KR200392770Y1 - Generator which does not have a second electrical load - Google Patents

Abstract

The present invention improves the output and reduces the volume by 40% compared with the conventional one, so that the electrical load is always maintained at zero state. The cylindrical permanent magnet is connected to the rotating shaft, and the permanent magnet forms a bi-orbit. Permanent magnet rotor and S pole and N pole are alternately mounted so as to be symmetrical with each other, and it is arranged on the left and right surfaces spaced a certain distance from the rotational track surface of the rotor and paired with at least one permanent magnet. Two iron cores, one coil to the right and the other to the left, are fitted with two iron cores. The current is induced to the coil part so that it can be output.

Description

Generator without electric secondary load {Generator which does not have a second electrical load}

The present invention improves the output and reduces the volume by 40% compared with the conventional one, so that the electrical secondary load is always maintained at zero state. More specifically, the conventional one, that is, the US invention patent US6208061B1 obtained by the present inventors. And 1020040037728, which is an efficient improvement of the domestic patent application, the conventional one is intended to maintain the electrical secondary load as 0, but the above effects occur only when using 80% or more of the electricity produced when using electricity. For example, there is an unreasonable point that the load acts a little when using less electricity, and the load fluctuation is not constant when the electricity is gradually increased from 10% to 20% to 30%, and the load is inefficient when a small amount is used. Something happened. Therefore, the present invention is designed to use the maximum amount of power generated by the generator as a result of continuous improvement in consideration of this point, and knows that the characteristics of the generator are closely related to the resistance. In view of the fact that no transformer is generated, the transformer's primary core can maintain 80% or more of the total amount produced by this generator. By maintaining the zero state without any experiments over several times to improve the generator to be practical.

Here, the transformer of the lowest resistance is known as the existing law, so the description of the present invention does not have any separate technology. In addition, the purpose of the present invention is to provide a more efficient and stable current production by supplying a large improvement in the useless volume of the conventional generator in terms of electricity output than the existing generator.

The present invention has the disadvantage that the conventional one must use more than 80% of the current produced from the generator as described above.

The present invention improves all of these points by simply attaching a low-resistance transformer so that the power generated from the generator is low or high, or the electrical secondary load is constantly maintained at 0 and unnecessarily bulky. By improving to reduce the large by about 40%, it has been improved to almost the same level as the existing generator, and now it is designed to be applied to real life, thus producing this generator and providing it to real life.

The above-mentioned technical problem is that the generator according to the characteristics of the present invention is configured to connect the cylindrical permanent magnet to the rotating shaft, and the permanent magnet according to this form the orbit, but the permanent magnet to be alternately mounted so that the S pole and the N pole are symmetrical with each other. It is disposed on the left and right surfaces spaced a certain distance from the rotor and the trajectory plane of the rotor and two iron cores on one iron core paired with at least one permanent magnet. At least one of the two cores wound to the left to form a separate object is rotated by forming at least one cylindrical shape as shown in FIG. 1 as shown in FIG. Make sure In this way, the output current is output by connecting a low resistance transformer so that the electrical secondary load can be zero at all times, thereby providing a generator having a smaller volume than the conventional one. Hereinafter, a generator without an electrical secondary load according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The generator according to the present invention has a pair of left and right rotors intersecting the permanent magnets (5,5´) having a plurality of poles, a track (8) for fixing the rotor, and a track for attaching the permanent magnets. And a rotating part integrally formed with the shroud 9, a sensitive coil (1.1 ') wound around the permanent magnet of the rotor for the power generation device, and an iron core (4, 4') and a coil (1) winding the coil. , 1 '), a power generating unit composed of magnetic induction cores (3,3') formed by combining iron cores (4, 4 '), a cylindrical support (6) provided for supporting the power generating unit, and an entire assembly of a generator. For the case (7,7 ').

When described in more detail by the accompanying drawings as shown in Figure 5, the left and right sides are mounted so as to be symmetrically configured to cross the permanent magnet so as to be arranged alternately S and N, respectively.

On the other hand, as shown in FIG. 4, the induction coils 1 and 1 'are wound on the respective iron cores 4 and 4' and then a plurality of magnetic induction cores 3, as shown in FIG. 3 ') and bolt to the cylindrical support (6) for fixing the magnetic induction core (3, 3').

The rotor part and the power generating part are coupled as shown in FIG. 3, and the magnetic induction cores 3 and 3 'have a constant distance from the permanent magnets 5 and 5' of the rotor. The iron core of the magnetic induction is configured to have a larger outer diameter than the permanent magnet, which allows the magnetism of the permanent magnet to be well induced, and at the same time, cancels the reverse magnetic field generated by the MA, MB, or induction current shown in FIG. It is a structure for promoting.

The driving method of the present invention coupled by the above configuration and the offset phenomenon of the electrical secondary load will be described.

When the permanent magnet (5, 5 ') of the rotating part is rotated in a certain direction, the magnetic flux is induced by the magnetic flux induced by the rotation of S and N poles at both ends of the magnetic induction core (3, 3'). The current flows along the winding direction of (1,1 ′), and electricity is generated by the current generated at the output terminals of LA and LB. In this case, a reverse magnetic current is formed, that is, a reverse magnetic field is formed. It is guided and canceled in both directions of the MA and MB directions, and does not affect the permanent magnets 5 and 5 'of the rotating part.

7 is a view showing a connection state of the coils, such as the sensitive coil in the generator according to a preferred embodiment of the present invention. Hereinafter, the wiring method of the coils according to the present invention will be described in detail with reference to FIG. 7. For convenience of explanation, the eight sensitive coil parts arranged side by side in the rotational track direction of the rotating shaft will be described in a state arranged in a straight line.

Referring to FIG. 7, two coils wound around the first iron core and the second iron core of each sensitive coil part, that is, the first coil 1 and the second coil 1 'are connected in a zigzag direction to be continuous. Connected. First, the wiring method of the first coils wound around the first iron core of each sensitive coil portion will be described in detail. The output point of the first coil of the first sensitive coil part is connected with the start point of the first coil of the second sensitive coil part, and the output point of the first coil of the second sensitive coil part is the first coil of the third sensitive coil part. Wiring is repeated in the zigzag form with the output point of.

On the other hand, the wiring method of the second coils wound on the second iron core of each sensitive coil portion will be described in detail. The output point of the second coil of the first sensitive coil part is connected to the start point of the second coil of the second sensitive coil part, and the output point of the second coil of the second sensitive coil part of the second coil of the third sensitive coil part. Wiring is repeated in the form of output point and zigzag. One disconnection of each of the first coil and the second coil is combined into a coupling line 12.

The current induced by the generator is output from the output lines La and Lb finally output from the first coils and the second coils of the respective sensitive coil parts connected in this way.

According to the present invention, it is possible to improve the efficiency of the induced current induced by the rotation of the rotor, it is possible to provide a generator with reduced electrical secondary load.

1 is a cross-sectional view showing the overall structure of the present invention

Figure 2 is a detailed view of the core connection in the generator of the present invention

Figure 3 is a detailed view showing the overall model of the generator of the present invention

Figure 4 is a detailed view showing the assembly configuration of the core and the core combined core of the present invention

5 is a detailed view showing the configuration of a permanent magnet of the present invention

Figure 6 is a detailed view showing the assembly configuration of the core and core of the generator in the present invention

Figure 7 is a detailed view showing the winding method of the core to each core of the generator of the present invention and the core connection method

<Explanation of symbols for main parts of drawing>

1.1 'induction coil

3. 3 'magnetic induction iron core

4. Iron core to reel 4 'coil

5. 5 'permanent magnet

6 Support of this generator

7. 7 'assembly case of this generator

8 bearings

9 Tracks and chassis for attaching permanent magnets

10 Permanent Magnet Attachment Support

11 Bolt for attaching permanent magnet to support

12 mating points

MA, MB magnetic flux direction

La, Lb output line

Claims (1)

Permanent magnets N pole and S pole are alternately mounted on the power generation part consisting of at least one stator on the upper part of the cylindrical support and the rotating plate of left and right ends of the cylindrical rotating shaft. The secondary poles formed by reverse magnetic field are generated in the generators in which electricity is generated by the rotation of the permanent magnets by forming the opposite poles so that the magnetic induction core and the permanent magnets are symmetrical by spaced a certain distance to the outside of the cylindrical part of the power generation unit. Generator