RU140346U1 - ELECTRIC GENERATOR - Google Patents

Abstract

1. An electric generator consisting of two parts - a stator and an inductor, made with the possibility of their mutual translational movement and with the possibility of entering a smaller part into a large one, characterized in that the stator has at least three windings located at a distance from each other, and the inductor contains at least three magnets mounted on the rod at a distance from each other. 2. An electric generator according to claim 1, characterized in that the parts of the electric generator are cylindrical. The electric generator according to claim 1, characterized in that the parts of the electric generator are oval in cross section. The electric generator according to claim 1, characterized in that the larger, outer part of the electric generator is the stator, and the smaller, inner part is the inductor. The electric generator according to claim 1, characterized in that the larger, outer part of the electric generator is an inductor, and the smaller, inner part is a stator.

Description

The utility model relates to the field of energy, in particular, to devices for converting the kinetic energy of translational motion into electrical energy.

A known design of an electric generator (a device for converting linear displacement energy into electrical energy) is described in the patent of the Russian Federation No. 126379 for a utility model “Device for converting wind energy” according to class F03D 5/00, announced on 11/7/2012 and published on 03/27/2013 of the year.

Said electric generator shown in FIG. 2 drawings to the description of the utility model, consists of two parts in the form of half-cylinders with the possibility of their mutual translational movement and partial entry of the smaller into the larger one. The parts of the electric generator are spring-loaded relative to each other, in one of its parts a stator with two windings is installed, and a magnetized inductor is fixed to the other.

The disadvantage of the generator described above is the narrow scope due to the insufficient magnitude of the electromotive force (EMF) generated by it due to the small number of windings on the stator.

The objective of the claimed utility model is to expand the arsenal of technical means for a specific purpose, that is, to create an electric generator with a wider scope due to the generation of a larger emf.

The technical result, to ensure the receipt of which the claimed utility model is directed, is the implementation of this purpose.

The specified result is achieved by the fact that:

1. In an electric generator consisting of two parts - a stator and an inductor, made with the possibility of their mutual translational movement and with the possibility of entering a smaller part into a larger one, according to a utility model, the stator has at least three windings located at a distance from each other, and the inductor contains at least three magnets mounted on the rod at a distance from each other.

2. In the device according to claim 1, according to the utility model, the parts of the electric generator have a cylindrical shape.

3. In the device according to claim 1, according to the utility model, the parts of the electric generator are oval in cross section.

4. In the device according to claim 1, according to the utility model, the stator is the larger external part of the electric generator, and the inductor is the smaller internal part.

5. In the device according to claim 1, according to the utility model, the larger, outer part of the electric generator is an inductor, and the smaller, inner part of the stator.

The solution of the problem of the claimed utility model and the achievement of a technical result during its implementation is ensured by the fact that the stator has at least three windings located at a distance from each other, and the inductor contains at least three magnets mounted on the rod at a distance from each other, which allows you to increase the number of windings on the stator and thereby increase the EMF generated by the inventive electric generator.

The parts of the electric generator may have a cylindrical shape or an oval shape in cross section.

In this case, the larger, outer part of the electric generator can be a stator, and the smaller, inner part - an inductor.

In this case, the larger, outer part of the electric generator can be an inductor, and the smaller, inner part of the stator.

The proposed set of essential features informs the claimed electric generator of new properties that allow to solve the problem.

The inventive electric generator has a novelty in comparison with the prototype, differing from it in that:

1. the stator has at least three windings located at a distance from each other, and the inductor contains at least three magnets mounted on the rod at a distance from each other,

2. The parts of the electric generator are cylindrical,

3. the parts of the electric generator are oval in cross section,

4. the larger, outer part of the electric generator is the stator, and the smaller, inner part is the inductor,

5. The larger, outer part of the electric generator is the inductor, and the smaller, inner part of the stator.

The inventive utility model can be widely used in the field of energy, in particular, in devices for converting the kinetic energy of translational motion into electrical energy, therefore, it meets the criterion of "industrial applicability".

The inventive electric generator is illustrated by drawings, which are presented on:

FIG. 1. General view of the electric generator in section with an external stator.

FIG. 2. General view of the electric generator in section with an external inductor.

The electric generator shown in the drawing (see Fig. 1) consists of two parts of a cylindrical shape - an external stator 1 and an internal inductor 2, made with the possibility of their mutual translational movement and with the possibility of entering a smaller diameter of the inductor 2 into a larger diameter of the stator 1. The stator 1 and inductor 2 can have an oval cross-sectional shape with the same technical result.

Inside the cylindrical stator 1 there are nine ring windings located at a distance from each other 3. The windings 3 are connected in series into a single electrical circuit (not shown).

The inductor 2 contains eleven magnets 4, mounted on the rod 5 at a distance from each other inside the cylindrical body 6. The number of magnets 4 can be equal to or greater than the number of windings 3. On the cylindrical body 6 of the inductor 2, the beads 7 are made outside to limit the movement of the spring 8, the second the end of which abuts against the end face of the cylindrical stator 1.

The inventive electric generator operates as follows.

Mutual movement under the influence of the external forces of the inductor 2 inside the stator 1 causes a reciprocating movement of the magnets 4 of the inductor 2 inside the windings 3 of the stator 1. In the windings 3, an electric current flows into the general electric circuit.

Springs 8, abutting against the ends of the cylindrical stator 1 and flanges 7, limit the movement of the inductor 2 inside the stator 1 and prevent its exit from the stator 1.

The electric generator shown in the drawing (see Fig. 2) consists of two cylindrical parts - an internal stator 1 and an external inductor 2, made with the possibility of their mutual translational movement and with the possibility of entering a smaller diameter of the stator 1 into a larger diameter of the inductor 2.

In the cylindrical stator 1 there are four windings located at a distance from each other 3. The windings 3 are connected in series into a single electric circuit (not shown in the drawing).

The inductor 2 contains four ring magnets 4, the number of which is equal to the number of windings 3, mounted on the rod 5 in the cylindrical housing of the stator 1. Magnets 4 are mounted at a distance from each other inside the cylindrical housing of the inductor 2. On the cylindrical housing of the stator 1, the shoulders for restrictions on the movement of the spring, the second end of which abuts against the end face of the cylindrical body of the inductor 2.

When mutually moving under the influence of the external forces of the stator 1 inside the inductor 2, the windings 3 perform a reciprocating movement inside the magnets 4 of the inductor 2. In the windings 3, an electric current flows into the common electric circuit, while the EMF generated by each winding 3 is summed.

The electrical energy obtained in this way can be used for various domestic and household needs.

The inventive electric generator in comparison with the prototype has a wider field of application due to the generation of EMF of greater magnitude.

Claims (5)

1. An electric generator consisting of two parts - a stator and an inductor, made with the possibility of their mutual translational movement and with the possibility of entering a smaller part into a large one, characterized in that the stator has at least three windings located at a distance from each other, and the inductor contains at least three magnets mounted on the rod at a distance from each other. 2. The electric generator according to claim 1, characterized in that the parts of the electric generator are cylindrical. 3. The electric generator according to claim 1, characterized in that the parts of the electric generator are oval in cross section. 4. The electric generator according to claim 1, characterized in that the larger, outer part of the electric generator is the stator, and the smaller, inner part is the inductor. 5. The electric generator according to claim 1, characterized in that the larger, outer part of the electric generator is an inductor, and the smaller, inner part is a stator.

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