 2 (duas) estrutura de sustentação (ESE) e (ESD) e 2 (duas)[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 barras de tração (Bl) e (B2), tendo cada uma 2 (duas) guias transversais e 4 (quatro) guias paralelas.3/3 pull bars (Bl) and (B2), each having 2 (two) cross guides and 4 (four) parallel guides.
[014] As barras de tração (Bl e B2) se movimentam paralelamente no mesmo sentido de rotação, em torno dos eixos (EG1) e (EG2), em planos diferentes, ao longo das circunferências delimitadas pelos raios (EG1 - PL6) e (EG2 e PL1). Do mesmo modo e simultaneamente funcionam os eixos (EG1 - E2) e (EG2 - El), interligados através dos braços (Bll), (BI2), (BI3) e (BI4), tendo os eixos (EG1) e (EG2) como pontos de apoio, afixados na estrutura de sustentação (ESE) e (ESD) respectivamente. Os eixos (El e E2) exercem a função de ponto de resistência, afixados na barra de tração (B2), enquanto que os eixos/pinos (PL1), (PL2), (PL3), (PL4), (PL5) e (PL6) funcionam como pontos de potência, afixados na barra de tração (Bl), sendo os eixos (EG1) e (E2) unidos pelo braço (BI3). Os eixos (EG2) e (El) são unidos pelo braço (Bll), enquanto que os eixos (E2) e (PL6) são unidos pelo braço (BI4). Já os eixos (El) e (PL1) unem-se pelo braço (BI2). Os braços que ligam os eixos (El) - (EG2) e (El) - (PL1) formam um ângulo de 90 graus. Os braços que ligam os eixos (E2) - (EG1) e (E2) - (PL6) formam também um ângulo de 90 graus.[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] Conforme a FIGURA 06, a saída das forças aplicadas pelas 6 (seis) turbinas hidráulicas, será nos pinos/eixos de transporte (PL1), (PL2), (PL3), (PL4), (PL5) e (PL6), que são os fulcros das alavancas aos longo da barra de tração (Bl), sendo os eixos (EG1) e (EG2) seus pontos de apoio e potência.[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.
1/11/1
Claims (6)
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
BR102016002854-0A BR102016002854A2 (en) | 2016-02-11 | 2016-02-11 | UNIFIED PARALLEL BUS MECHANICAL POWER SYSTEM |
PCT/BR2017/000059 WO2017147673A2 (en) | 2016-02-11 | 2017-02-07 | Mechanical energy unifying system in parallel busbar |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
BR102016002854-0A BR102016002854A2 (en) | 2016-02-11 | 2016-02-11 | UNIFIED PARALLEL BUS MECHANICAL POWER SYSTEM |
Publications (1)
Publication Number | Publication Date |
---|---|
BR102016002854A2 true BR102016002854A2 (en) | 2018-03-20 |
Family
ID=59742335
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
BR102016002854-0A BR102016002854A2 (en) | 2016-02-11 | 2016-02-11 | UNIFIED PARALLEL BUS MECHANICAL POWER SYSTEM |
Country Status (2)
Country | Link |
---|---|
BR (1) | BR102016002854A2 (en) |
WO (1) | WO2017147673A2 (en) |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2448339A (en) * | 2007-04-12 | 2008-10-15 | Adrian Janssen | Turbine blade adjustment |
GB2450077B (en) * | 2007-05-31 | 2009-11-11 | Edinburgh Designs Ltd | Turbine for tidal power generation |
KR101001056B1 (en) * | 2010-02-19 | 2010-12-14 | 송길봉 | Centripetal type turbine |
US8382425B2 (en) * | 2011-04-08 | 2013-02-26 | Ronald A. Griffin | Hydraulic energy converter |
TWM445079U (en) * | 2012-06-05 | 2013-01-11 | Bing-Yi Wang | Hydroelectric power generation device |
CN103912433B (en) * | 2013-01-08 | 2016-11-02 | 杨旭 | Sea can the outer vertically upward flow pattern water turbine device of power plant current |
-
2016
- 2016-02-11 BR BR102016002854-0A patent/BR102016002854A2/en not_active Application Discontinuation
-
2017
- 2017-02-07 WO PCT/BR2017/000059 patent/WO2017147673A2/en active Application Filing
Also Published As
Publication number | Publication date |
---|---|
WO2017147673A3 (en) | 2017-12-21 |
WO2017147673A2 (en) | 2017-09-08 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
ES2569727T3 (en) | Connection terminal with a drive lever supported such that it can rotate around an axis of rotation | |
KR101787698B1 (en) | A device for solar generation of electric power on water | |
ES2061330T3 (en) | DOLL FOR A ROBOT OR INDUSTRIAL AUTOMAT. | |
BR112017004114A2 (en) | power transmission tower | |
CL2008002011A1 (en) | Solar energy concentrator that includes at least one module comprising a laminar body with an arched structure, with guiding means by means of which the structure tilts depending on a sensor that activates a device that positions each module in real time with the required orientation according to the position. of the sun | |
BR112013026922A2 (en) | multipurpose rotary device and generating system | |
BR112018014755A2 (en) | egg suspension device, and associated transfer methods and systems | |
BR112015026524A2 (en) | subsea device and method for controlling the posture of the subsea device | |
ES2345084A8 (en) | SOLAR FOLLOW-UP DEVICE FOR PANELS. | |
BR112012008207A8 (en) | LIGHT CONDUCTOR DEVICE | |
BR112017016265A2 (en) | electric storage medium, and vehicle | |
BR112022006671A2 (en) | METER AND SOCKET FOR USE WITH A DISTRIBUTED POWER RESOURCE DEVICE | |
BR112014027225A2 (en) | multi-axis industrial robot with integrated tool | |
BR112012024109B8 (en) | SHACKLE CONNECTION DEVICE. | |
BR112021023381A2 (en) | PROTECTION DEVICE AND PROTECTION METHOD FOR PHOTOVOLTAIC ENERGY GENERATION SYSTEM AND PHOTOVOLTAIC ENERGY GENERATION SYSTEM | |
BR112018000271A2 (en) | hall effect thruster and space vehicle. | |
BR102016002854A2 (en) | UNIFIED PARALLEL BUS MECHANICAL POWER SYSTEM | |
BR112018067917A2 (en) | photovoltaic tile with an adjustable length current line | |
CN103950831A (en) | Manipulator for hoisting cylinder | |
CN204753810U (en) | Novel guide mechanism | |
CL2023000298A1 (en) | Photovoltaic installation with a cable support structure | |
BR112015010178A2 (en) | continuous transmission | |
CN103219728A (en) | Agricultural electrified system | |
Xiaoguang et al. | Kinematics analysis and control of under-constrained cable-driven parallel suspension systems | |
BG109737A (en) | Device for mechanical energy production |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
B03A | Publication of an application: publication of a patent application or of a certificate of addition of invention | ||
B06F | Objections, documents and/or translations needed after an examination request according art. 34 industrial property law | ||
B06U | Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure | ||
B11B | Dismissal acc. art. 36, par 1 of ipl - no reply within 90 days to fullfil the necessary requirements |