KR20110015712A

KR20110015712A - A ring shape solenoid generator

Info

Publication number: KR20110015712A
Application number: KR1020090073068A
Authority: KR
Inventors: 박정일
Original assignee: 박정일
Priority date: 2009-08-10
Filing date: 2009-08-10
Publication date: 2011-02-17

Abstract

According to the present invention, the highly integrated rotating permanent magnets having a dual structure inside and outside the annular solenoid are rotated in opposite directions by using a triple bevel gear to reduce the rotational resistance of the generator shaft and to obtain electricity more efficiently. It is about a generator.

In the conventional permanent magnet generator, the permanent magnets have to be provided in a monolayer structure on either side of the fixed body or the rotating body in a single layer structure. Therefore, the magnetic flux (magnetic field, ie, the magnetic field of force) is weak and the density is low, resulting in inefficient and magnetic flux (magnetic field). It is uneconomical because the ineffective length of the rotor side is long except the effective length of the passing coil.

Ring solenoid generator, permanent magnet, triple bevel gear

Description

Ring Solenoid Generator

The present invention relates to the technical field of obtaining electricity using a cyclic solenoid.

The present invention relates to the technical field of obtaining electricity using a cyclic solenoid and a permanent magnet,

The present invention relates to a technology for obtaining electricity by rotating highly integrated rotating permanent magnets having a dual structure inside and outside the annular solenoid.

In the annular solenoid generator of the present invention, it is a major problem to develop an annular solenoid generator having a smaller rotational resistance of the rotating shaft and more efficient.

In order to solve the above problems, it is to reduce the rotational resistance of the generator rotating shaft and increase the power generation efficiency by rotating the highly integrated rotary permanent magnets having a dual structure inside and outside the annular solenoid by using the triple (3) bevel gear. All.

In the annular solenoid generator of the present invention, the highly integrated rotary permanent magnets having a dual structure inside and outside the annular solenoid are rotated in opposite directions by using three (3) bevel gears to reduce the rotational resistance of the generator rotating shaft and more efficiently generate electricity. The annular solenoid generator obtainable can be developed, which is economical and industrially effective.

In the following, with reference to the accompanying drawings a preferred specific embodiment of the annular solenoid generator according to the present invention will be described in detail.

In FIG. 1, the left rotating permanent magnets 200 are attached to the left ferromagnetic rotating plate 210 on the outer left side of the annular solenoid 100 fixed to the ground provided in the annular solenoid housing 110 to rotate the left rotating permanent magnets. It is connected to the rotating shaft 220. Then, the left rotating permanent magnet 300 inside the annular solenoid inside the annular solenoid (! 00) is attached to the left coin-type ferromagnetic rotating plate 310 inside the annular solenoid. Also provided in the annular solenoid (! 00) attached to the right coin-operated ferromagnetic rotating plate 410 inside the annular solenoid to the right rotating permanent magnet 400 inside. At this time, as an important technical idea of the present invention, the left rotor inside the annular solenoid made of the left rotating permanent magnets 300 inside the annular solenoid and the left coin-type ferromagnetic rotating plate 310 inside the annular solenoid is the annular solenoid. The right rotor inside the annular solenoid made up of the right rotating permanent magnets 400 inside the noid and the right coin-type ferromagnetic rotating plate 410 inside the annular solenoid so as to face in the opposite direction from the inside of the annular solenoid! It must be constructed. Then, the right rotating permanent magnets 500 are also attached to the right ferromagnetic rotating plate 510 on the outer right side of the annular solenoid 100 to connect to the right rotating permanent magnet rotating shaft 520. Finally, a bevel gear 230 connected to a left rotating permanent magnet rotating shaft with a reverse rotating bevel gear 600 therebetween and a bevel gear 530 connected to a rotating shaft for rotating a right rotating permanent magnet are provided. When the left rotating permanent magnet rotating shaft 220 is rotated in one direction, the right rotating permanent magnet rotating shaft 520 rotates in the opposite direction without the commutator by the Fleming's right hand law on the coil of the annular solenoid (! 00). DC electricity is generated. Of course, at this time, the left and right rotating permanent magnets 300 and 400 inside the annular solenoid may also rotate in the opposite directions along the outer left and right rotating permanent magnets 200 and 500 of the annular solenoid 100. It is very important to arrange them. At this time, the magnetic flux generated by the rotating permanent magnets 200, 300, 400, and 500 naturally flows straight through the coil of the annular solenoid (! 00) from the left side to the right side. On the other hand, the magnetic flux flowing in one direction uniformly only inside the annular solenoid 100 by the induced current will not cause a large rotational resistance with the left and right rotating permanent magnets 300,400 inside the annular solenoid.

The technical idea of the cyclic solenoid generator of the present invention has been described above with the accompanying drawings, but this is only illustrative of the simplest and preferred embodiments of the present invention and not intended to limit the present invention.

1 is a cross-sectional view showing an annular solenoid generator according to the present invention.

Explanation of symbols on the main parts of the drawings

100: ring solenoid

110: annular solenoid housing

200: left rotating permanent magnet

210: left ferromagnetic rotating plate

220: rotation axis for rotating left permanent magnet

230: Bevel gear connected to the rotary shaft for rotating left permanent magnet

300: left rotating permanent magnet inside the annular solenoid

310: left coin-type ferromagnetic rotating plate inside the annular solenoid

400: right rotating permanent magnet inside the annular solenoid

410: right coin-type ferromagnetic rotating plate inside the annular solenoid

500: right rotating permanent magnet

510: right ferromagnetic rotating plate

520: rotation axis for rotating the right permanent magnet

530: bevel gear connected to the rotary shaft for rotation of the right permanent magnet

600: Revolving Bevel Gear

Claims

The left rotating permanent magnets 200 are provided on the outer left side of the annular solenoid 100 fixed to the ground provided in the annular solenoid housing 110 to the left ferromagnetic rotating plate 210 to provide a left rotating permanent magnet rotating shaft 220. Connect to,

The left rotating permanent magnets 300 inside the annular solenoid inside the annular solenoid (! 00) are attached to the left coin-type ferromagnetic rotating plate 310 inside the annular solenoid,

Also provided in the annular solenoid (! 00) inside the annular solenoid inside the right rotating permanent magnet 400 attached to the right coin-type ferromagnetic rotating plate 410 inside the annular solenoid,

The left rotor inside the annular solenoid consisting of the left rotating permanent magnets 300 inside the annular solenoid and the left coin-type ferromagnetic rotating plate 310 inside the annular solenoid and the right rotating permanent magnets 400 inside the annular solenoid. The right rotor inside the annular solenoid made of the right coin-type ferromagnetic rotating plate 410 inside the annular solenoid and the annular solenoid (! 00) should be configured to face in opposite directions to each other.

Also provided by attaching the right rotating permanent magnets 500 to the right ferromagnetic rotating plate 510 on the outer right side of the annular solenoid 100 to the right rotating permanent magnet rotating shaft 520,

Finally, by providing a bevel gear 230 connected to the left rotating permanent magnet rotation axis and the bevel gear 530 connected to the right rotating permanent magnet rotation axis with the reverse rotation bevel gear 600 therebetween,

When the left rotating permanent magnet rotating shaft 220 is rotated in one direction, the right rotating permanent magnet rotating shaft 520 rotates in the opposite direction without the commutator by the Fleming's right hand law on the coil of the annular solenoid (! 00). Direct current electricity is generated,

The left and right rotating permanent magnets 300 and 400 in the annular solenoid are arranged along the outer left and right rotating permanent magnets 200 and 500 of the annular solenoid 100 so as to rotate in the opposite directions. An annular solenoid generator, characterized in that.

The method of claim 1,

Rather than providing left and right rotating permanent magnets 300 and 400 inside the annular solenoid, one of the left and right coin-type ferromagnetic rotating plates 310 and 410 inside the annular solenoid is provided by filling and fixing the inside of the annular solenoid 100. Cyclic solenoid generator.

The method according to claim 1 and 2,

Annular solenoid generator, characterized in that the rotating permanent magnets (200, 300, 400, 500) can be replaced by an electromagnet.