The energy converter system Replicant progressive

摘要

The energy converter system Replicant progressive. The present invention relates to a generator of electric power, which basically consists in the interaction between the static part, formed by the primary and secondary solenoids and the rotating part called the system flow variator that can be triggered by any driving force.One of these forces is formed by magnetic elements with alternating polarization arranged peripherally in a fixed circumference, which affect, in both poles, the electromagnetic coils which form the rotor by synchronized drive system keyer. The combination and alternation of competing forces provide an optimal efficiency and low entropy.The interaction between the components combined to develop maximum torque, form a power plant of small size and exponential power.Currently the existing systems have the odds are the following factors: high fuel costs and rates of electric energy; high rate of pollution from the burning of coal, natural gas and by the internal combustion engine; imminent danger of radioactive waste; shortage. Oil demand in the chemical industry; large number of parts; low efficiency.Despite the wide use of electric motors and internal combustion, some odds are they can be allocated, for example, in the high cost of fuels and the high pollution index and in the wide dispersion of the magnetic field due to its format requirements And a total of static excitation winding, as well as the brushes in short circuit induced.Causing considerable losses with the appearance of a force contraeletromotriz, namely: the inductive reactance. Other examples of inconvenience, in both cases, are the slowness in the processes of industrialization and the high energy consumption as a function of the low efficiency caused by the small size of the lever arm.In order to solve these problems, we developed the present invention, through which the electric power generator is mounted in a specific format by maximizing magnetic flux in a model of straight or toroidal coils, comprising primary, secondary, and is triggered By the system flow variator.In turn, the said system is driven by an electric motor with low energy consumption and high efficiency, which works with electromagnetic coils with their tangenciando straight poles the magnetic elements of the stator, which has a lever arm, enabling an optimal efficiency By aciopnamento punctual the coils by the keyer system synchronized.The system controller collects the magnetic flux extracorrente opening that is part of the inductive reactance, and leads to the electric system, minimizing the force contraeletromotriz.This form of construction of the generator and motor solves the problems raised, since the magnetic flux in the primary is varied by variable flow system, which is also responsible for the collection of extracorrente opening, which is in turn driven by any force The driving.In the example here, when the electromagnetic coil is activated locally in space and time required for the movement of the rotors. The engine cycle begins when the electromagnetic coils are with their areas of the section line coinciding with the poles of the magnetic elements of the static part of the mechanism.When the electromagnetic coils are driven by the keyer system synchronized, they are displaced by the phenomenon of the magnetic reaction, repulsion, then move attracted by magnetic elements of the opposite. At a time when approaching the palno of inversion, the keyer system synchronized is requested and reverses the direction of electric current.If the key is brushed, magnetic or electronic collection is part of the inductive reactance that is reused. This done, the coils are displaced by the next magnetic elements along its course, repeating this effect in all magnetic elements which form the stator produces a rotational movement on the shaft transmitter that drives the system flow variator.In this way, the generator is able to play the role of producing alternating current in the secondary, collect and extracorrente opening in the primary and replicate progressively from a source of magnetic flux.The invention can be better understood by the following detailed description in accordance with the drawings in annex, where: Figure 1 shows the general scheme of the system; Figure 2 shows the system flow variator; Figure 3 represents the schema of system flow variator.With reference to these figures, we can observe a double winding coil (1) receiving electric current (2) in the conductors (3) connected to the primary (4) by the magnetic flux created.It induces electric current in the secondary (5) by the system flow variator (6) that has a rotating part (7) and a static part (8) which collects the extracorrente opening (9) that replicates the process in the conductors (10) connected to the primary winding (11) of the double coil (12) and sucessiv One (13). Here the system flow variator (6) driven by the motor (14).We observe in the rotating part (19) of the coil (16) with their areas of the section line (17) coinciding with the magnetic elements (18) of the static part (15). At this time, the keyer synchronized system (20) is triggered by the action of electric current (21) by positioning the section line (17) which reacts by repulsion to the magnetic elements (18), displacing the rotor (19) of their starting point.Then is moved by attraction by the magnetic elements (22) of opposite polarization. When approaching the inversion plan (23), the device key (24) coming out of the contact (25) accesses the contact (26) and collects the extracorrente (27) so that the electromagnetic coils (16) to proceed in its course.After the plan of inversion (23) the system repeats the procedure to close the cycle produces a rotational movement on the shaft transmitter (28).