CLOSED LOOP ENERGY GENERATING MECHANISM The invention is about a mechanism creating an electric energy cycle with the initial energy it receives from an external source and generating an energy cycle at a closed loop recovering the energy it consumes with the help of an electric engine it is connected to. Electricity is one of the most essential needs in every aspect of daily life. Use of electricity in for operating devices and equipment at home, business, industry, transportation etc. areas is today very widespread. As the cost of generating electricity energy is high, it covers a larger portion of the budgets of countries as well as individuals. Thermal, hydroelectric, natural gas etc. plants are being established for generating electricity. These plants produce energy by consuming certain energy sources. Consumer energy source creates cost on its own and its negative environmental effects are also emerging as a separate cost. Sources such as sun or wind are used to recover energy. However, the problem of transportation such energy obtained through these methods is its high cost.

The cost of electric energy is tried to be avoided through different ways. The goal is to make use of the highest amount of energy possible with the least amount of money spent. With the present technique, electric energy is delivered to locations where it is consumed via wires after being generated at a plant. One of the most expensive items of electric energy production is the cost of transfer. Generally produced in several ways outside the residential areas, electric energy is delivered to houses and workplaces via high voltage transmission lines and under or above ground inner-city transmission lines successively. This is a very high cost. However, as the electric energy produced at the same location where it is consumed would eliminate this high cost, having an ideal solution might be possible.

Utilizing a generator for domestic use for this purpose could be a solution. However, there are also certain problems associated with generator use. The need of fuel procurement for the generator can be regarded as a major one of these problems. Since producing electric energy with a generator is only possible by using such fuels as diesel oil, the issue of cost still maintains its importance. Moreover, noise pollution caused by generators also make domestic-use difficult.

Methods like solar cell and wind power are the solutions which are closest to the ideal. Nevertheless, these are generally not popular enough because of high installation costs as well as necessity of maintenance, and are only used where there is no electric transmission and when there is no other solution available.

With the present technique, a cost-efficient and compact electric power plant, which is easy to install and use, is needed for the production of electric energy at the same place where it will be used.

This invention concerning a mechanism creating an electric energy cycle at closed loop, producing electric energy with the initial energy it receives from an external source and recovering the energy it consumes with the help of an electric engine it is attached to generally consists of an alternator where the electric energy is continuously generated and cycled during the operation of the mechanism, an ammeter on which the current intensity values are indicated, an electric engine which relays the initial energy it receives from the external electric line and loads the alternator as much as the required amount of electric energy, the framework which holds the structure together, a control panel which allows any controls and settings to be done on the mechanism and which also houses the main board, the main board which cuts off the external electric connection of the electric engine when the alternator is loaded with the required energy and which initiates the energy generation within the mechanism, cables, fuse board and earth line.

The invention includes a main board that disconnects the external energy source from the mechanism after the electric energy needed for the closed mechanism has been procured.

This invention is described in more details through illustrations only by referring to the below figures; in these figures;

Figure 1 General view of the Closed Cycle electricity generating mechanism.

References:

NO PART DESIGNATION

1 Alternator

1.1 Ammeter

2 Electric engine

3 Framework

4 Control panel

5 Motherboard

6 Cables

7 Fuse board

8 Earth line

This invention concerning a mechanism creating an electric energy cycle at closed loop, producing electric energy with the initial energy it receives from an external source and recovering the energy it consumes with the help of an electric engine it is attached to generally consists of an alternator (1) where the electric energy is continuously generated and cycled during the operation of the mechanism, an ammeter (1.1) on which the current intensity values are indicated, an electric engine (2) which relays the initial energy it receives from the external electric line and loads the alternator (1) as much as the required amount of electric energy, the framework (3) which holds the structure together, a control panel (4) which allows any controls and settings to be done on the mechanism and which also houses the main board(6), the main board (5) which cuts off the external electric connection of the electric engine (2) when the alternator (1) is loaded with the required energy and which initiates the energy production within the mechanism, cables (6), fuse board (7) and earth line(8).

The invention must be used in the following way: The electric engine (2) runs for a while with the energy received from the external electric connection for ensuring the mechanism gets the initial propulsion. During this time period, the alternator (1) to which the electric engine (2) relays the rotating movement is loaded with electric energy. As soon as the alternator (1) is loaded with the amount of energy required for it to reach its capacity, the control panel (4) and the main board (5) are activated and cut off the energy that the electric engine (2) receives from the external electrical connection. Next, the mechanism generates the electric power independently and distributes it for use.

The alternator (1) which is now loaded the electrical energy as much as its capacity allows, distributes some of this energy to the network for it to be used and relays some other portion of it to the electric engine (2) for enabling the cycle. In this mechanism, the electric engine (2) has two inlets so that it can be fed with the energy relayed from the alternator (1). The rotating movement relayed from the electric engine (2) which continues to operate with the relayed energy provides the alternator (1) sustained energy production. For sustaining the energy cycle, the below correlation must be taken into consideration when specifying the capacity of the alternator (1) and the power of the electric engine (2). "Alternator (1) Capacity > Energy put to use + Power of the electric engine (2) + Loss" In order to minimize the loss, alternator (1) must be brushless type.

For instance, if a 5 kw electric engine (2) is used for feeding in a location requiring about 12 kw energy, an alternator (1) of at least 20 kw must be used.

In the mechanism, the cables (6) and the fuse board are operating with the usual methods and at the usual functions. There is an earth line (8) connected to the framework (3) for discharging the energy accumulated on the framework (3) carrying the mechanism.