NO330133B1

NO330133B1 - Mechanism for multiplying engine performance

Info

Publication number: NO330133B1
Application number: NO20100263A
Authority: NO
Inventors: Georgios Lelakis
Original assignee: Lelakis Ioannis
Priority date: 2010-02-17
Filing date: 2010-02-17
Publication date: 2011-02-21
Also published as: WO2011115497A1; NO20100263L

Abstract

Mekanisme for multiplisering av motorers ytelse der en horisontalt montert sirkulær disk(fig 1,1) bruker roterende vekters(1,2) sentrifugalkraft for løft av mye større vekt(1,4). Motoren(1,7) som skal ha sin ytelse multiplisert er koblet til den horisontalt monterte disken. De roterende vektende(1,2) er montert på den sirkulære disken(1,1) og koblet med vaier(1,5) til vekten(1,4) som skal løftes. Vaier(1,5) er koblet til vekt(1,4) som skal løftes, går deretter rett opp igjennom et hull diskens(1,1) sentrum, og ut til de roterende vektende(1,2). Vaier(1,5) som er koblet mellom roterende(1,2) og løftet(1,4) vekt går på kulelagre(1,6) montert på den sirkulære disken(1,1). Den tilkoblede motoren(1,7) kan brukes til løft som er mange ganger høyere enn den er spesifisert for uten å bruke merkbar mer energi. Mengden ytelsesmultiplisering er avhengig av diskens(1,1) turtall og de roterende vekters(1,2) antall og mengde. Mengden ytelsesmultiplisering uten merkbart økt forbruk av energi kun begrenses av konstruksjonsmaterialenes styrke og sikkerhet.Mechanism for multiplying engine performance where a horizontally mounted circular disk (Fig. 1.1) uses rotating weights (1,2) centrifugal force for lifting much greater weight (1,4). The motor (1.7) that is supposed to have its performance multiplied is connected to the horizontally mounted disk. The rotating weights (1,2) are mounted on the circular disk (1,1) and connected by wires (1,5) to the weight (1,4) to be lifted. The cables (1,5) are connected to the weight (1,4) to be lifted, then go straight up through a hole of the center of the disc (1,1), and out to the rotating weighting (1,2). Cables (1,5) coupled between rotating (1,2) and lifted (1,4) weight are mounted on ball bearings (1,6) mounted on the circular disk (1,1). The connected motor (1.7) can be used for lifting which is many times higher than specified for without using noticeably more energy. The amount of performance multiplication depends on the speed of the disc (1,1) and the number and amount of the rotary weights (1,2). The amount of performance multiplication without noticeably increased energy consumption is limited only by the strength and safety of the construction materials.

Description

BESKRIVELSE AV OPPFINNELSEN DESCRIPTION OF THE INVENTION

I nåtidens sultende iver på alternativ energi, strengere miljøpolitikk, og nye metoder for energisparing er det alltid behov for nye innovasjoner. In today's hunger for alternative energy, stricter environmental policies and new methods of energy saving, there is always a need for new innovations.

Det finnes mange måter å spare energi på, men metoden denne oppfinnelsen er basert på er ny. There are many ways to save energy, but the method this invention is based on is new.

Om man kunne få multiplisert ytelsen på maskiner i idustri, transport, og privat bruk, uten å forbruke merkbar mer energi, så ville det vært et stort skritt mot fremtidens miljø/energi-problemløsninger. If the performance of machines in industrial, transport and private use could be multiplied, without consuming noticeably more energy, then it would be a big step towards future environmental/energy problem solutions.

Oppfinnelsens mekanisme vil hjelpe å spare store mengder energi ved bruk av alle typer motorer. The mechanism of the invention will help save large amounts of energy when using all types of engines.

Mekanismen egner seg best til ytelsesmultiplisering hos motorer som brukes til løfting av vekt, men kan også ha andre funksjonsområder. The mechanism is best suited for performance multiplication in engines used for lifting weight, but can also have other functional areas.

Oppfinnelsen er en mekanisme for multiplisering av motorers ytelse, (se evt. fig 1) Motoren som skal ha sin ytelse multiplisert er koblet til en horisontalt montert sirkulær disk. Mekanismen bruker roterende vekters sentrifugalkraft for løft av mye større vekt. De roterende vektende er montert på den sirkulære disken koblet med vaier til vekten som skal løftes. Vaier er koblet til vekt som skal løftes, går deretter rett opp igjennom et hull diskens sentrum, og ut til de roterende vektende. Vaier som er koblet mellom roterende og løftet vekt går på kulelagre montert på den sirkulære disken. Den tilkoblede motoren kan brukes til løft som er mange ganger høyere enn den er spesifisert for uten å bruke merkbar mer energi. Det finnes flere tekniske løsninger for å redusere de roterende vekters reiseavstand og for å kontrollere løftet mer presist. Mengden ytelsesmultiplissering er avhengig av diskens turtall og de roterende vekters antall og mengde. Mengden ytelsesmultiplisering uten merkbart økt forbruk av energi kun begrenses av konstruksjonsmaterialenes styrke og sikkerhet. The invention is a mechanism for multiplying the performance of motors, (see possibly fig 1) The motor which is to have its performance multiplied is connected to a horizontally mounted circular disc. The mechanism uses the centrifugal force of rotating weights to lift a much larger weight. The rotating weight ends are mounted on the circular disk connected by wire to the weight to be lifted. Wires are connected to weights to be lifted, then go straight up through a hole in the center of the disk, and out to the rotating weights. Cables connected between rotating and lifted weight ride on ball bearings mounted on the circular disk. The connected motor can be used for lifts many times higher than it is specified for without using appreciably more energy. There are several technical solutions to reduce the traveling distance of the rotating weights and to control the lift more precisely. The amount of performance multiplication depends on the speed of the disc and the number and quantity of the rotating weights. The amount of performance multiplication without appreciably increased consumption of energy is limited only by the strength and safety of the construction materials.

Claims

1. Mechanism for multiplying the performance of engines in which a horizontally mounted circular disk (1) uses the centrifugal force of rotating weights (2,3) to lift a much larger weight (4).

2. Mechanism for multiplying the performance of motors according to claim 1, where the motor (7) which is to have its performance multiplied is connected to the horizontally mounted disc.

3. Mechanism for multiplying the performance of motors according to the preceding requirement, where the rotating weights (2,3) are mounted on the circular disk (1) and connected by cables (5) to the weight (4) to be lifted.

4. Mechanism for multiplying the performance of motors in accordance with the previous requirement, where the wire (5) is connected to the weight (4) to be lifted, then goes straight up through a hole in the center of the disc (1), and out to the rotating weight ends ( 2,3).

5. Mechanism for multiplying the performance of motors according to the preceding claim, where cables (5) which are connected between rotating weights (2,3) and lifted weight (4) run on ball bearings (6) mounted on the circular disk (1).

6. Mechanism for multiplying the performance of motors according to the preceding claim, where the connected motor (7) can be used for lifting that is many times higher than it is specified for without using appreciably more energy.

7. Mechanism for multiplying the performance of motors according to the preceding claim, where the amount of performance multiplication is dependent on the speed of the disc (1) and the number and quantity of the rotating weights (2,3).

8. Mechanism for multiplying the performance of engines according to the preceding claim, where the amount of performance multiplication without appreciably increased consumption of energy is limited only by the strength and safety of the construction materials