CN105429404B - Power generation device - Google Patents
Power generation device Download PDFInfo
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- CN105429404B CN105429404B CN201510993243.4A CN201510993243A CN105429404B CN 105429404 B CN105429404 B CN 105429404B CN 201510993243 A CN201510993243 A CN 201510993243A CN 105429404 B CN105429404 B CN 105429404B
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- China
- Prior art keywords
- rotor
- generating mechanism
- winding coil
- stator winding
- magnet
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K16/00—Machines with more than one rotor or stator
Abstract
The invention discloses a power generation device, which comprises an inner ring power generation mechanism and an outer ring power generation mechanism, which are coaxially arranged in a nested mode, wherein rotors of the inner ring power generation mechanism and rotors of the outer ring power generation mechanism are fixed on the same rotating shaft of the power generation device; the rotors of the inner ring power generation mechanism is the oppositely arranged disc rotors; and the rotors of the outer ring power generation mechanism is the oppositely arranged disc rotors. The outer ring power generation mechanism and the inner ring power generation mechanism of the power generation device form a double-rotor and double-stator conjugate power generation device; a double-stator coil reverse winding mode is adopted; positive and negative torques generated in operation are counteracted; a driving torque is greatly reduced; relatively high power is sent out with relatively low driving force; energy sources are saved; the power output is increased; and energy-saving and efficient power generation is achieved.
Description
Technical field
The present invention relates to generating equipment technical field, more particularly, to a kind of TRT of efficient energy-saving.
Background technology
The discovery of electricity and application are greatly saved manual labor and the mental labour of the mankind, make in the strength length of the mankind
Wing, makes the information feeler of the mankind constantly extend.The impact to human lives for the electricity has two aspects:The acquisition conversion of energy and biography
Defeated, the basis of electronic information technology.The discovery of electricity can be described as the revolution of human history, and the kinetic energy being produced by it is daily all in source
Source constantly discharges, the oxygen that its effect is no less than human world of saying to electric demand exaggeration for the people, without electricity, the mankind's
Civilization also can be explored in the dark.Modern supply of electric power occurs in that supply crisis due to the increasingly minimizing of conventional energy resource, with
The raising of every profession and trade, the development of each field production and living standards of the people, electricity needs is increasing, power-generating enterprise face
The power supply pressure facing constantly rises, and is badly in need of a kind of dynamical TRT to meet power demands.Existing generator is general
It is according to electromagnetic induction principle, make the rotor coil cutting stator magnetic field of closure produce sensing under conditions of power drive rotation
Electric current, thus realize generating electricity.The rotation of electric generator rotor coil then need extra power supply, for example water conservancy, wind-force, coal or
Person's fuel engines provides power.On the premise of outside energy resource supply is certain, improve the electric power quantum of output of generator, then become
Solve the not enough primary means of current supply of electric power.
Content of the invention
It is an object of the invention to provide a kind of TRT with double-generator structure, thus solve to deposit in prior art
Foregoing problems.
To achieve these goals, the technical solution used in the present invention is as follows:
A kind of TRT, the inner ring generating mechanism including coaxial and nested setting and outer shroud generating mechanism;Described inner ring
The rotor of the rotor of generating mechanism and described outer shroud generating mechanism is each attached in the same rotary shaft of described TRT;Described
The rotor of inner ring generating mechanism is the disk rotor being oppositely arranged, and the rotor of described outer shroud generating mechanism is the circle being oppositely arranged
Disk type rotor.
Preferably, described outer shroud generating mechanism includes shell body, external stator and outer rotor, described external stator and described shell
Body is fixedly connected, and the external stator winding coil on described external stator is uniformly fixed on inside described shell body, described external stator two
Side is respectively arranged with the first outer rotor and the second outer rotor, and described first outer rotor and described second outer rotor are disc and turn
Son and be each attached in described rotary shaft, described first outer rotor is provided with magnetic on the face relative with described second outer rotor
Iron;Described inner ring generating mechanism includes inner housing, inner stator and internal rotor, and the inside circumference that described external stator is located is arranged
State inner housing, described inner stator is fixedly connected with described inner housing, the inner stator winding coil on described inner stator is uniformly fixed
Inside described inner housing, described inner stator both sides are respectively arranged with the first internal rotor and the second internal rotor, described first and turn
Sub and described second internal rotor is disk rotor and is each attached in described rotary shaft, described first internal rotor and described
Two internal rotors are provided with magnet on relative face, and described first internal rotor and described second internal rotor are located at described first outer turn
Between sub and described second outer rotor.
Preferably, the magnet on described first outer rotor and described second outer rotor be all distributed on by antermarginal position and
Corresponding with the position of described external stator winding coil and its quantity is all identical with the quantity of described external stator winding coil, described
First outer rotor is identical with the magnetic pole of the magnet of described second outer rotor relative position, is fixed on the phase on described first outer rotor
The magnetic pole of adjacent magnet is contrary, and the magnetic pole being fixed on adjacent magnet on described second outer rotor is contrary;Turn in described first
Magnet on sub and described second internal rotor is all distributed on by antermarginal position and the position with described inner stator winding coil
Corresponding and its quantity is all identical with the quantity of described inner stator winding coil, described first internal rotor and described second internal rotor
The magnetic pole of the magnet of relative position is identical, and the magnetic pole being fixed on adjacent magnet on described first internal rotor is contrary, is fixed on
The magnetic pole of the adjacent magnet on described second internal rotor is contrary.
Preferably, the quantity of external stator winding coil of described outer shroud generating mechanism and described inner ring generating mechanism is default
The quantity of sub- winding coil is equal and its number is all even number, the quantity of outer rotor upper magnet of described outer shroud generating mechanism and institute
The quantity stating the internal rotor upper magnet of inner ring generating mechanism is equal and its number is all even number.
Preferably, described inner housing and described shell body are connected, the shell of described shell body and described TRT
Or support is connected or is connected with external support facility.
Preferably, the external stator winding coil of described outer shroud generating mechanism is along the axial direction coiling of described rotary shaft, described inner ring
The inner stator winding coil of generating mechanism is along the axial direction coiling of described rotary shaft;Described external stator winding coil coiling direction with described
The coiling of inner stator winding coil is in opposite direction.
Preferably, it is fixedly installed center rotor in the rotary shaft of described inner ring generating mechanism center.
Preferably, described center rotor mainly by with described inner stator winding coil quantity identical, separate along axis
The valvula that even number magnetic links build up is constituted.
Preferably, described rotary shaft is additionally provided with least one radiator fan.
Preferably, the end of described rotary shaft is provided with the drive for being connected with external energy supply arrangement.
The invention has the beneficial effects as follows:
The TRT of the present invention, its outer shroud generating mechanism and inner ring generating mechanism constitute birotor bimorph transducer conjugation and generate electricity
Device, using bimorph transducer coil reverse-winding mode, the positive and negative torque producing in operation offsets, and greatly reduces driving torque,
Larger electric power is sent with less driving force, saves the energy and improve electric power quantum of output, realize efficient energy-saving and generate electricity.
Brief description
Fig. 1 is the structural representation of the TRT of the present invention;
Wherein:1--- drive;2--- rotary shaft;3--- radiator fan;4--- first outer rotor;5--- is fixed on first
Magnet on outer rotor;The external stator with winding coil for the 6---;7--- shell body;8--- is fixed on the magnetic on the second outer rotor
Iron;9--- second outer rotor;10--- second internal rotor;11--- is fixed on the magnet on the second internal rotor;12--- inner housing;
The inner stator with winding coil for the 13---;14--- is fixed on the magnet on the first internal rotor;15--- first internal rotor;In 16---
Heart rotor.
Specific embodiment
In order that the objects, technical solutions and advantages of the present invention become more apparent, below in conjunction with accompanying drawing, the present invention is entered
Row further describes.It should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not used to
Limit the present invention.
As shown in Figure 1, the invention discloses a kind of TRT, including the inner ring generating mechanism of coaxial and nested setting
With outer shroud generating mechanism;The rotor of the rotor of described inner ring generating mechanism and described outer shroud generating mechanism is each attached to described generating
In the same rotary shaft of device;The rotor of described inner ring generating mechanism is the disk rotor being oppositely arranged, and described outer shroud generates electricity
The rotor of mechanism is the disk rotor being oppositely arranged.At least one radiator fan is additionally provided with described rotary shaft for whole
Individual TRT radiating and cooling, described radiator fan can be according to the heat production situation of described TRT at described rotary shaft two ends
Respectively set one can also only arrange at one end.The end of described rotary shaft is provided with for being connected with external energy supply arrangement
Drive.Described outer shroud generating mechanism includes shell body, external stator and outer rotor, and described external stator is fixing with described shell body even
Connect, the external stator winding coil on described external stator is uniformly fixed on inside described shell body, described external stator both sides set respectively
It is equipped with the first outer rotor and the second outer rotor, described first outer rotor and described second outer rotor are disk rotor and all solid
It is scheduled in described rotary shaft, described first outer rotor is provided with magnet on the face relative with described second outer rotor;Described interior
Ring generating mechanism includes inner housing, inner stator and internal rotor, and the inside circumference that described external stator is located is provided with described inner housing,
Described inner stator is fixedly connected with described inner housing, and the inner stator winding coil on described inner stator is uniformly fixed on described inner casing
Internal side, described inner stator both sides are respectively arranged with the first internal rotor and the second internal rotor, described first internal rotor and described the
Two internal rotors are disk rotor and are each attached in described rotary shaft, described first internal rotor and described second internal rotor phase
To face on be provided with magnet, described first internal rotor and described second internal rotor are located at described first outer rotor and described the
Between two outer rotors.Magnet on described first outer rotor and described second outer rotor be all distributed on by antermarginal position and with
The position of described external stator winding coil is corresponding and its quantity is all identical with the quantity of described external stator winding coil, and described
One outer rotor is identical with the magnetic pole of the magnet of described second outer rotor relative position, is fixed on adjacent on described first outer rotor
Magnet magnetic pole contrary, the magnetic pole being fixed on adjacent magnet on described second outer rotor is contrary;Described first internal rotor
All it is distributed on by antermarginal position with the magnet on described second internal rotor and the position phase with described inner stator winding coil
Corresponding and its quantity is all identical with the quantity of described inner stator winding coil, described first internal rotor and described second internal rotor phase
Identical to the magnetic pole of the magnet of position, the magnetic pole being fixed on adjacent magnet on described first internal rotor is contrary, is fixed on institute
The magnetic pole stating adjacent magnet on the second internal rotor is contrary.The quantity of external stator winding coil of described outer shroud generating mechanism with
The quantity of the inner stator winding coil of described inner ring generating mechanism is equal and its number is all even number, described outer shroud generating mechanism
The quantity of outer rotor upper magnet is equal with the quantity of the internal rotor upper magnet of described inner ring generating mechanism and its number is all even number.
Described inner housing is connected with described shell body, the shell of described shell body and described TRT or support be connected or
It is connected with external support facility.The external stator winding coil of described outer shroud generating mechanism along described rotary shaft axial direction coiling,
The inner stator winding coil of described inner ring generating mechanism is along the axial direction coiling of described rotary shaft;Described external stator winding coil coiling side
To in opposite direction with the coiling of described inner stator winding coil.Therefore produce contrary resistive torque in generating, greatly reduce
Driving torque, when external energy drives drive rotation, rotary shaft concomitant rotation simultaneously drives internal rotor and outer rotor simultaneously
Rotation is respectively acting on inner stator winding coil and external stator winding coil, is equivalent to and has two sets of generating mechanisms to send out at the same time simultaneously
Electricity, it is achieved thereby that can send more electric energy while energy-conservation again.In the present invention, the power resources of drive do not limit
Fixed, any provide power resources (as the hydraulic turbine, wind energy engine, fuel engines etc.).
In a more preferred embodiment, in being fixedly installed in the rotary shaft of described inner ring generating mechanism center
Heart rotor.Described center rotor mainly by with described inner stator winding coil quantity identical, the even number magnetic that separates along axis
The valvula that steel disc builds up is constituted.Its effect is to provide counterweight balance, increase trochiterian rotary inertia, the magnetic of isolation stator center
, improve the power factor of generator.
By using technique scheme disclosed by the invention, having obtained following beneficial effect:
The TRT of the present invention, its outer shroud generating mechanism and inner ring generating mechanism constitute birotor bimorph transducer conjugation and generate electricity
Device, using bimorph transducer coil reverse-winding mode, the positive and negative torque producing in operation offsets, and greatly reduces driving torque,
Larger electric power is sent with less driving force, saves the energy and improve electric power quantum of output, realize efficient energy-saving and generate electricity.
The above is only the preferred embodiment of the present invention it is noted that ordinary skill people for the art
For member, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications also should
Depending on protection scope of the present invention.
Claims (8)
1. a kind of TRT is it is characterised in that include inner ring generating mechanism and the outer shroud generating mechanism of coaxial and nested setting;
The rotor of the rotor of described inner ring generating mechanism and described outer shroud generating mechanism is each attached to the same rotation of described TRT
On axle;The rotor of described inner ring generating mechanism is the disk rotor being oppositely arranged, and the rotor of described outer shroud generating mechanism is phase
Disk rotor to setting;Described outer shroud generating mechanism includes shell body, external stator and outer rotor, described external stator with described
Shell body is fixedly connected, and the external stator winding coil on described external stator is uniformly fixed on inside described shell body, described outer fixed
Sub- both sides are respectively arranged with the first outer rotor and the second outer rotor, and described first outer rotor and described second outer rotor are disk
Shape rotor and being each attached in described rotary shaft, described first outer rotor is provided with the face relative with described second outer rotor
Magnet;Described inner ring generating mechanism includes inner housing, inner stator and internal rotor, and the inside circumference that described external stator is located is provided with
Described inner housing, described inner stator is fixedly connected with described inner housing, and the inner stator winding coil on described inner stator is uniformly solid
It is scheduled on inside described inner housing, described inner stator both sides are respectively arranged with the first internal rotor and the second internal rotor, in described first
Rotor and described second internal rotor are disk rotor and are each attached in described rotary shaft, described first internal rotor and described
Second internal rotor is provided with magnet on relative face, and described first internal rotor and described second internal rotor are located at outside described first
Between rotor and described second outer rotor;The end of described rotary shaft is provided with the biography for being connected with external energy supply arrangement
Driving wheel.
2. TRT according to claim 1 is it is characterised in that on described first outer rotor and described second outer rotor
Magnet be all distributed on by antermarginal position and and its quantity corresponding with the position of described external stator winding coil all and institute
The quantity stating external stator winding coil is identical, the magnetic pole of the magnet of described first outer rotor and described second outer rotor relative position
Identical, the magnetic pole being fixed on adjacent magnet on described first outer rotor is contrary, is fixed on the phase on described second outer rotor
The magnetic pole of adjacent magnet is contrary;Magnet on described first internal rotor and described second internal rotor is all distributed on by antermarginal position
Put and corresponding with the position of described inner stator winding coil and its quantity is all identical with the quantity of described inner stator winding coil,
Described first internal rotor is identical with the magnetic pole of the magnet of described second internal rotor relative position, is fixed on described first internal rotor
Adjacent magnet magnetic pole contrary, the magnetic pole being fixed on adjacent magnet on described second internal rotor is contrary.
3. TRT according to claim 2 is it is characterised in that the external stator winding coil of described outer shroud generating mechanism
Quantity equal with the quantity of the inner stator winding coil of described inner ring generating mechanism and its number is all even number, described outer shroud is sent out
The quantity of outer rotor upper magnet of motor structure is equal with the quantity of the internal rotor upper magnet of described inner ring generating mechanism and its number
It is all even number.
4. TRT according to claim 2 is it is characterised in that described inner housing is connected with described shell body,
The shell of described shell body and described TRT or support are connected or are connected with external support facility.
5. TRT according to claim 2 is it is characterised in that the external stator winding coil of described outer shroud generating mechanism
Along the axial direction coiling of described rotary shaft, the inner stator winding coil of described inner ring generating mechanism is along the axial direction coiling of described rotary shaft;Institute
State external stator winding coil coiling direction in opposite direction with the coiling of described inner stator winding coil.
6. TRT according to claim 2 is it is characterised in that be located at turning of described inner ring generating mechanism center
Center rotor is fixedly installed on moving axis.
7. TRT according to claim 6 it is characterised in that described center rotor mainly by with described inner stator around
Group number of coils identical, the valvula composition building up along the even number magnetic links that axis separates.
8. TRT according to claim 1 is it is characterised in that be additionally provided with least one radiating in described rotary shaft
Fan.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510993243.4A CN105429404B (en) | 2015-12-24 | 2015-12-24 | Power generation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510993243.4A CN105429404B (en) | 2015-12-24 | 2015-12-24 | Power generation device |
Publications (2)
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CN105429404A CN105429404A (en) | 2016-03-23 |
CN105429404B true CN105429404B (en) | 2017-02-22 |
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CN201510993243.4A Active CN105429404B (en) | 2015-12-24 | 2015-12-24 | Power generation device |
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CN107947509A (en) * | 2017-08-14 | 2018-04-20 | 骆勇 | Without stator dual generator |
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JP5052288B2 (en) * | 2007-06-28 | 2012-10-17 | 信越化学工業株式会社 | Axial gap type rotating machine |
CN101330234A (en) * | 2008-04-21 | 2008-12-24 | 上海大学 | Direct-drive composite type permanent magnet motor |
CN101373917A (en) * | 2008-10-17 | 2009-02-25 | 沈阳工业大学 | Multi-disc type permanent magnet synchronous motor |
CN102122869A (en) * | 2011-02-24 | 2011-07-13 | 中科盛创(青岛)电气有限公司 | Concentric double-stator structured direct-drive cage type induction generator system |
CN205231973U (en) * | 2015-12-24 | 2016-05-11 | 韩汶冀 | Power generation device |
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Effective date of registration: 20180719 Address after: 830000 Beijing South Road, Urumqi, the Xinjiang Uygur Autonomous Region 358 Patentee after: Xinjiang Zhongtian Environmental Protection Technology Co., Ltd. Address before: 830000 1096 Karamay West Road, Urumqi, the Xinjiang Uygur Autonomous Region, 3-2-1102 Patentee before: Han Menji |