FR2710467A1 - Generator of a magnetogenerator - Google Patents

Abstract

Generator of a magnetogenerator comprising a core (11) having eight projecting poles (T1-T8). The lamp coils (13A-13H) are wound respectively around each projecting pole (T1-T8) and supply electricity to a lamp (L). The charging coils (14E-14H) are wound respectively on the lamp coils (13E-13H). Because electricity usually flows in the lamp coils (13E-13H), even when the battery is fully charged, magnetic imbalance between the projecting poles is thus avoided. Consequently, this magnetic imbalance is reduced without altering the magnetic force and it is thus possible to prevent or reduce electromagnetic vibration noise in use.

Description

Generator of a magneto-generator
The present invention relates to a generator of a magnetogenerator, and more particularly to a modification of the configuration of the coils, this generator comprising one (or more) lamp coil (s) and one (or more) charging coil (s), magneto-generator being mounted on a motorcycle or the like.

Generally, a star enss generator is used, which is of the type of "single-phase half-wave rectifier with coils" as generator of the magneto-generator which is mounted on a motorcycle or the like. This type of generator comprises a core having several salient poles which are arranged in radiating form, and several coils which are respectively wound around the salient poles. In these coils, for example, two coils are intended to charge the battery (hereinafter such a coil will be called "charging coil"), and the other coils are intended for lighting the lamps of the motorcycle (hereinafter such a coil will be called a "lamp coil").

Conventionally, such a generator comprises, for example as shown in FIG. 2 (b), eight salient poles: six coils are respectively wound around the salient poles and are connected to a lamp (L) such as a headlight , as lamp coils, and the other two coils are connected to a battery (B) as charging coils. As a result, electricity can be supplied from each lamp coil to the lamp (L) and the battery B) can be charged from each charging coil.

However, in the above generator, in the case where the battery (B) is fully charged, practically no electricity circulates in each charging coil. Considering the magnetic force between each coil and the generator on a vector field, a combined magnetic vector (A ') relative to the third salient pole and the fourth salient pole is larger than the other magnetic vectors, as seen in the figure l (b) (the magnetic vector indicates the vector of the magnetic force). The reason is as follows: each lamp coil is respectively wound around each protruding pole from the first to the sixth coil, and the number of turns of each coil is the same, so that electricity cannot circulate in each lamp coil only equally. However, since electricity cannot circulate in the charge coils, the combined magnetic vector (A ') is larger than the magnetic vectors relative to the other coils.

As the magnetic vector relative to the first or sixth salient poles is a unit vector, the combined magnetic vector (A ') relative to the third salient pole and to the fourth salient pole is derived from the following formula (1)
A '= 1.00 X cos22.50 X 2.00 = 1.85 (1)
Furthermore, the magnetic vector relative to the seventh salient pole and to the eighth salient pole is substantially equal to "O", so that the value of the combined magnetic vector (A ') can indicate the value of the magnetic imbalance.

The magnetic vectors relating to the first salient pole and the fifth salient pole balance each other and the magnetic vectors relating to the second salient pole and the sixth salient pole likewise balance one another.

As the imbalance of the magnetic vector relative to a salient pole is large as in the above, there can occur an "electromagnetic vibration noise", because the yoke, the core, etc., vibrate during their rotation.

It is an object of the present invention to provide a generator of a magneto-generator which can prevent or reduce the magnetic imbalance among the salient poles.

In order to achieve this object, the present invention provides a generator of a magneto-generator, of the type comprising, in known manner - a core having salient poles arranged radially, - lamp coils each wound around salient poles and connected to a lamp to supply it with electricity, and - at least one charging coil wound around one of the salient poles, and connected to a battery for charging purposes.

According to the present invention, each protruding pole of the generator is equipped with a lamp coil, and each charging coil is wound around a lamp coil.

In this way, electricity can flow through all the lamp coils, even when the battery is fully charged. Thus, the magnetic vector corresponds to the number of turns of each lamp coil. Therefore, the phenomenon of imbalance of the magnetic vectors is prevented. By preventing magnetic imbalance, it is possible to prevent or reduce electromagnetic vibration noise.

We will now quickly describe the attached drawing, in which Figures l (a) and l (b) are views explaining the action of the generator of the magneto-generator, Figure l (a) showing the magnetic vector of the generator of the magneto -generator according to the embodiment of the present invention and Figure l (b) showing the magnetic vector of the generator of the magneto-generator according to the prior art Figure 2 (a) is a circuit diagram according to the present invention Figure 2 (b ) is a circuit diagram according to the prior art; and Figure 3 is a circuit diagram according to the present invention.

A generator of a magnet generator according to the present invention comprises a core 11 having eight salient poles T1-T8 which are arranged in the form of a star in plan view.

The core 11 has a laminated configuration, comprising several thin sheets of magnetic material pressed one on the other to form an assembly, these thin sheets being held together by the bolts introduced through them in the direction of the thickness of the core . The core 11 is equipped with unitary coils 12. Each coil 12 is respectively fixed on each protruding pole T1-T8, which is made of an insulating material, such as a resin.

Each lamp coil 13A-13H is respectively wound around each protruding pole T1-T8 and is intended to supply electricity to a lamp (L). Each charge coil 14E-14H is respectively wound around each protruding pole T5-T8 and is intended to supply electricity to a battery (B).

In this embodiment, each lamp coil 13A-13C has the same number of turns; each of the others, i.e. each lamp coil 13D-13H has the same number of turns.

The number of turns of each of the 13D-13H lamp coils is 2/3 of the number of turns of the 13A13C lamp coils. Each charging coil 14E-14H is respectively wound on each lamp coil 13E-13H.

The generator 10 is installed in a rotor 15. The rotor 15 comprises a yoke 16 and several magnets 17. The yoke 17 has a cylindrical shape. Each magnet 17 is disposed along the inner face of the yoke 16, being substantially equally spaced from one another in the circumferential direction of the yoke 16 so that the group of magnets 17, as a pole piece, can rotate around the outside of the generator 10. In Figure 2, the abbreviation "VR" indicates a voltage regulator and the letter "D" indicates a half-wave rectifier regulator.

We will now describe the action of the generator 10 according to the invention. The group of magnets 17 rotates around the salient poles T1-T8 at the same time as the rotor 15 rotates, so that an alternating magnetic field can be produced in the magnet 17, because the generator 15 having the lamp coils 13A -13H and the charge coils 14E-14H is installed in the rotor 15. As a result, an electromotive force is produced in the lamp coils 13A-13H and in the charge coils 14E-14H by the alternating magnetic field.

The lamp (L) is supplied with electricity by the electromotive force in the lamp coils 13A-13H, so that the battery (B) can be charged by the charging coils 14E-14H when the battery (B) is discharged.

Considering the magnetic force relative to each protruding pole T1-T8 on a vector field when electricity flows in the lamp coils 13A-13H, the vector relating to the magnetic force is shown in Figure l (a). Each 13D-13H lamp coil has a number of turns less than the number of turns of each 13A13C lamp coil, and more precisely equal to 2/3 of this number, so that the vector relating to the 13D-13H lamp coils can be equal to "2/3" when each vector relating to the lamp coils 13A-13C is a unit vector.

The vector (A) relative to the second salient pole is derived by the following equation (2)
A = 1.00 X cos450 + 1.00 X cors45 "X 1.00 = 2.4 (2)
The vector (B) relative to the second salient pole is derived by the following equation (3)
B = 2/3 X cors45 "+ 2/3 X cors45" X 2/3 = 1.6 (3)
Taking into account the relationship between the vector (A) and the vector (B), the magnetic imbalance in the generator 10 is "0.8 (= AB)". The magnetic imbalance in the generator of the prior art is "1.85". According to this embodiment, it is possible to reduce the magnetic imbalance without reducing the magnetic force and consequently the noise of electromagnetic vibration can be prevented.

The present invention is not limited to the embodiment described; as long as one does not depart from the essence of the invention, it goes without saying that the present invention can be modified.

For example, the number of lamp coils is not limited to "8" and the number of charge coils is not limited to 4 ,,.

As described above, according to the present invention, the lamp coils are wound around each protruding pole, certain charging coils are wound on lamp coils and therefore, the electricity intended to light the lamp circulates in all the salient poles. The imbalance between the salient poles is thus reduced without modifying the magnetic force; as a result, it is possible to prevent or reduce the noise of electromagnetic vibration in use.

Claims (4)

Claims 1. Generator of a magneto-generator, of the type comprising - a core (11) having salient poles (T1-T8) arranged radially, - lamp coils (13A-13H) each wound around salient poles and connected to a lamp to supply it with electricity, and - at least one charging coil (14E-14H) wound around one of the salient poles, and connected to a battery for charging purposes, characterized in that each pole protruding (T1-T8) is equipped with a lamp coil (13A-13H) and in that each charging coil (14E-14H) is wound around a lamp coil (13E-13H). 2. Generator of a magneto-generator according to claim 1, characterized in that the number of salient poles is "8", the number of lamp coils is "8", and the number of charge coils is "4" . 3. Generator of a magneto-generator according to claim 1, characterized in that the number of turns of the lamp coils on which the charge coils are wound is less than the number of turns of the other lamp coils. 4. Generator of a magneto-generator according to claim 3, characterized in that the number of turns of the lamp coils on which the charge coils are wound is approximately "2/3" of the number of turns of the other coils lamp.