TW201828570A - Permanent magnet variable magnetic circuit generator - Google Patents

Abstract

A permanent magnet variable magnetic circuit generator includes a base having a bearing, a stator disposed on the base and has at least one annular iron cores, a plurality of excitation winding sets and one generating winding set, the excitation winding sets are provided with magnets each having a N pole and a S pole and are equally disposed at the outer surface of the annular iron cores, the N pole of one of the excitation winding sets is located correspondingly to the N pole of the adjacent excitation winding set or the S pole of one of the excitation winding sets is located correspondingly to the S pole of the adjacent excitation winding set, the generating winding set winds between the adjacent excitation winding sets, and a first rotor having a rotation shaft passed through the annular iron core and a plurality of first teeth equally and outwardly extended from both ends of the rotation shaft.

Description

Winding variable magnetic circuit generator

The invention relates to a power generating device, and in particular to a winding variable magnetic circuit generator.

A general generator basically includes a rotor and a stator, and a coil or a magnet is disposed around the rotor and the stator; if a coil is provided, current can be generated by current, and if a magnet is provided In its case, it is magnetic.

The magnetic field lines generated by the respective magnets of the rotor and the stator interact to achieve the effect of power generation rotation.

However, the rotor that mainly performs the rotating motion is wound around the coil or is equipped with a magnet, and the magnetic resistance generated by the power generating coil during power generation increases the force required for the rotation of the rotor, thereby causing the rotational efficiency to be somewhat loss.

In view of this, the present invention provides a winding-variable magnetic circuit generator, since the first tooth and the third tooth can both correspond to the second tooth, and the intervals are relatively close, so that the magnetic line is guided smoothly. Reducing the magnetic loss between them; furthermore, since the excitation winding group and the power generation winding group are both disposed at the stator, compared with the rotor of the generator known in the prior art, the coil is disposed or the magnet is disposed. The magnetic resistance generated between the first tooth and/or the third tooth and the stator of the present invention may be smaller than the magnetic resistance between the rotor and the stator in the conventional generator, so that the generator of the present invention can be used at the same power generation power. The resistance to the composition of the rotating part is reduced, and the kinetic energy loss of the driving rotor is reduced, so that the efficiency can be higher than that of the conventional generator. .

The object of the present invention is to provide a winding-variable magnetic circuit generator comprising a base, a bearing is disposed at a center of the base, and a stator is disposed on the base, the stator includes at least one annular core and a plurality of excitations a magnetic winding group and a plurality of power generating winding groups, each of the exciting winding groups having an N pole and an S pole, each of the excitation winding groups being disposed on an outer surface of the toroidal core and equally spaced Each of the power generating winding groups is disposed on an outer surface of the toroidal core and disposed between adjacent two exciting winding groups, wherein an N pole of one of the exciting winding groups and an adjacent exciting winding group The S pole of the N pole or one of the excitation winding groups is disposed corresponding to the S pole of the adjacent excitation winding group, and the power generation winding group is wound between the adjacent two excitation winding groups; And a first rotor having a rotating shaft and a first chirp ring, the first toothed ring being equiangularly spaced outwardly provided with a plurality of first teeth, the rotating shaft passing through the annular core of the stator At the center, one end of the rotating shaft is inserted in the bearing, and the first tooth is sleeved outside the rotating shaft.

In some embodiments, the stator further includes two stator annular pads and an annular core, the two sides of the annular core respectively having a second tooth; the two stator annular pads are respectively disposed on the ring Both sides of the iron core are simultaneously attached and fixed to both sides of each of the annular cores.

The winding-changing magnetic circuit generator further includes a second rotor having a connecting member, an outer ring, and a plurality of third teeth, the rotating shaft connecting the connecting end away from the bearing At the center of the member, the outer ring is fixed to a side of the connecting member facing the base, and the outer ring is located between the base and the connecting member, and the third tooth extends inward from the inner side of the outer ring Provided, and disposed at equal angular intervals, each of the third teeth corresponds to each of the first teeth.

The present invention has been described in connection with the preferred embodiments of the present invention in accordance with the accompanying drawings.

Referring to FIGS. 1 to 5, a winding-variable magnetic circuit generator 100 of the present invention may include a base 1, a stator 2, a first rotor 3, and a second rotor 4.

The base 1 is substantially disk-shaped, and a bearing 11 is disposed at the center of the base 1.

The stator 2 is disposed on the base 1, the stator 2 includes at least one annular core 21, a field winding group 221, a field winding group 222, and a power generating winding group 231, and a power generating winding group 232; Each of the field winding groups has an N pole and an S pole, and the field winding group 221 and the field winding group 222 are disposed on the outer surface of the toroidal core 21 and are equally spaced, and the power generation winding group 231 and The power generating winding group 232 is disposed on the outer surface of the toroidal core 21 and disposed between the adjacent two exciting winding groups 221 and 222, and the N pole of one of the exciting winding groups 221 and the adjacent exciting winding The N poles of the group 222 or the S poles of one of the excitation winding groups 221 are correspondingly arranged with the S poles of the adjacent excitation winding groups 222, that is, the magnetic properties corresponding to the adjacent excitation winding groups are the same; Referring to Fig. 5, the magnetic lines of force between the N poles of two adjacent exciting winding sets and the magnetic lines of force between the S poles of two adjacent exciting winding sets are shown.

The first rotor 3 has a rotating shaft 31 and a first gear 32. The rotating shaft 31 passes through the center of the annular core 21 of the stator 2. One end of the rotating shaft 31 is inserted into the bearing 11, and each of the first teeth 32 is equally spaced. It is extended outward from between the two ends of the rotating shaft 31.

Furthermore, the stator 2 further includes two stator annular pads 24 and a toroidal core 21, the annular core 21 has a second tooth 25, the annular core 21 has a second tooth 251 and another second tooth 252; The two stator annular pads 24 are respectively disposed on both sides of the toroidal core 21, and are simultaneously attached and fixed on both sides of the toroidal core 21.

The second rotor 4 has a connecting member 41 (generally circular), an outer ring 42, and a plurality of third teeth 43. The end of the rotating shaft 31 away from the bearing 11 is connected to the center of the connecting member 41, and the outer ring 42 is fixed at The connecting member 41 faces a side of the base 1 and the outer ring 42 is located between the base 1 and the connecting member 41. Each of the third teeth 43 extends inwardly from the inner side surface of the outer ring 42 and is disposed at equal angular intervals. Each of the third teeth 43 is disposed corresponding to each of the first teeth 32.

Wherein, the first tooth 32, the annular core 21 and the third tooth 43 are made of a silicon steel material, and the bearing 31 and the connecting member 41 are made of a non-magnetic material; further, the first tooth 32 and the first The number of three teeth 43 is half that of the second tooth 25.

In the second tooth 25 of the stator 2 (such as the second tooth 251 and the second tooth 252), when the third tooth 43 and the first tooth 32 align the second tooth 251 (such as 5, the second tooth 252 is not turned on, and when the third tooth 43 and the first tooth 32 are aligned to the second tooth 252, the second tooth 251 is not connected. Passing through, for magnetic field conversion (the magnetic field lines in the generator winding are interchanged in the positive and negative directions).

With the above configuration, since the exciting winding groups 221 and 222 and the power generating winding groups 231 and 232 are both disposed at the stator 2, a coil is provided around the rotor of the generator known in the prior art or a magnet is provided. In other words, the magnetic resistance generated between the first tooth 32 and/or the third tooth 43 of the present invention and the stator 2 can be smaller than the magnetic resistance between the rotor and the stator in the conventional generator, so that under the same power generation, The generator 100 of the present invention can reduce the resistance to the composition of the rotating portion and reduce the kinetic energy loss in addition to the rotation of the driving rotor, so that the efficiency can be higher than that of the conventional generator.

100‧‧‧Winding magnetic circuit generator
1‧‧‧Base
11‧‧‧ bearing
2‧‧‧stator
21‧‧‧Ring core
221‧‧‧Excitation winding group
222‧‧‧Excitation winding group
231‧‧‧Power Generation Winding Group
232‧‧‧Power Generation Winding Group
24‧‧‧stator ring pad
25‧‧‧Second tooth
251‧‧‧Second tooth
252‧‧‧Second tooth
3‧‧‧First rotor
31‧‧‧ shaft
32‧‧‧First tooth
4‧‧‧second rotor
41‧‧‧Connecting parts
42‧‧‧Outer Ring
43‧‧‧ third tooth

1 is a perspective view of a winding-variable magnetic circuit generator of the present invention. 2 is a partial perspective view of the winding-variable magnetic circuit generator of the present invention. 3 is an exploded perspective view of the winding-variable magnetic circuit generator of the present invention. Fig. 4 is a partially enlarged schematic view showing the winding-changing magnetic circuit generator of the present invention. Fig. 5 is a schematic view showing the magnetic lines of the winding-variable magnetic circuit generator of the present invention.

Claims (5)

A winding variable magnetic circuit generator includes: a base, a bearing is disposed at a center of the base; and a stator is disposed on the base, the stator includes at least one annular core, a plurality of excitation winding groups, And at least one power generating winding group, each of the exciting winding groups has an N pole and an S pole, each of the exciting winding groups being disposed on an outer surface of the annular core and equally spaced, each power generating winding The group 23 is disposed on the outer surface of the toroidal core 21 and disposed between adjacent two excitation winding groups, and the N pole of one of the excitation winding groups and the N pole of the adjacent excitation winding group or The S pole of a field winding group is disposed corresponding to the S pole of the adjacent field winding group, the power generating winding group is wound around the toroidal core; and a first rotor has a rotating shaft and a a first chiropractic ring, the first chirp ring is equiangularly spaced outwardly provided with a plurality of first teeth, the rotating shaft passes through the center of the annular core of the stator, and one end of the rotating shaft is inserted therein In the bearing, the first tooth is sleeved outside the shaft. The winding-changing magnetic circuit generator according to claim 1, wherein the stator further comprises two stator annular pads and an annular core, the two sides of the annular core respectively having a second tooth, the two stator rings The backing plates are respectively disposed on both sides of the annular iron core, and are simultaneously attached and fixed on both sides of each of the annular iron cores. The winding-changing magnetic circuit generator according to claim 1, further comprising a second rotor having a connecting member, an outer ring, and a plurality of third teeth, the rotating shaft being connected away from one end of the bearing At the center of the connecting member, the outer ring is fixed on a side of the connecting member facing the base, and the outer ring is located between the base and the connecting member, and the third tooth is from the inner side of the outer ring The inwardly extending arrangement is disposed at equal angular intervals, and each of the third teeth corresponds to each of the first teeth. The winding-varying magnetic circuit generator of claim 1, wherein the number of the first teeth is one-half of the number of the second teeth. The winding-varying magnetic circuit generator of claim 3, wherein the number of the third teeth is the same as the number of the first teeth and is half of the number of the second teeth.