UA121720U - ELECTRICAL GENERATOR - Google Patents

Abstract

The electrical generator comprises a housing made in the form of a tube of non-ferromagnetic material, a permanent magnet placed in a housing on a rod of non-ferromagnetic material with the possibility of reciprocating motion along the axis of the housing. At least two sections of the inductor coil are arranged in series around the housing, the windings of each of these sections being intended to be connected to the consumer of electrical energy. The winding of each of the sections of the inductor is connected to an individual diode bridge, and the outputs of the diode bridges are connected in parallel or in series.

Description

The utility model belongs to electrical engineering, in particular to means for generating electrical energy, and can be used in suspensions of wheeled or tracked vehicles and on sea and river buoys as a source of alternative electrical energy.

A known electric generator containing a housing, an inductor, and two permanent magnets placed in series with the possibility of relative reciprocating motion and oriented with the poles of the same name towards each other (patent of Russia Mo 2284630 C2,

IPC NO2K 35/00, publ. 27.09.2006). The disadvantage of this generator is that the process of generating electrical energy is carried out only in the case of circular movement of the functional elements of the generator, which significantly narrows its technological capabilities.

The closest thing to the proposed useful model is an electric generator containing a housing made in the form of a pipe of non-ferromagnetic material, a permanent magnet placed in the housing on a rod of non-ferromagnetic material with the possibility of reciprocating movement along the axis of the housing, as well as at least two sections of an inductance coil , are sequentially located around the case, while the windings of each of the specified sections are intended to be connected to the consumer of electrical energy |pat. Mo. of Ukraine 116993 OO, IPC NO2K 35/00, publ. 12.06.2017).

This technical solution, in contrast to the considered analogue, ensures the generation of electrical energy during the relative back-and-forth movement of the generator elements, which makes it possible to use it on various vehicles. However, it has low efficiency, since the electromotive force is generated only when the permanent magnet exits the coil section (or enters it), which significantly narrows the operational capabilities of the generator. At the same time, an electromotive force of opposite signs is simultaneously generated at the ends of each section of the coil, thereby reducing its total value.

The basis of the useful model is the task of improving the electric generator, in which its new design provides an increase in the power of generated electric energy and expands the operational capabilities of the generator.

The problem is solved by the fact that in an electric generator containing a housing made in the form of a pipe made of non-ferromagnetic material, a permanent magnet placed in

From the housing on a rod made of non-ferromagnetic material with the possibility of reciprocating movement along the axis of the housing, as well as at least two sections of the inductance coil, sequentially located around the housing, while the windings of each of the specified sections are intended to be connected to the consumer of electrical energy, according to a useful model, the winding of each section of the inductor is connected to an individual diode bridge, while the outputs of the diode bridges can be connected to each other in parallel or in series.

The design of an electric generator with the specified features ensures reliable generation of a unidirectional electric current regardless of the direction of movement of the magnet relative to the sections of the inductor coil. The outputs of the diode bridges can be connected to the battery in series or in parallel (with the same output parameters of the diode bridges). At the same time, the serial connection increases the electromotive force of the battery, and the parallel connection reduces its internal resistance.

The essence of the useful model is explained by the drawing, which shows the longitudinal section of the generator.

The electric generator contains a housing 1, made in the form of a pipe made of non-ferromagnetic material, a permanent magnet 2, placed in the housing 1 on a rod Z made of non-ferromagnetic material with the possibility of reciprocating movement along the axis of the housing 1, as well as at least two sections 4 of the inductor 5, in series are located around the body 1, and the ends 6 of the winding of each of the specified sections are intended to be connected to the consumer of electrical energy through individual diode bridges 7, and the outputs 8 of the diode bridges are connected to each other in parallel or in series (Fig.), depending on the needs of the consumer of electrical energy (the drawing shows a serial connection).

An electric generator works in the following way.

During the movement of the magnet 2 relative to the housing 1 and, accordingly, the inductor 5 in its sections 4, an electromotive force is generated, which, thanks to the corresponding diode bridge 7, will have a constant direction at its output regardless of the direction of relative movement of the magnet 2 and the housing 1.

A useful model, easy to manufacture and operate, significantly expands the technological capabilities of the generator and the possibility of its application in a wide variety of mechanical systems.

Claims (1)

FORMULA OF THE USEFUL MODEL An electric generator containing a housing made in the form of a pipe of non-ferromagnetic material, a permanent magnet placed in the housing on a rod of non-ferromagnetic material with the possibility of reciprocating movement along the axis of the housing, as well as at least two sections of an inductance coil arranged in series around body, and the windings of each of the specified sections are intended to be connected to the consumer of electrical energy, which differs in that the winding of each of the sections of the inductor coil is connected to an individual diode bridge, and the outputs of the diode bridges are connected to each other in parallel or in series. and Kaya De oo Z se se SCHE: KU g Zhe Ha y i Ou ne yah OBO t ; Oi VO M gu OH, U Z In NN X she y i o mini y SO JE MK BO ZK u dez E I : y ZO uh kikh uh VO I E h what Z hu Z E Hu KZ ho Z : KO EI uekkkK kyu Х АХ BUT s В В У y; x, z sh i zhi a i zhi shi ish OH i o VOK B Same horror In what im : ke 5 u che Ki z i a o MI; M: PK ok esse sne, 5 7 y h u n . KZ Oh M I I Be U KO enennnnu X : no ZHE ET a ЖЖ Х Vokovnnvvy I OKA y : U shchi a SCHI : I hmm m KM i i KK zum Her, and ze o KE: SHE M I zhkkh in Ge dkmemh oyu V NYA Z t U he a v. s і ши а ши E и х мни и Z