KR20110028842A - Power generator - Google Patents

Abstract

PURPOSE: A power generator is provided to charge a battery by controlling speed and torque with the output of a generation ring and a generation rotator and effectively generating regenerative power. CONSTITUTION: A generator comprises: a motor(33a) supplying a torque by receiving power; a rotator which is arranged in both sides of a motor rotator(11b) and receives torque from the motor rotator; and at least one rotation ring rotating the rotator.

Description

POWER GENERATOR {POWER GENERATOR}

The present invention relates to a power generation apparatus, and in particular, by rotating at the same time through each of the power generation rotary ring and the power generation rotor to rotate independently, the power generation that can efficiently generate power during operation, such as power output and speed control of the generator to charge the battery Relates to a device.

As is well known, an electric motor is mounted as a power means for compensating power performance, such as driving performance and cruising distance, and recently, an electric motor is also adopted in various other power machinery including heavy equipment.

On the other hand, the electric motor as described above is mainly used DC motor and winding-type motor, these motors are provided with a commutator is a brush and a rotor stator therein, the power generated while the commutator rotates, the generated power is It is used to rotate the rotating shaft shaft through gears.

In addition, when driving by inertia, the regenerative power is generated from the electric motor to charge the battery, but the amount of charge compared to the discharge is too weak.

The present invention has been proposed to solve the above problems, each of which independently rotates the generating rotation ring and the generating rotor to control the speed and torque by the output amount of the generator and efficiently generate regenerative power during operation of the battery To provide a power generation device that can be charged.

To this end, the generator according to the present invention, the motor housing made of a cylindrical shape; Each of the cylindrical shape, the power generation rotating ring installed to rotate in the charge generating portion inside the power generation housing; And a power generation rotor having a rotation shaft coupled to one or both ends of the commutator, wherein the power generation rotor installed to rotate inside the power generation rotation ring includes the power generation rotation ring and the power generation rotor independently of the output of the electromagnetic force. Rotating, the rotational direction of the power generation rotation ring and the power generation rotor and the motor unit in the same direction, and the end shaft engaging the motor shaft of the power generation rotor; A charge generating unit having a hollow part is configured in a combined inside of the power generator rotor shaft, and includes a rotation shaft having a power generation rotation ring that is rotated by the power generation rotor. The generator rotor rotates in the same direction as the generator rotor ring by the electromagnetic load generated by the charge output of the charge generator. As described above, the power generation rotation ring is also rotated by the charge amount output of the charge generating unit, and the speed is controlled.

The output of charge is not listed as commonplace for electricity use.

The power generation ring and the power generation ring is coupled to the open end is coupled to the power generation rotation ring and the power generation rotor shaft, in connection with the power generation rotation ring, the power generation rotor is rotated. It is preferable that one or more of the power generation rotation ring and the power generation rotation ring are configured to rotate. Winding or permanent magnets are provided on each of the inner and outer circumferential surfaces of the power generating ring and the power generating ring, and a passage through which charge is output is provided. A winding or permanent magnet for generating an electromagnetic force line together with the provided winding or permanent magnet is provided, and an electromagnetic force line is generated on the inner and outer circumferential surfaces of the power generating rotation ring and the power generating rotor together with the winding or permanent magnet provided in the commutator. It is preferable that a winding or permanent magnet is provided.

According to the power generation apparatus according to the present invention as described above, the power generation output can be increased by rotating through the power generation rotary ring and the power generation rotor to rotate independently.

In addition, it efficiently generates power and power during operation to increase energy efficiency by charging the battery.

       Hereinafter, a power transmission generator according to a preferred embodiment of the present invention with reference to the accompanying drawings to be described in detail. 1 is a perspective view showing a power generation device according to the present invention, Figure 2 is a cross-sectional view showing a plurality of power transmission process of the power generation device according to the present invention.

First, as shown in FIG. 2, the power generation apparatus according to the present invention includes a motor 33a and a motor rotor 11b which provide a rotational force by receiving large power; One end or each end, respectively, one generator rotor 11c for receiving and transmitting rotation from the motor rotor 11b and one generator rotor 11d rotated by the generator rotation ring 22a, respectively. The above connection is provided to generate power and power.

To this end, as shown in FIG. 2, the motor of the generator includes a motor housing 33a, a power generation rotation ring 22a rotating inside the motor housing 33a, and a rotation inside the rotation ring 22a. A plurality of power generation rotors 11c and a pair of power generation rotation rings 22a and power generation rotors 11c which block one end of the open power generation rotation ring 22a are driven in series.

At this time, the motor rotor 11b is coupled to the shaft of the power generator 11c, and torque and rotation to the power generation ring 22b by the electromagnet load of the charge output amount of the power generation rotor ring 22a and the power generator rotor 11c. It is transmitted as shown in the sectional view of Fig. 2. The power generating ring 22b transmits torque and speed as described above to the power generating rotor 11e. It operates by providing one or more of the above connection. The power generating rotor shaft 22e can be used as power generation power or other power. In addition, the places used for power are not listed as common sense. Controlling torque and speed by controlling charge output by rotating one or more power generating shafts and power generating ring at the same time through power generator rotor 11c and power generation ring 22a, each independently rotating; One or more of each of the power generating rotors 11c and the power rotating ring 22a to efficiently generate power charges to charge the battery; Power is transmitted to the power generating rotor shaft 22e.

To this end, the power generator rotor (11c), power generation housing (33b) according to the present invention; At least one power generation rotor 11c and a power generation rotation ring 22a for generating charges are provided in the power generation housing 33b, and are installed to control torque and rotation by the amount of charge output and to rotate respectively in the power generation housing 33b. Power generation ring (22a); And a power generation rotor 11c installed to rotate inside the power generation rotation ring 22a and having a power generation shaft coupled to the commutator and the commutator. The power generation rotation ring 22a and the power generation rotor rotate. The direction is the same direction as the motor rotor (11a) and the inside is formed to mesh with the motor shaft of the power generator (11c) power generator rotor (11c) shaft; And a power generation rotor 11c coupled to the motor rotor 11a shaft, and a power generation rotor 11c and a power generation rotation ring for generating electric charges in the power generation rotation ring 22a provided with a support (not shown) therein. Each of the charge generating portions is provided in 22a) to control torque and rotation by the amount of charge output corresponding to the charge generating portion in the power generating housing 33b, and transmit power to the power generating rotor shaft 22e.

The power generation apparatus of the present invention can increase the charge output by rotating at the same time through the power generation rotary ring and the power generation rotor to rotate independently by each other power. In addition, by efficiently generating power during operation to charge the battery can increase the energy efficiency and use it to other power. Thus, it is possible to provide a power generation device that is practically useful and suitable for the green energy era.

1 is a perspective view showing a power generation device according to the present invention.

2 is a cross-sectional view showing a power generation device according to the present invention.

3 is an assembly diagram of each of the power generation apparatus according to the present invention.

4 is a block diagram showing a power supply unit charging system and a power output unit of the power generation apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

11a: motor rotor 11b: motor rotor

11c: Power Generation Rotor 11d: Power Generation Rotor

11e: Power Generation Rotor 11f: Power Generation Rotor
22a: power generating ring 22b: power generating ring

22c: power generating ring 22d: power generating ring

22e: Power generating rotor shaft 33c: Power generation housing

33a: motor housing 33b: power generation housing

Claims (2)

 The power generation apparatus according to the present invention is provided at both ends of the motor 33a and the motor rotor 11b for providing rotational power by being supplied with passive power or power, and receiving and transmitting rotation from the motor rotor 11b. A power generation device comprising at least one connection between the power generation rotor (11c) and the power generation rotor (11d) rotated by the power generation rotation ring (22a). The motor of the generator includes a motor housing 33a, a power generating ring 22a that rotates inside the motor housing 33a, a power generator 11c that rotates inside the rotating ring 22a, and the opening. Driven by a pair of power generation rotation rings 22a and power generation rotors 11c that block one end of the power generation rotation ring 22a; Controlling torque and speed by controlling the charge output amount by simultaneously rotating the power through the power generator rotor 11c and the power generator ring 22a, which rotate independently from each other; Charge the battery by efficiently generating the generated charges by each of the generator rotors 11c and the generator rotor rings 22a; Transmitting power of the power generating rotor shaft 22e; A power generator rotor 11c and a power generation housing 33b; A power generation rotation ring (22a) provided in the power generation housing (33b) and having a power generation rotation ring (11c) to generate charges and controlling torque and rotation by an amount of charge output and rotating inside the power generation housing (33b); And a power generation rotor 11c installed to rotate inside the power generation rotation ring 22a and having at least one power generation shaft coupled to the commutator and the commutator. The power generation rotation ring 22a and power generation include; Rotating direction of the rotor is formed in the same direction as the motor rotor (11a) and the motor shaft of the power generation rotor (11c) in the same direction; Power rotor 11c shaft; And a power generation rotor 11c coupled to the motor rotor 11a shaft, and a power generation rotor 11c and a power generation ring that generate electric charges in the power generation ring 22a provided inside the power generation housing 33b. Charge generation portions are respectively provided in 22a to correspond to the charge generation portions in the power generation housing 33b; Control torque and rotation by the amount of charge output; Power transmission to the power generating rotor shaft 22e; The motor rotor 11b is coupled to the shaft of the power generator 11c, and torque and rotation are transmitted to the power generation ring 22b by an electromagnet load of the charge output amount of the power generation rotor ring 22a and the power generator rotor 11c. ; The power generation ring 22b transmits torque and speed to the power generation rotor 11e as described above; Operating by providing one or more connections above; The generator rotor shaft 22e includes a generator rotor 22e that uses different power. The method of claim 1, further comprising: controlling torque and speed by controlling the charge output amount to rotate in the same direction at the same time through the power generator rotor 11c and the power generator rotation ring 22a, respectively independently rotating; Charge the battery by efficiently generating the generated charges by each of the generator rotors 11c and the generator rotor rings 22a; External transmission of power of the power generating rotor shaft 22e; A power generator rotor 11c and a power generation housing 33b; In the power generation housing 33b; A power generation rotor 11c and a power generation rotation ring 22a for generating charge; Control torque and rotation by the amount of charge output; A power generation rotation ring 22a installed to rotate inside the power generation housing 33b; And a power generation rotor 11c installed to rotate in the power generation rotation ring 22a and having a power generation shaft coupled to the commutator and the commutator. The power generation rotation ring 22a and the power generation rotor The rotation direction is formed to mesh with the motor shaft of the motor rotor (11a) and the power generator rotor (11c) in the same direction as each other; Power rotor 11c shaft; And a power generation rotor 11c coupled to the motor rotor 11a shaft, and a power generation rotor 11c which generates electric charges in the power generation rotation ring 22a having respective supports (not shown) therein. Charge generators are provided in the rotary ring 22a to correspond to a plurality of charge generators in the power generation housing 33b; Control torque and rotation by the amount of charge output; A power generating device that uses power as the power generating rotor shaft (22e).

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