TW202115989A - Kinetic Power Generation Unit - Google Patents

Abstract

A kinetic power generation unit improves the magnetic field of an electric motor and the magnetic field of a power generator into a same magnetic field coupling of a same rotor, so that the rotors of electric motor and the power generator have the same rotational direction, and an exciting winding of the electric motor and a field winding of the power generator change and transmit phases sequentially to a phase voltage by a DC brushless drive controller, so that an interference effect on the counter electromotive force of the electric motor and the counter-electromotive force of the power generator is changed to a positive effect.

Description

Power generator set

The present invention is a power generator set, which has a power generator set that converts the back electromotive force of the interference effect of the motor and the back electromotive force of the generator into a positive effect.

According to the electric motor, also known as a motor, it is an electrical device that converts electrical energy into mechanical energy, and can then use the mechanical energy to generate kinetic energy to drive other devices. Most electric motors provide energy to the motor through magnetic fields and winding currents. The generator first converts the energy stored in various primary energy sources into mechanical energy through the prime mover, and then converts it into electrical energy through the generator, and sends it to various power-consuming places through the power transmission and distribution network. Therefore, the generator uses kinetic energy or other forms A device that converts the energy into electrical energy. The principle of a motor and a generator is basically the same, and the difference lies in the direction of energy conversion. However, when the motor is running normally, an induced electric potential is generated, which is called counter-electromotive force (cemf), which prevents the direction of movement of the conductor that generates the induced electric potential. Therefore, the back-EMF will produce interference effects on the motor. When the generator is running, it will produce a counterforce, which is a negative interference effect for the generator.

In view of the fact that conventional motors and generators have negative back-EMF and back-EMF interference effects during normal operation, the inventors improved them, and thus the invention was born.

The main purpose of the present invention is to provide a power generator set that converts the interference effect of the back EMF of the motor and the back EMF of the generator into a positive effect.

The main feature of the present invention is to improve the magnetic field of the motor and the generator to the same coupling magnetic field and the same rotor, so that the rotation direction of the rotor of the motor and the generator is the same, and the field coil winding of the motor and the generator The DC brushless drive controller sequentially commutates the phase voltages. In this way, the interference effect of the back EMF of the motor and the back EMF of the generator is converted into a positive effect.

Regarding the technical means and structure adopted by the present invention in order to achieve the above-mentioned objectives and effects, the following embodiments are combined with illustrations to illustrate as follows.

Please refer to FIG. 1, the power generator set 1 of the embodiment of the present invention has the functions of a motor 1a and a generator 1b. The power generator set 1 includes a stator 10 and a rotor 20 arranged in the middle of the stator 10, wherein

The stator 10 has a hollow shape, and a plurality of circular slots 11 are arranged on the inner wall. In these slots 11, the field coil winding 12a of the motor 1a and the field coil winding 12b of the generator 1b are arranged in a crossing manner. For example, the odd-numbered slot 11 is arranged with the field coil winding 12a of the motor 1a, and the even-numbered slot 11 is arranged with the field coil winding 12b of the generator 1b.

As shown in Fig. 2, a battery 30 is additionally provided. The output current of the battery 30 is respectively provided by the DC brushless drive controller 40 to provide the magnetic field of the excitation coil winding 12a of the motor 1a and the generator 1b in a sequential commutation manner. The phase voltage of the coil winding 12b (ie, the energization and de-energization are divided into phases, as shown in FIG. 7). When the excitation coil winding 12a and the field coil winding 12b are energized, a coupling magnetic field is generated inside the stator 10 to drive the rotor 20 to rotate. After the rotor 20 rotates, in addition to outputting and supplying power energy, the rotor 20 rotates in the middle between the field coil winding 12a of the motor 1a and the field coil winding 12b of the generator 1b, and is controlled by a DC brushless drive When the generator 40 is not supplied with power, the excitation coil winding 12a of the motor 1a or the field coil winding 12b of the generator 1b cuts the magnetic field lines to generate an induced electric potential. The generated power is drawn through the terminal, and the generated power is a On the one hand, it can be transformed by a voltage regulator (AVR) 50 and a transformer 60 to output AC power for supply; on the other hand, after rectification by a rectifier 70, the output DC power is used to charge the front battery 30 to improve the battery 30’s performance. Power.

效應，會是電動機1a的正面效應。因此，形成                                                  ，    其中x為電動機1a的出力、-x為電動機1a的反電勢、y為發電機1b的發電、-y為發電機1b的反動勢，提升了電動機1a、發電機1b各一倍的效益。Since the field coil winding 12a of the motor 1a and the field coil winding 12b of the generator 1b are arranged in a crossed manner in the slot 11 of the stator 10, and they are commutated and energized in sequence through the DC brushless drive controller 40, the motor 1a is provided with The currents of the excitation coil winding 12a and the field coil winding 12b of the generator 1b have the same coupling magnetic field, and the motor 1a and the rotor 20 of the generator 1b are the same and share the same, and the direction of rotation of the motor 1a and the rotor 20 of the generator 1b Consistent, according to Fleming's left-hand rule (also known as motor rule) and Fleming's right-hand rule (also known as engine rule), the interference (negative) effect of the back EMF generated after the electric motor 1a is energized will be positive for the generator 1b Effect; and the interference of the reaction of generator 1b (negative)

The effect will be a positive effect of the motor 1a. Therefore, it is formed, where x is the output of the motor 1a, -x is the back EMF of the motor 1a, y is the power generation of the generator 1b, and -y is the back EMF of the generator 1b, which doubles the motor 1a and the generator 1b. Benefits.

Secondly, please refer to FIG. 3, the present invention can also be applied to multiple power generator sets 1, 2, 3 in a coaxial manner with the same rotor 20 arranged in series to increase the output and electricity.

The power generator set 1 of the embodiment of the present invention takes a three-phase coil winding with a delta connection as an example, as shown in FIG. 4. The connection points a, b, and c of the coil windings between phases are the output points of the three-phase alternating current; the center points A, B, and C of each coil winding are the phase voltage input points to complete the three-phase coil winding Configuration.

The power generator set 1 in the embodiment of the present invention takes a Y-connected three-phase coil winding as an example, as shown in FIG. 5. The end points a, b, and c of the coil winding in each phase are the output points of the power supply; the neutral point of the coil winding is connected by △, and the center points A, B, and C of the △ connection are the phase voltage input points. Configuration of three-phase coil windings.

The power generator set 1 in the embodiment of the present invention takes the three-phase coil winding of the delta & Y connection as an example, as shown in FIG. 6. Inside the delta junction shown in Figure 4, a Y junction as shown in Figure 5 is arranged. The end point of each phase of the Y junction is connected to the connection points a, b, and c between the phases of the delta junction. The delta junction The connection points a, b, and c between the phases are the output points of the three-phase alternating current, and the center points A, B, and C of each coil winding of the △-connection are the phase voltage input points, so as to achieve the common effect.

The aforementioned DC brushless drive controller 40 performs sequential commutation to give phase voltages to the coil windings of the power generator set 1. Taking the Y connection shown in FIG. 7 as an example, the sequence A~B is energized, A~C is energized, and B~C Energize, so as to achieve the effect of commutation and energizing the coil windings in sequence.

In summary, the present invention is not only novel but also industrially usable. An application for a patent for invention is filed in accordance with the law. I would like to ask for your kind review and approval of the patent.

1, 2, 3: Power generator set 1a: Electric motor 1b: Generator 10: Stator 11: wire slot 12a: Excitation coil winding 12b: Field coil winding 20: Rotor 30: battery 40: DC brushless drive controller 50: Voltage Regulator (AVR) 60: Transformer 70: Rectifier

Fig. 1 is an arrangement diagram of an excitation coil winding and a field coil winding with the same coupling magnetic field for a motor and a generator according to an embodiment of the present invention. Figure 2 shows a block diagram of an embodiment of the present invention. Fig. 3 is a block diagram of a combination of multiple power generators according to an embodiment of the present invention. Fig. 4 is a △-connection configuration diagram of the three-phase windings of the power generator set according to the embodiment of the present invention. Fig. 5 shows the Y-connection configuration diagram of the three-phase windings of the power generator set according to the embodiment of the present invention. Fig. 6 is a diagram showing the configuration of the three-phase windings of the power generator set according to the embodiment of the present invention with △&Y connection. FIG. 7 is a diagram showing the sequence energization of the coil windings by the DC brushless drive controller according to the embodiment of the present invention.

1: Power generator set

1a: Electric motor

1b: Generator

30: battery

40: DC brushless drive controller

50: Voltage Regulator (AVR)

60: Transformer

70: Rectifier

Claims (6)

A power generator set in which a stator slot is arranged with a motor's excitation coil winding and a generator's field coil winding in a cross manner to form the same magnetic field; a rotor arranged inside the stator, the rotor is the motor and the The generator is shared and coaxial, so that the motor and the rotor of the generator rotate in the same direction, and the excitation coil winding and the field coil winding are commutated and energized in sequence through the DC brushless drive controller to drive the rotor Running. The power generator set of claim 1, wherein the input end of the DC brushless drive controller is connected to a battery; a part of the power output end of the power generator set is connected to a rectifier, and the output AC power is rectified before It is connected with the battery to charge the battery, and the other part is used for outputting AC power through a voltage regulator and a transformer; after the rotor rotates, it can output for power supply. The power generator set according to claim 1 or 2, wherein multiple power generator sets can be installed, and the rotors are shared and arranged in a coaxial manner. The power generator set according to claim 1 or 2, wherein the power generator set is connected by △, wherein the connection point of the coil winding between phases is the output point of three-phase alternating current; the center point of each coil winding is the phase Voltage input point to complete the configuration of the three-phase coil windings. The power generator set according to claim 1 or 2, wherein the power generator set is connected by Y, and the end of each phase of the coil winding is the power output point; the neutral point of the coil winding is connected by △, the center of the △ connection The point is the phase voltage input point to complete the configuration of the three-phase coil winding. The power generator set according to claim 1 or 2, wherein the power generator set is composed of a △&Y connection, at the end point of each phase of the Y connection and the connection point between the phases of the △ connection Connection, the connection point between the phases of the delta junction is the output point of three-phase alternating current, and the center point of each coil winding of the delta junction is the phase voltage input point.

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