CN108233653A - The micro- source electricity generation system of magnetic energy quantum superposition vector - Google Patents
The micro- source electricity generation system of magnetic energy quantum superposition vector Download PDFInfo
- Publication number
- CN108233653A CN108233653A CN201810129757.9A CN201810129757A CN108233653A CN 108233653 A CN108233653 A CN 108233653A CN 201810129757 A CN201810129757 A CN 201810129757A CN 108233653 A CN108233653 A CN 108233653A
- Authority
- CN
- China
- Prior art keywords
- component
- stator
- electrically connected
- energy storage
- module
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K17/00—Asynchronous induction motors; Asynchronous induction generators
- H02K17/42—Asynchronous induction generators
Landscapes
- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
The invention discloses the micro- source electricity generation systems of magnetic energy quantum superposition vector,Including the first energy storage component,Second energy storage component,At least magnetic suspension motor of two groups of stator components and suspension monopole rotor,Stator driving module,Based on the first faradic rotor sensing component of suspension monopole rotor rotation magnetic life,Based on any one group of the second faradic stator sensing component of stator component energization magnetic life,Processing module,Horizontal component converter,Vertical component converter,Transmission of electricity handover module,Stator driving module drive suspension monopole rotor rotates,Processing module hydrous water divides energy converter equally,Vertical component converter is respectively by multiple harmonic levels of current component,There are the first energy storage components for the electric energy of vertical component,In second energy storage component,Handover module of transmitting electricity switches the first energy storage component and the second energy storage component and stator driving module,The conducting state of external consuming parts;The design switches the power supply state of the first energy storage component and the second energy storage component, and systems stay operation realizes that the energy repeatedly utilizes.
Description
Technical field
The present invention relates to the micro- source electricity generation systems of field of power supplies, particularly magnetic energy quantum superposition vector.
Background technology
In the world can not possibly there are perpetua mobilia, if but the form of energy can effectively be utilized, you can greatly
The big utilization ratio improved to energy, previous driving power can only utilize the part of flat wave energy, and energy is drawn high
When vertical component and be not used, that is to say, that the power typically entered is made of active power and reactive power, reality in, if
It is standby active power often to be utilized, and reactive power is wasted, and by motor to the form of energy into
Row conversion, then electromagnetic energy therein is further utilized, it is the feasible mode of one of which.
Magnetic suspension motor, according to nothing aerial when being independently present in before microkinetic theory and Quantum Electromagnetic Field energy ion-conductance
Source, here it is utilize quantum theory so that and superconducting coil generates magnetic force, so as to push electric current forward travel moment,
Quality is multiplied by with momentum speed, reaches a vector.
It is important with each dimension direction point at each moment, and when earth magnetism released movement generates electronics, quantum idol induced labor
Raw two poles are double into and electronics is constantly selected to passing through pole suture, and device current remains round-the-clock linear superposition shape
State develops forever according to superposition state, and a small amount of energy generated during this progressive motility feed to motor oscillator plate, and deliver
It is amplified to processing module, engine is made to carry out work simultaneous linkage electrical power generators.
Meanwhile an electric energy part for generation, for powering, another part can also be started by corresponding component feedback
Machine, enable the engine to persistently also can steady operation, this superposition magnon energy storage shakes can device mode our also known as perseverances
Magnetic freely trembles Move energy oscillators.
And now, there are no the electric power systems of complete set, can be carried out using above-mentioned superposition magnon energy storing up electricity principle
Power generation, and electric energy is stored by energy storage component, the electric energy of energy storage component is then being supplied into electric power generation and confession
It is switched in the two states used to external consuming parts.
Invention content
In order to solve the above technical problems, the object of the present invention is to provide a kind of automatic switchover power supply state and pass through magnetic energy
Quantum superposition vector is to greatly improve micro- source electricity generation system of efficiency of energy utilization.
The technical solution adopted by the present invention is:
The micro- source electricity generation system of magnetic energy quantum superposition vector, including,
At least the first energy storage component and the second energy storage component;
Magnetic suspension motor, magnetic suspension motor include at least two groups of stator components and suspension monopole rotor;
Stator driving module can be electrically connected with external power supply, and stator driving module respectively with two groups of stator departments
Part is electrically connected, and stator driving module switches the conducting state of two groups of stator components to switch the magnetic field generated in magnetic suspension motor
Direction, and then drive the rotation of suspension monopole rotor;
Rotor senses component, for corresponding with suspension monopole rotor and magnetic gives birth to the in suspension monopole rotor rotation process
One sensing electric current;
Stator senses component, for sensing any one group of stator component, the magnetic life the when any one group of stator component is connected
Two sensing electric currents;
Processing module is electrically connected with rotor sensing component, stator sensing component and senses electric current, the by first respectively
Two sensing electric currents are coupled into multiple harmonic electric current and amplify;
Horizontal component converter is electrically connected with processing module, the first energy storage component with by multiple harmonic electric current water respectively
The electric energy conversion of the amount of dividing equally is stored in the first energy storage component;
Vertical component converter is electrically connected to hang down in multiple harmonic electric current with processing module, the second energy storage component respectively
The electric energy conversion of straight component is stored in the second energy storage component;
Transmission of electricity handover module, including the first input end being electrically connected with the first energy storage component and the second energy storage component electricity
Property connection the second input terminal, with the first output terminal of stator driving module electric connection and electrically connecting with external consuming parts
The second output terminal connect, transmission of electricity handover module allow hand over first input end and the first output terminal or logical with second output terminal
Disconnected state, while handover module of transmitting electricity also is able to the second input terminal of switching and the first output terminal or the break-make with second output terminal
State.
It is described transmission of electricity handover module include timing controller and relay switch, relay switch respectively with first input end,
Second input terminal, the first output terminal, second output terminal connection, timing controller and relay switch be electrically connected with timing controlled after
Electric switch switches first input end and the first output terminal or with the on off operating mode of second output terminal and switching the second input terminal
On off operating mode with the first output terminal or with second output terminal.
The vertical component converter includes super capacitor group, comparator, base modules, switch module;
The electrode input end of processing module respectively with one end of super capacitor group, the anode of the second energy storage component, comparator
One input end be electrically connected, comparator detect the second energy storage component the electric current that backflows;
Another input terminal of base modules and comparator is electrically connected to provide reference signal for comparator, comparator it is defeated
Outlet and the control terminal of switch module are electrically connected, and comparator controls switching molding according to the fiducial value of backflow electric current and reference signal
Block break-make;
Input terminal of the negative input of processing module respectively with the other end of super capacitor group, switch module electrically connects
It connects;
The cathode of the output terminal of switch module and the second energy storage component is electrically connected the electric energy super capacitor group to be kept in
It is stored into the second energy storage component.
The stator driving module includes the first magnetosensitive component, first switch component, second switch component, first switch portion
For driving one stator component break-make, second switch component is used to drive another stator component break-make, the first magnetosensitive component part
For detecting the break-make of one stator component, when one stator component is connected, turns off first switch component and make second
Switch block is connected, and when another stator component is connected, turns off second switch component and first switch component is connected, with
Realize the conducting state of two groups of stator components of switching.
First switch component include triode Q1, the second switch component include triode Q2, further include resistance R4 and
Capacitance C1;
One end of the first magnetosensitive component respectively with external dc power/second output terminal, one stator component one
End, one end electric connection of another stator component;
The other end of the first magnetosensitive component is electrically connected with the base stage of triode Q1, the other end of one stator component
It is electrically connected respectively with one end of the collector of triode Q1, one end of capacitance C1, resistance R4;
The other end of resistance R4 is electrically connected with the base stage of triode Q2;
The other end of another stator component is electrically connected respectively with the collector of the other end of capacitance C2, triode Q2;
Triode Q1 emitters and the emitter of triode Q2 are grounded.
The inverter being electrically connected with second output terminal is further included, which can be electrically connected with external consuming parts
The DC conversion that the first energy storage component or the second energy storage component provide to be exported into alternating current.
Further include the leakage switch that can be turned off under overcurrent or short circuit, the leakage switch respectively with inverter, outer
Portion's consuming parts connection.
Voltage changing module is further included, the voltage changing module is electrically connected to incite somebody to action with the first output terminal, stator driving module respectively
The operating voltage that first energy storage component or the voltage modulated of the second energy storage component output are operated into suitable driving magnetic suspension motor.
Beneficial effects of the present invention:
Magnetic suspension of the present invention is superimposed electric supply system, and using magnetic suspension motor, external power supply first is accessed stator driving
Module one end time, and then drive magnetic suspension motor running.
Wherein, electric energy is used to switch the magnetic direction of stator component generation so that and magnetic direction constantly generates variation, and then
Constantly driving suspension monopole rotor running, meanwhile, rotor sensing component coordinates with suspension monopole rotor, turns in suspension monopole rotor
In dynamic process, electric principle is given birth to based on magnetic and generates corresponding induced electromotive force, and then generate the first sensing electric current, and stator senses
Component coordinates with one of which stator component, and when stator component is powered, stator sensing component generates the second sensing electric current,
The two is coupled and is amplified by processing module, and horizontal component converter handles couple current and by horizontal component
It is stored in the first energy storage component, and vertical component converter handles couple current and vertical component is stored in
In two energy storage components.
The connection between external power supply and stator driving module can be disconnected at this time, can pass through handover module of transmitting electricity herein
First input end or the second input terminal are connected with the first output terminal so that the first energy storage component or the second energy storage component are outer
Portion's consuming parts power supply, while handover module of transmitting electricity can also enable first input end or the second input terminal connect with second output terminal
Connect so that the first energy storage component either the second energy storage component connect with stator driving module at this time by the first energy storage component or
Second energy storage component is powered for magnetic suspension motor, supports the operation of magnetic suspension motor.
The design applies electromagnetic compensation charging principle, and the conversion of form of energy is realized to idle by magnetic suspension motor
Power efficiently uses, and so as to promote the utilization ratio of the energy, reduces the waste of electric energy, while allow hand over the first energy storage component
With the power supply state of the second energy storage component, one is used to power to external consuming parts, another that magnetic suspension motor is driven to run,
Ensure this system can continuous service whithin a period of time, realize the multiple utilization of the energy.
Description of the drawings
The specific embodiment of the present invention is described further below in conjunction with the accompanying drawings.
Fig. 1 is the schematic diagram of magnetic suspension superposition electric supply system of the present invention.
Fig. 2 is the circuit diagram of stator driving module.
Fig. 3 is the circuit diagram of vertical component converter.
Fig. 4 is the circuit diagram of rotor startup module.
Fig. 5 is the circuit diagram of processing module.
Specific embodiment
As Figure 1-Figure 5, magnetic suspension superposition electric supply system of the present invention, including the first energy storage component 1, the second energy storage
Component 2;
Magnetic suspension motor 3, magnetic suspension motor 3 include at least two groups of stator components and suspension monopole rotor 33, herein should
With magnetic suspension motor, the magnetic bearing of suspension monopole rotor 33 is using touchless connection mode, so that frictional force is significantly
Reduce, a small amount of electric energy can drive magnetic suspension motor to work, herein every group of stator component include two be sequentially connected in series determine
Subcoil, and be similarly disposed on motor pedestal with conventional motor;
Stator driving module 4 can be electrically connected with external power supply, and stator driving module 4 respectively with two groups of stators
Component is electrically connected, and stator driving module 4 switches the conducting state of two groups of stator components to switch what is generated in magnetic suspension motor
Magnetic direction, and then suspension monopole rotor 33 is driven to rotate;
Rotor senses component 52, for corresponding with suspension monopole rotor 33 and in 33 rotation process of suspension monopole rotor
Magnetic life the first sensing electric current, induction coil can be used in rotor sensing component 52 herein, when suspension monopole rotor 33 rotates, sense
Answer coil that can generate the first sensing electric current;
Stator senses component 51, and for sensing any one group of stator component, when any one group of stator component is connected, magnetic is given birth to
Induction coil similarly can be used in second sensing electric current, stator sensing component 51 herein, and only induction coil herein is used
The magnetic field generated when sensing one of which stator component 31 and being connected, and then generate the second sensing electric current;
Processing module 6 is electrically connected and with rotor sensing component 52, stator sensing component 51 by the first induced electricity respectively
Stream, the second sensing electric current are coupled into multiple harmonic electric current and are amplified, and processing module 6 can be coupler and connect phase herein
The signal amplifier answered senses electric current, every time two groups of stator component switched conductives so that magnetic field changes, generation based on first
Second sensing electric current is given to the energy drawn high in the first induced electricity flow direction, and fall after reaching high point, and low spot is reached after zero passage
After climb, herein in one cycle, the harmonic current of coupling is in the substantially positive peaked wave of first half cycle, and then the half period is big
It causes as negative peaked wave;
Horizontal component converter 71 is electrically connected respectively with processing module 6, the first energy storage component 1 with multiple harmonic is electric
The electric energy conversion of flow horizontal component is stored in the first energy storage component 1, and horizontal component converter 71 herein is by least one two
Pole pipe forms corresponding circuit structure, and the energy of horizontal component part by diode and can be stored in the first energy storage component
In 1, the first energy storage component 1 can be the storage battery of super capacitor or routine herein;
Vertical component converter 72 is electrically connected respectively with processing module 6, the second energy storage component 2 with multiple harmonic is electric
The electric energy conversion of stream vertical component is stored in the second energy storage component 2, and vertical component converter 72 is made of at least one capacitance
Corresponding circuit structure, the energy of vertical component part is by capacitive absorption energy storage, then is stored in the second energy storage component 2, this
Locate the storage battery that the second energy storage component 2 can be super capacitor or routine;
Transmission of electricity handover module 8, including the first input end being electrically connected with the first energy storage component 1 and the second energy storage component 2
Be electrically connected the second input terminal, with stator driving module 51 be electrically connected the first output terminal and with external consuming parts electricity
Property connection second output terminal, transmission of electricity handover module 8 allow hand over first input end and the first output terminal or with second export
The on off operating mode at end, while handover module 8 of transmitting electricity also is able to the second input terminal of switching and the first output terminal or is exported with second
The on off operating mode at end.
In magnetic suspension motor 3 herein, suspension monopole rotor 33 can be general circle, triangle, rectangular etc., grow
Degree is in 1000mm to 6000mm, and diameter is in 8mm to 800mm, and for the quantity of magnetism Gauss value of general monopole in 3000G to 8000G, material can
To be hard material, colloidal materials, semi-conducting material etc., and the magnetic of suspension monopole rotor is connected on suspension monopole rotor stent
Lantern ring is correspondingly circle, triangle, rectangular etc., and the Gauss value of stent magnetosheath ring bottom material is in 3000G to 8000G.
And the induction coil of rotor sensing component 52 can be made of polygonal molded line group, wherein can be 4 jiaos, 6 jiaos, 188
Even 232 jiaos of angle, and as shown in figure 5, rotor 52 center line group a portion of sensing component is for inductive impulse, another part use
Start in feedback, and the line group number of windings for being used for inductive impulse can be between 1 group to 64 groups.
The operation logic of the design is, using magnetic suspension motor, when external power supply first being accessed stator driving 4 one end of module
Between, and then magnetic suspension motor 3 is driven to operate, wherein, electric energy is used to switch the magnetic direction of stator component generation so that magnetic field side
Variation is generated, and then constantly suspension monopole rotor 33 is driven to operate to continuous, meanwhile, rotor sensing component 52 turns with suspension monopole
Son 33 coordinates, and during suspension monopole rotor 33 rotates, gives birth to electric principle based on magnetic and generates corresponding induced electromotive force, and then
The first sensing electric current is generated, and stator induction part part 51 coordinates with one of which stator component 31, when stator component is powered
It waits, stator sensing component 51 generates the second sensing electric current, and the two is coupled and amplified by processing module 6, and horizontal component turns
Parallel operation 71 handles couple current and horizontal component is stored in the first energy storage component 1, and vertical component converter
72 pairs of couple currents are handled and vertical component are stored in the second energy storage component 2, can disconnect at this time external power supply with
Connection between stator driving module 4, herein can by transmit electricity 8 first input end of handover module or the second input terminal with
First output terminal is connected so that the first energy storage component 1 or the second energy storage component 2 are powered for external consuming parts, are transmitted electricity simultaneously
Handover module 8 can also enable first input end or the second input terminal be connect with second output terminal so that the first energy storage component 1 or
The second energy storage component of person 2 is connect with stator driving module 4, is at this time magnetcisuspension by the first energy storage component 1 or the second energy storage component 2
Floating motor 3 is powered, and supports the operation of magnetic suspension motor 3, and the design applies electromagnetic compensation charging principle, passes through magnetic suspension motor
The conversion of 3 pairs of form of energy, which is realized, efficiently uses reactive power, so as to promote the utilization ratio of the energy, reduces the wave of electric energy
Take, while allow hand over the power supply state of the first energy storage component 1 and the second energy storage component 2, one is used for external consuming parts
Power supply, it is another that magnetic suspension motor 3 is driven to run, ensure this system can continuous service whithin a period of time, realize the more of the energy
Secondary utilization.
The design is applied to electromagnetic compensation charging principle, " line wave (belonging to electromagnetic wave class) " is utilized, with reference to different electromagnetism
Pulse is propagated at interface in the form of infinitesimal filament between two adjacent surfaces of characteristic, and electricity is effectively concentrated using this line wave
Magnetic energy realizes the conversion of energy by magnetic suspension motor 3 and reactive power is efficiently used, and is imitated so as to promote utilizing for the energy
Rate realizes the multiple utilization of the energy.
As shown in Fig. 2, the preferred embodiment of the stator driving module 4 of the design is, stator driving module 4 includes the first magnetic
Quick component 41, first switch component, second switch component, first switch component are used to drive 31 break-make of one stator component, the
For driving another 32 break-make of stator component, the first magnetosensitive component 41 is used to detect the logical of one stator component 31 two switch blocks
It is disconnected, when one stator component 31 is connected, turns off first switch component and second switch component is connected, in another stator
It when component 32 is connected, turns off second switch component and first switch component is connected, switch two groups of stator components to realize
Conducting state.
Further, on circuit structure, the first switch component includes triode Q1, the second switch component packet
Triode Q2 is included, further includes resistance R4 and capacitance C1;
One end of the first magnetosensitive component 41 respectively with external dc power/second output terminal, one stator component 31
One end, another stator component 32 one end be electrically connected;
The other end of the first magnetosensitive component 41 and the base stage of triode Q1 are electrically connected, one stator component 31 it is another
One end is electrically connected respectively with one end of the collector of triode Q1, one end of capacitance C1, resistance R4;
The other end of resistance R4 is electrically connected with the base stage of triode Q2;
The other end of another stator component 32 is electrically connected respectively with the collector of the other end of capacitance C2, triode Q2;
Triode Q1 emitters and the emitter of triode Q2 are grounded.
Its operation principles is that the first magnetosensitive component 41 can be Hall sensor, is powered for magnetic suspension motor 3, initial shape
Under state, Hall sensor detects that the magnetic field on one stator component 31 is not above the threshold value of Hall sensor, hall sensing
Device is connected, and triode Q1 conductings, one stator component 31 is connected, and one stator component 31 generates corresponding magnetic field at this time so that
Suspension monopole rotor 33 rotates, while Hall sensor detects that magnetic field is more than threshold value, is turned off, triode Q1 shutdowns,
One stator component 31 must not be electric, and remaining residual voltage is enough triode Q2 is connected at this time, so as to which another stator component 32 is connected, cuts
The direction in magnetic field is changed, suspension monopole rotor 33, which fills, to be rotated further, and Hall sensor detects one stator component 31 at this time
The magnetic field of generation is less than threshold value, and Hall sensor conducting continues above-mentioned cycle, so as to fulfill continuous switching field side later
To so that 33 continued operation of suspension monopole rotor.
The design handover module 8 of transmitting electricity may include voltage detection module and relay switch, voltage detection module detection the
The electricity of one energy storage component 1 and the second energy storage component 2, and then control relay switch switching first input end, the second input terminal, the
Conducting state between one output terminal, second output terminal, and in the preferred embodiment of the design, it is fixed that transmission of electricity handover module 8 includes
When controller 81 and relay switch 82, relay switch 82 respectively with first input end, the second input terminal, the first output terminal,
Two output terminals connect, and timing controller 81 is electrically connected with relay switch 82 with first input of the switching of timing controlled relay switch 82
End with the first output terminal either with the on off operating mode of second output terminal and switching the second input terminal and the first output terminal or with
The on off operating mode of second output terminal.
And in vertical component converter 72, as shown in figure 3, vertical component converter 72 includes super capacitor group 721, ratio
Compared with device 722, base modules 723, switch module 724;
The electrode input end of processing module 6 respectively with one end of super capacitor group 721, the second energy storage component 2 anode, ratio
One input end compared with device 722 is electrically connected, and comparator 722 detects the electric current that backflows of the second energy storage component 2;
Base modules 724 and another input terminal of comparator 722 are electrically connected to provide reference signal for comparator 722,
The output terminal of comparator 722 is electrically connected with the control terminal of switch module 724, and comparator 722 is believed according to the electric current that backflows with benchmark
Number fiducial value control 724 break-make of switch module;
The negative input of processing module 6 respectively with the other end of super capacitor group 721, the input terminal of switch module 724
It is electrically connected;
The cathode of the output terminal of switch module 724 and the second energy storage component 2 is electrically connected to keep in super capacitor group 721
Electric energy be stored into the second energy storage component 2.
The metal-oxide-semiconductor Q3 of switch module 724 including N-channel type, the metal-oxide-semiconductor Q4 of P-channel type, explanations are omitted here resistance, capacitance,
The elements such as diode, referring in particular to Fig. 3;
The electrode input end of processing module 6 is electrically connected with the drain electrode of metal-oxide-semiconductor Q3;
The output terminal of comparator 722 and the grid of metal-oxide-semiconductor Q3 are electrically connected, and comparator 722 is according to the size of the electric current that backflows
Control metal-oxide-semiconductor Q3 break-makes;
The negative input of processing module 6 is electrically connected with the source electrode of metal-oxide-semiconductor Q4;
The grid of metal-oxide-semiconductor Q4 is electrically connected with the source electrode of metal-oxide-semiconductor Q3;
Metal-oxide-semiconductor Q4 drain electrode with the cathode of the second energy storage component 2 electric connection with when metal-oxide-semiconductor Q4 is connected by super capacitor
The temporary electric energy of group 721 is stored into the second energy-storage module 2.
The design vertical component converter 72 is that the vertical component of the harmonic current of coupling first is stored in super capacitor group
In 721, while under original state, comparator 722 compares the current signal and comparison signal of input, exports corresponding signal control
Metal-oxide-semiconductor Q3 conductings processed, so as to metal-oxide-semiconductor Q3 triggering metal-oxide-semiconductor Q4 conductings, the electronics that super capacitor group 721 stores can pass through metal-oxide-semiconductor Q4
Into the cathode of the second energy storage component 2, so as to fulfill electric energy energy storage, since the second energy storage component 2 is during energy storage, anode
The electric current that backflows can be sent out, the speed that 2 cathode of the second energy storage component enters electronics energy is faster, and the electric current that backflows is bigger, electric current mistake of backflowing
Greatly, the speed of energy storage can be influenced instead, therefore the electric current that backflows herein is added in the electric current of initial input, comparator 722 detects
Electric current after superposition, when the electric current that backflows is excessive, comparator 722 controls metal-oxide-semiconductor Q3 shutdowns, and then metal-oxide-semiconductor Q4 is turned off, and herein, leads to
The size for detecting the electric current that backflows is crossed, by switching the storage to be turned on and off between 721 and second energy storage component 2 of super capacitor group
It can operate so that the rate of energy storage greatly improves.
The design suspension monopole rotor 33 remains static when starting, and the mode that human hand is stirred can be used and to suspend
Monopole rotor 33 rotates, and then coordinates stator driving module 4 that one stator component 31 and the switching of another stator component 32 is driven to lead
It is logical, and then operate, as shown in figure 3, the preferred embodiment as the design, further includes that suspension monopole rotor 33 is driven to open certainly
Rotor startup module 12, the rotor startup module 12 include triode Q5, resistance R17, timing module 121, with suspend it is single
33 corresponding driving coil 122 of pole rotor, the second magnetosensitive component 123, metal-oxide-semiconductor Q6, driving coil 122 are used to drive suspension monopole
Rotor 33 rotates;
The collector of triode Q5, one end of resistance R17 and external power supply are electrically connected, the base stage of triode Q5 respectively with
The other end electric connection of timing module 121, resistance R17, timing module 121 is for periodically shutdown triode Q5;
The one end of the emitter of triode Q5 respectively with the input terminal of the second magnetosensitive component 123, driving coil 122 electrically connects
It connects;
The output terminal of second magnetosensitive component 123 is electrically connected with the grid of metal-oxide-semiconductor Q6, and the second magnetosensitive component 123 is used to examine
The position of suspension monopole rotor 33 is surveyed to control metal-oxide-semiconductor Q6 break-makes;
The other end of driving coil 122 is electrically connected with the drain electrode of metal-oxide-semiconductor Q6;
The source electrode ground connection of metal-oxide-semiconductor Q6.
Timing module 121 herein can be storage capacitor C11 simultaneously, one end of storage capacitor C11 respectively with resistance
The base stage electric connection of R17, triode Q5, the other end of storage capacitor C11 are electrically connected with the emitter of triode Q5.
The operation logic of rotor startup module 12 is herein, to storage capacitor C11 input pulse signals, storage capacitor C11
Energy storage simultaneously controls triode Q5 to be connected, and the second magnetosensitive component 123 is connected at this time so that and metal-oxide-semiconductor Q6 is connected, driving coil 122
Electricity forms corresponding magnetic field, and suspension monopole rotor 33 gradually rotates, and is rotated in a pole of suspension monopole rotor 33 close to the second magnetic
During quick component 123, the second magnetosensitive component 123 senses and turns off so that metal-oxide-semiconductor Q6 is turned off, in a pole of suspension monopole rotor 33
After leaving, the second magnetosensitive component 123 restores conducting, and driving coil 122 regenerates magnetic field, so that suspension monopole rotor 33
Start, final storage capacitor C11 loses electric energy, and rotor startup module 12 is closed.
Meanwhile the design further includes the inverter 9 being electrically connected with the first output terminal, which can use with outside
Electrical components are electrically connected to export the DC conversion that the first energy storage component 1 or the second energy storage component 2 provide into alternating current.
The design further includes the leakage switch 100 that can be turned off under overcurrent or short circuit, which distinguishes
It is connect with inverter 9, external consuming parts, leakage switch 100 can be the elements such as fuse herein.
And when the first energy storage component 1 or the second energy storage component 2 discharge, it generally also needs to add discharge circuit, based on phase
Position equilibrium condition, ψ A+ ψ F=2n π (n=0,1,2,3 ...) wherein A are gain amplifier, and F is feedback factor, and discharge circuit is by N
Group amplifying circuit composition, the pulse of the N number of Open loop gain cofficient of the design can be used for system, and open loop is amplified to 6400 groups of amplifications
Open loop, which increases, clock for system.
The design further includes voltage changing module 110, and voltage changing module 110 is electrical with the first output terminal, stator driving module 4 respectively
It connects to operate the voltage modulated that the first energy storage component 1 or the second energy storage component 2 export into suitable driving magnetic suspension motor 3
Operating voltage, herein voltage changing module 110 can have regulating circuit plate composition, the working voltage of the design magnetic suspension motor 3 is
12V DC electricity, therefore, is converted into voltage 12V voltages by voltage changing module 110 herein.
The foregoing is merely the present invention preferred embodiments, the present invention is not limited to the above embodiment, if with
Essentially identical means realize that the technical solution of the object of the invention is belonged within protection scope of the present invention.
Claims (10)
1. the micro- source electricity generation system of magnetic energy quantum superposition vector, which is characterized in that including:
At least the first energy storage component and the second energy storage component;
Magnetic suspension motor, magnetic suspension motor include at least two groups of stator components and suspension monopole rotor;Stator driving module, energy
Enough and external power supply is electrically connected, and stator driving module is electrically connected respectively with two groups of stator components, stator driving module
Switch the conducting state of two groups of stator components to switch the magnetic direction generated in magnetic suspension motor, and then suspension monopole is driven to turn
Son rotation;Rotor senses component, for corresponding with suspension monopole rotor and magnetic gives birth to the in suspension monopole rotor rotation process
One sensing electric current;
Stator senses component, for sensing any one group of stator component, the second sense of magnetic life when any one group of stator component is connected
Induced current;
Processing module is electrically connected with rotor sensing component, stator sensing component and senses electric current, the second sense by first respectively
Induced current is coupled into multiple harmonic electric current and amplifies;
Horizontal component converter is electrically connected to divide multiple harmonic levels of current with processing module, the first energy storage component respectively
The electric energy conversion of amount is stored in the first energy storage component;
Vertical component converter is electrically connected to divide multiple harmonic electric current is vertical with processing module, the second energy storage component respectively
The electric energy conversion of amount is stored in the second energy storage component;
Transmit electricity handover module, including be electrically connected with the first energy storage component first input end, electrically connect with the second energy storage component
It the second input terminal for connecing, the first output terminal for being electrically connected with stator driving module and is electrically connected with external consuming parts
Second output terminal, transmission of electricity handover module allow hand over first input end and the first output terminal or the break-make shape with second output terminal
State, while handover module of transmitting electricity also is able to the second input terminal of switching and the first output terminal or the break-make shape with second output terminal
State.
2. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 1, it is characterised in that:The transmission of electricity switching
Module includes timing controller and relay switch, and relay switch exports respectively with first input end, the second input terminal, first
End, second output terminal connection, timing controller are electrically connected with relay switch with the first input of timing controlled relay switch switching
End with the first output terminal either with the on off operating mode of second output terminal and switching the second input terminal and the first output terminal or with
The on off operating mode of second output terminal.
3. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 1, it is characterised in that:The vertical component
Converter includes super capacitor group, comparator, base modules, switch module;
The electrode input end of processing module respectively with one end of super capacitor group, the anode of the second energy storage component, comparator its
One input terminal is electrically connected, and comparator detects the electric current that backflows of the second energy storage component;
Another input terminal of base modules and comparator is electrically connected to provide reference signal, the output terminal of comparator for comparator
It is electrically connected with the control terminal of switch module, comparator controls switch module to lead to according to the fiducial value of backflow electric current and reference signal
It is disconnected;
The negative input of processing module is electrically connected respectively with the input terminal of the other end of super capacitor group, switch module;
The cathode of the output terminal of switch module and the second energy storage component is electrically connected to be stored with the electric energy for keeping in super capacitor group
Into the second energy storage component.
4. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 1, it is characterised in that:The stator driving
Module includes the first magnetosensitive component, first switch component, second switch component, and first switch component is used to drive one stator department
Part break-make, for driving another stator component break-make, the first magnetosensitive component is used to detect one stator component second switch component
Break-make, when one stator component is connected, make first switch component turn off and make second switch component be connected, another fixed
It when subassembly is connected, turns off second switch component and first switch component is connected, switch two groups of stator components to realize
Conducting state.
5. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 4, it is characterised in that:The first switch
Component includes triode Q1, and the second switch component includes triode Q2, further includes resistance R4 and capacitance C1;
One end of the first magnetosensitive component respectively with external dc power/second output terminal, one end, another of one stator component
One end of one stator component is electrically connected;
The other end of the first magnetosensitive component is electrically connected with the base stage of triode Q1, the other end difference of one stator component
One end of collector, capacitance C1 with triode Q1, one end of resistance R4 are electrically connected;
The other end of resistance R4 is electrically connected with the base stage of triode Q2;
The other end of another stator component is electrically connected respectively with the collector of the other end of capacitance C2, triode Q2;
Triode Q1 emitters and the emitter of triode Q2 are grounded.
6. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 1, it is characterised in that:It further includes and first
The inverter that output terminal is electrically connected, the inverter can be electrically connected with external consuming parts with by the first energy storage component or
The DC conversion that second energy storage component provides is exported into alternating current.
7. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 6, it is characterised in that:Having further included can
The leakage switch turned off under overcurrent or short circuit, the leakage switch are connect respectively with inverter, external consuming parts.
8. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 1, it is characterised in that:Further include change pressing mold
Block, the voltage changing module are electrically connected with the first output terminal, stator driving module with by the first energy storage component or second respectively
The operating voltage that the voltage modulated of energy storage component output is operated into suitable driving magnetic suspension motor.
9. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 1, it is characterised in that:It further includes to drive
Dynamic suspension monopole rotor includes triode Q5, resistance R17, timing mould from the rotor startup module opened, the rotor startup module
Block, driving coil corresponding with suspension monopole rotor, the second magnetosensitive component, metal-oxide-semiconductor Q6, driving coil are used to drive suspension monopole
Rotor rotates;
The collector of triode Q5, one end of resistance R17 and external power supply are electrically connected, the base stage of triode Q5 respectively with timing
The other end electric connection of module, resistance R17, timing module is for periodically shutdown triode Q5;
The emitter of triode Q5 is electrically connected respectively with one end of the input terminal of the second magnetosensitive component, driving coil;
The output terminal of second magnetosensitive component is electrically connected with the grid of metal-oxide-semiconductor Q6, and the second magnetosensitive component is used to detect suspension monopole
The position of rotor is to control metal-oxide-semiconductor Q6 break-makes;
The other end of driving coil is electrically connected with the drain electrode of metal-oxide-semiconductor Q6;
The source electrode ground connection of metal-oxide-semiconductor Q6.
10. the micro- source electricity generation system of magnetic energy quantum superposition vector according to claim 9, it is characterised in that:The timing mould
Block includes storage capacitor C11, and one end of storage capacitor C11 is electrically connected respectively with the base stage of resistance R17, triode Q5, energy storage
The other end of capacitance C11 is electrically connected with the emitter of triode Q5.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810129757.9A CN108233653A (en) | 2018-02-08 | 2018-02-08 | The micro- source electricity generation system of magnetic energy quantum superposition vector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810129757.9A CN108233653A (en) | 2018-02-08 | 2018-02-08 | The micro- source electricity generation system of magnetic energy quantum superposition vector |
Publications (1)
Publication Number | Publication Date |
---|---|
CN108233653A true CN108233653A (en) | 2018-06-29 |
Family
ID=62670806
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201810129757.9A Pending CN108233653A (en) | 2018-02-08 | 2018-02-08 | The micro- source electricity generation system of magnetic energy quantum superposition vector |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN108233653A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109030618A (en) * | 2018-07-11 | 2018-12-18 | 深圳市中昌探伤器材有限公司 | A kind of inversion electromagnetic field intelligent constant magnetic chip and permanent magnetic flaw detector |
CN109067144A (en) * | 2018-08-31 | 2018-12-21 | 广东之业叠加合创量子科技有限公司 | Photovoltaic distribution, which is released, can amplify electricity generation system |
CN113285574A (en) * | 2021-05-19 | 2021-08-20 | 陕西索飞电子科技有限公司 | Electric switching mechanism of microwave polarization converter |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102005985A (en) * | 2010-11-22 | 2011-04-06 | 李贵祥 | Single-stage structure induction type magnetic generator |
CN202841019U (en) * | 2012-05-23 | 2013-03-27 | 王世英 | Electromagnetic motion energy generating device |
CN105576871A (en) * | 2016-03-07 | 2016-05-11 | 高彰 | Energy-saving motor |
-
2018
- 2018-02-08 CN CN201810129757.9A patent/CN108233653A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102005985A (en) * | 2010-11-22 | 2011-04-06 | 李贵祥 | Single-stage structure induction type magnetic generator |
CN202841019U (en) * | 2012-05-23 | 2013-03-27 | 王世英 | Electromagnetic motion energy generating device |
CN105576871A (en) * | 2016-03-07 | 2016-05-11 | 高彰 | Energy-saving motor |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109030618A (en) * | 2018-07-11 | 2018-12-18 | 深圳市中昌探伤器材有限公司 | A kind of inversion electromagnetic field intelligent constant magnetic chip and permanent magnetic flaw detector |
CN109030618B (en) * | 2018-07-11 | 2024-03-08 | 深圳市中昌探伤器材有限公司 | Intelligent constant magnetic chip of inversion electromagnetic field and constant magnetic flaw detector |
CN109067144A (en) * | 2018-08-31 | 2018-12-21 | 广东之业叠加合创量子科技有限公司 | Photovoltaic distribution, which is released, can amplify electricity generation system |
CN113285574A (en) * | 2021-05-19 | 2021-08-20 | 陕西索飞电子科技有限公司 | Electric switching mechanism of microwave polarization converter |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108233653A (en) | The micro- source electricity generation system of magnetic energy quantum superposition vector | |
CN112054665A (en) | Converter | |
US9647594B2 (en) | Flyback control mode-based controller and motor-controlling method thereof | |
CN101951248A (en) | Electronic switch | |
CN108155699A (en) | Adaptive switched power supply | |
CN1980049A (en) | Power circuit control system of magnetic floation switch magnetic-resistance motor suspensition winding | |
CA2724167A1 (en) | Electromagnetic motor and equipment to generate work torque | |
CN207834198U (en) | A kind of magnetic latching relay driving device and a kind of magnetic latching relay | |
CN209313695U (en) | Photovoltaic distribution, which is released, can amplify electricity generation system | |
CN102611269B (en) | Switched reluctance motor powered by new energy | |
CN108155777A (en) | Magnetic suspension is superimposed power supply | |
CN207705835U (en) | A kind of low power consumpting controling circuit for high-voltage battery system | |
CN208690947U (en) | Adaptive switched power supply | |
CN207368912U (en) | Motor brake circuit and steering engine | |
CN207896851U (en) | Magnetic suspension is superimposed power supply | |
CN112803848B (en) | Semi-self-excitation power converter of switched reluctance wind driven generator | |
CN109167551A (en) | A kind of H bridge automotive motor controller of integrated charge function | |
CN109067144A (en) | Photovoltaic distribution, which is released, can amplify electricity generation system | |
CN114204667A (en) | Low-voltage power supply device and converter | |
CN202513797U (en) | Switched reluctance motor powered by new energy | |
CN111082694B (en) | Pulse circuit, pulse power supply and electromagnetic transmitting device | |
CN106655965A (en) | Switch magnetic resistance motor hardware control device | |
CN2672816Y (en) | Field regulating type magnetizing machine | |
CN207068748U (en) | A kind of drive circuit for reducing power consumption of electromagnetic relay | |
CN201222459Y (en) | Motor-controlled intelligent permanent magnet contactor for industry |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
CB03 | Change of inventor or designer information |
Inventor after: Hu Jiahua Inventor after: Xu Wenji Inventor before: Hu Jiahua Inventor before: Xu Wenji Inventor before: Luo Hongming |
|
CB03 | Change of inventor or designer information | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20180629 |
|
RJ01 | Rejection of invention patent application after publication |