CN101895142B - Based on the charging circuit that electromotor is energy storage component charging - Google Patents
Based on the charging circuit that electromotor is energy storage component charging Download PDFInfo
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- CN101895142B CN101895142B CN201010205595.6A CN201010205595A CN101895142B CN 101895142 B CN101895142 B CN 101895142B CN 201010205595 A CN201010205595 A CN 201010205595A CN 101895142 B CN101895142 B CN 101895142B
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Abstract
A kind of based on the charging circuit that electromotor is energy storage component charging, including being the electromotor of electric energy by changes mechanical energy, its rotor is connected by drive system with mechanical part, rectification circuit, filter circuit, charging manager, energy storage component;Generator unit stator has at least double winding, often set winding forms a DC source after filtering respectively through rectifier circuit rectifies and filter circuit, DC source charges for energy storage component after charging manager processes, two DC sources at least form series loop and shunt circuit by on-off circuit, series and parallel loop connects charging manager, charging manager detection single set winding generating terminal voltage less than energy storage component nominal charging voltage value/Or DC terminal voltage is less than the nominal charging voltage of energy storage component, many set windings in series liters press to active voltage, and the electricity sent is in parallel when being in the range of active voltage, and active voltage expanded range improves the utilization rate of electromotor.
Description
Technical field
The present invention relates to the charging control circuit of energy storage component, more precisely a kind of is storage based on electromotor
The charging circuit of energy parts charging.
Background technology
Electromotor has various being widely applied.Small generator is generally used for automobile generating system, portable
Type machine and emergency system etc..Similarly, high-rating generator can be that main equipment, structure and residential area carry
For electric power.Owing to there being all being widely applied and demand, so to the development of electromotor still among continuing,
More and higher-quality electric power to be provided for more occasion.
The patent of invention of Application No. 95195622.1 discloses magneto and claw-pole type alternating current generator,
The voltage of magneto can change along with the change of spinner velocity, or becomes with the change of load characteristic
Changing, and the voltage of magneto can be with the contrary change of electric current, the load that this change is traditional is not
Receptible, the demand that its voltage and current sent will be made to meet these conventional load is highly difficult, or
Cost needed for person is the highest.Claw-pole type alternating current generator due to the characteristic of self, its rotating excitation field to be modulated
All of winding will be affected.Therefore, it is difficult to realize the regulation of voltage and the control to each winding.Therefore
For generator configuration, one can optionally be activated winding out of the ordinary to realize the controller of required output.All around
Group can couple to provide bigger electric current under relatively low voltage in the way of completely in parallel, or
It is connected in series to provide higher voltage.Both can meet the load demand to voltage, and be also convenient for regulating winding.
A kind of control system for electromotor, described electromotor has multiple winding that can produce electric power and a use
Come: connecting the load to all windings adapter with the described electric power of reception, described control system includes: multiple
Switch, each switch is all connected between one of them generator windings and coad connector, generator windings
The alternating current sent is through rectifier circuit rectifies, and described switch connects the Ei outfan at rectification circuit, therefore
Described switch can: by all windings connect and be free of attachment on coad connector;And one open described in multiple
Close the controller of the described switch that is connected, is used for driving selectively and not driving.
Foregoing invention mainly controls windings in series to the demand of voltage or electric current by controller according to load
Or in parallel, during series connection, voltage raises, and electric current is constant, and time in parallel, voltage is constant, and electric current increases, thus full
Foot loads different demands.But this load is usually electrical equipment, but for energy storage device and undisclosed be
No applicable, and it is not disclosed whether this control system can be used for the equipment such as household electrical appliances.
And for energy storage device as load in the case of, current charging manager can be treated to be energy storage component
The nominal charging voltage value that voltage range is energy storage component of charging/
The rated charge of energy storage component
Pressure value/
(for generating terminal voltage), (if DC terminal is then " the nominal charging voltage of energy storage component
Value~m*The nominal charging voltage value of energy storage component "), wide pressure scope is m times of (described charging voltage value
For for optimal constant voltage values during energy storage component constant-voltage charge, m is current wide pressure scope), not at this
The magnitude of voltage in section region cannot process.Wasting ample resources, electromotor is the utilization rate of energy storage component charging
Relatively low.
Summary of the invention
It is filling of energy storage component charging based on electromotor that the technical problem to be solved is to provide a kind of
Electricity circuit, when the voltage nominal charging voltage less than energy storage component electromotor list set winding generating end being detected
Value/
Or the voltage of single set direct current end less than the nominal charging voltage value of energy storage component time, control many sets
Windings in series is boosted, in the range of the output voltage after boosting is in active voltage, when single set winding generating end is sent out
Go out be in " the nominal charging voltage value of energy storage component/
The nominal charging voltage value of energy storage component
/
" or DC terminal voltage be in " the nominal charging voltage value of energy storage component~m*The specified charging of energy storage component
Magnitude of voltage " time, controlling to overlap winding parallel more, voltage is constant, therefore the too small disabled dead voltage of script
Become active voltage, take full advantage of power generation energy resource, improve the utilization rate of electromotor.
In order to solve the problems referred to above, the present invention takes techniques below scheme:
A kind of based on the charging circuit that electromotor is energy storage component charging, including: it is electric energy by changes mechanical energy
Electromotor, on-off circuit, rectification circuit, filter circuit, charging manager, energy storage component;Described
Rotor and mechanical part are connected realization by drive system and rotate, generator unit stator have at least two sets around
Group, often set winding forms a DC source, institute after filtering respectively through rectifier circuit rectifies and filter circuit
State at least two DC source and form series loop by switching circuit in series, simultaneously in parallel by on-off circuit
Forming shunt circuit, described DC source flows to charging manager, charged pipe after connection in series-parallel processes
Reason device is processed as energy storage component charging, and charging manager is connected with described series and parallel loop respectively, described
Charging manager detection single set winding generating terminal voltage value or DC terminal voltage value, and according to the voltage detected
Value controls disconnection and the conducting of on-off circuit, makes circuit switch between connection in series-parallel loop.
Preferably, described charging manager overlaps magnitude of voltage and the energy storage part of winding generating end according to the list detected
The nominal charging voltage value of part/
Compare, or list overlaps the DC terminal voltage value of winding and the specified of energy storage component
Charging voltage value compares, and controls described on-off circuit according to comparative result and switches to serial or parallel connection.
Preferably, described charging manager detects that the magnitude of voltage of single set winding generating end is more than or equal to energy storage part
The nominal charging voltage value of part/
Or detect that single set direct current terminal voltage value is more than or equal to energy storage component
Nominal charging voltage value time, charging manager control described on-off circuit switch to parallel connection;Described charging valve
Reason device detect the magnitude of voltage nominal charging voltage value less than energy storage component of single set winding generating end/
Or
When single set direct current terminal voltage value is less than the nominal charging voltage value of energy storage component, charging manager controls institute
State on-off circuit and switch to series connection.
Preferably, described charging manager is more than or equal to according to the magnitude of voltage of the list set winding generating end detected
The nominal charging voltage value of energy storage component/
And stop a time period in this value or single set winding detected
DC terminal voltage value more than or equal to the nominal charging voltage value of energy storage component and stops a time period in this value
Time, charging manager controls described on-off circuit and switches to parallel connection;Described charging manager is according to detecting
The magnitude of voltage of single set winding generating end less than energy storage component nominal charging voltage value/
And stop in this value
One time period or single set direct current terminal voltage value are less than the nominal charging voltage value of energy storage component and at this
When value stops a time period, charging manager controls described on-off circuit and switches to series connection.
Preferably, described charging manager detects that the magnitude of voltage of single set winding generating end is more than or equal to energy storage part
The nominal charging voltage value of part/
For: described charging manager detects the magnitude of voltage of single set winding generating end
More than or equal to energy storage component nominal charging voltage value/
And less than or equal to m*The specified charging of energy storage component
Magnitude of voltage/
Described charging manager detects that single set direct current terminal voltage value is more than or equal to the specified of energy storage component
Charging voltage value is: described charging manager detects that single set direct current terminal voltage value is more than or equal to energy storage part
The nominal charging voltage value of part and less than or equal to m*The nominal charging voltage value of energy storage component;
Described charging manager detects that the magnitude of voltage of single set winding generating end is less than described charging voltage value
/
For: described charging manager is less than described energy storage according to the magnitude of voltage of the list set winding generating end detected
The nominal charging voltage value of parts/
And more than or equal to energy storage component nominal charging voltage value/
Wherein n is the tricks of winding, and the value of n is the integer more than or equal to 2;
Described charging manager detects the specified charging less than energy storage component of single set direct current terminal voltage value
Magnitude of voltage is: described charging manager detects that single set direct current terminal voltage value is less than described energy storage component
Nominal charging voltage value and the nominal charging voltage value/n more than or equal to energy storage component, wherein n is the set of winding
Number, the value of n is the integer more than or equal to 2.
Preferably, described charging manager includes a list set winding generating end detected when charging manager
Magnitude of voltage more than m*The nominal charging voltage value of energy storage component/
Or single set direct current end electricity detected
Pressure value is more than m*Carrying out the unloading control device of off-load during the nominal charging voltage value of energy storage component, described unloads
Lotus is carried out by off-load device.
Preferably, described on-off circuit include at least one switches set, each switches set include three high-power
Gate-controlled switch, the most at least double winding series loop on connect a gate-controlled switch, often at least two set
Connect a gate-controlled switch, the most at least parallel connection of double winding between the positive output end of the shunt circuit of winding to return
Connecting a gate-controlled switch between negative output terminal in road, the controlled end of all gate-controlled switches connects described charging
Manager.
Preferably, the detection of described voltage is realized by voltage detecting circuit, and voltage detecting circuit is by one
Main resistor and a sampling resistor and the circuit of electric capacity composition being in parallel with two resistance, described sampling electricity
The master chip that the voltage signal of resistance is transferred in described charging manager calculates, the end of described sampling resistor
Voltage is less than the running voltage of the master chip of described charging manager.
Preferably, described powerful gate-controlled switch is bipolar insulating gate type field effect tube, field effect transistor, controlled
Silicon or IGCT.
Preferably, described electromotor is biphase or three-phase permanent magnet electricity generator, and described energy storage component is accumulator.
The invention have the benefit that when detecting that the voltage of electromotor list set winding generating end is less than energy storage part
The nominal charging voltage value of part/
Or the voltage of list set direct current end is less than the specified charging of energy storage component
During magnitude of voltage, control many set windings in series boostings, in the range of the output voltage after boosting is in active voltage,
When single set winding generating end send be in " the nominal charging voltage value of energy storage component/
Energy storage component
Nominal charging voltage value/
" or DC terminal voltage be in " the nominal charging voltage value of energy storage component~m*Storage
The nominal charging voltage value of energy parts " time, controlling to overlap winding parallel more, voltage is constant, therefore the most too small
Disabled dead voltage becomes active voltage, takes full advantage of power generation energy resource, improves the profit of electromotor
By rate.
Accompanying drawing explanation
Fig. 1 is the first box figure of first embodiment of the invention;
Fig. 2 is second block diagram of first embodiment of the invention;
Fig. 3 is the circuit diagram during winding generating of two sets, three-phase phase symmetry;
Fig. 4 is the circuit diagram of voltage detecting circuit;
The circuit diagram when winding that Fig. 5 is two sets, biphase phase place is symmetrical generates electricity;
Fig. 6 is the voltage regime schematic diagram of switching circuit.
Detailed description of the invention
Understandable for enabling the above-mentioned purpose of the present invention, feature and advantage to become apparent from, below in conjunction with the accompanying drawings and
The present invention is further detailed explanation for detailed description of the invention.
Such as Fig. 1 and Fig. 2, a kind of is the charging circuit that energy storage component charges based on electromotor, including: by machinery
The electromotor of electric energy, rectification circuit, filter circuit, charging manager, energy storage component can be converted into;
Described generator amature is connected realization with mechanical part by drive system and rotates, electricity generation system, as strong
The mechanical energy that body, wind-force etc. produce is defeated by generator amature, and produces induction electromotive force on the winding of stator
Output, output AC electricity, the alternating current of winding output is unidirectional current, the most filtered through rectifier circuit rectifies
Circuit filters and exports to charging manager, through charging manager to above-mentioned direct current, filtered supply voltage
Process, charge for energy storage component after being processed into the nominal input voltage meeting energy storage component.
Generator unit stator has at least double winding, as the first set winding in figure, second set winding ....
N-th set winding, often set winding forms a direct current after filtering respectively through rectifier circuit rectifies and filter circuit
Power supply, described DC source after charging manager processes for energy storage component charging, first DC source,
Second DC source ... the n-th DC source forms series loop by switching circuit in series, passes through simultaneously
On-off circuit parallel connection forms shunt circuit, and charging manager is connected with described series and parallel loop respectively, institute
State charging manager and control disconnection and the conducting of on-off circuit according to the magnitude of voltage of the generating end detected, make electricity
Road switches between connection in series-parallel loop, and in Fig. 1, Fig. 2,1 branch road is that many set windings are by on-off circuit connection in series-parallel
The power supply road powered for charging manager afterwards, in Fig. 1,2 branch roads are the electricity of charging manager detection generating terminal voltage
Pressure detection branch, in Fig. 2,2 ' branch roads are the voltage detecting branch road of charging manager detection DC terminal voltage value,
In Fig. 1, Fig. 2,3 branch roads are the controlling brancher that charging manager controls on-off circuit switching.
Described on-off circuit includes that at least one switches set, each switches set include that three powerful controlled are opened
Close, high power switch can bear the big electric current that electromotor sends, the most at least double winding series loop on
Connect connection one between a gate-controlled switch, the most at least positive output end of the shunt circuit of double winding controlled
Switch, the most at least connects a gate-controlled switch between the negative output terminal in the shunt circuit of double winding, all
The controlled end of gate-controlled switch connects described charging manager.
As a example by the winding that two sets, three-phase phase are symmetrical, the present invention is described below.
Such as Fig. 3, the first winding RZ1 connects the first bridge rectifier being made up of diode D1-D6, and first
The outfan of bridge rectifier connects the first inductance L1, the second winding RZ2 and connects by diode D10-D15
Second bridge rectifier of composition, the outfan of the second bridge rectifier connects the second inductance L2, described
On-off circuit includes three powerful gate-controlled switches, respectively switchs N1, switch N2 and switch N3, opens
The power pin closing N1 connects negative output terminal and the positive output end of the second winding RZ2, the institute of the first winding RZ1
State the first bridge rectifier the first electric capacity E1, the first electric capacity E1 in parallel and be connected to the most defeated of the first winding RZ1
Go out between the power pin of end and switch N1, described second bridge rectifier the second electric capacity E2 in parallel, the
Two electric capacity E2 are connected between the negative output terminal of the second winding RZ2 and the power pin of switch N1, switch N2
Connect positive output end and the positive output end of the second winding RZ2 of the first winding RZ1, switch N3 connect first around
The negative output terminal of group RZ1 and the negative output terminal of the second winding RZ, the positive output end and second of the first winding RZ1
The negative output terminal of winding RZ2 connects described charging manager U1, charging manager U1 and connects the storages such as accumulator
Can parts.Above-mentioned inductance and electric capacity are all filter actions.
Described powerful gate-controlled switch can be bipolar insulating gate type field effect tube, field effect transistor, controllable silicon
Or IGCT or other high-power switching transistors.
Such as Fig. 4, the detection of described voltage is realized by voltage detecting circuit, and voltage detecting circuit is by one
A main resistor R1 and electric capacity C1 in parallel with main resistor R1 for sampling resistor R2, in parallel with sampling resistor R2
Electric capacity C2 composition circuit, the voltage signal of described sampling resistor R2 is transferred to described charging manager U1
In master chip calculate, charging manager U1 is judged by the magnitude of voltage of sampling resistor R2 detected
The magnitude of voltage of generating end, thus carry out above-mentioned corresponding switching control.Due to sampling resistor herein voltage simultaneously
Also serving as the supply voltage of master chip in charging manager U1, therefore the terminal voltage of sampling resistor R2 does not surpasses
Cross the running voltage of the master chip of described charging manager U1, otherwise can damage the master in charging manager U1
Chip.The input of this voltage detecting circuit may be provided in the generating end often overlapping winding, it is possible to is located at and often overlaps winding
Filtered electrical terminal.
Described charging manager overlaps the magnitude of voltage of winding generating end and the volume of energy storage component according to the list detected
Determine charging voltage value/
Compare or single specified charging overlapping direct current terminal voltage value and energy storage component
Magnitude of voltage compares:
Detect list set winding generating end magnitude of voltage less than energy storage component nominal charging voltage value/
Time, charging manager controls described on-off circuit and switches to series connection;
Particularly as follows: described charging manager detects that the magnitude of voltage of single set winding generating end is more than or equal to described storage
The nominal charging voltage value of energy parts/
Less than described energy storage component nominal charging voltage value/
Time, charging manager controls switch N1 conducting, switchs N2, switch N3 cut-off, will first set winding RZ1
The power sources in series sent with the second set winding RZ2;
Or, described charging manager detects single set direct current terminal voltage value volume more than or equal to energy storage component
When determining the nominal charging voltage value that charging voltage value/n is less than described energy storage component, charging manager controls switch
N1 turns on, switch N2, switch N3 cut-off, will send by first set winding RZ1 and second set winding RZ2
Power sources in series.N is the tricks of winding, and the value of n is the integer more than or equal to 2, for above-mentioned double winding
Embodiment n be 2.
When described charging manager detects that the magnitude of voltage of single set winding generating end is more than or equal to energy storage component
Nominal charging voltage value/
Time, charging manager controls described on-off circuit and switches to parallel connection;
Particularly as follows: described charging manager is more than or equal to according to the magnitude of voltage of the list set winding generating end detected
The nominal charging voltage value of energy storage component/
And less than or equal to m*The nominal charging voltage value of energy storage component
/
Controlling switch N1 cut-off, switch N2, switch N3 conducting, circuit switches to parallel connection;
Or, described charging manager detects single set direct current terminal voltage value volume more than or equal to energy storage component
Determine charging voltage value and less than or equal to m*During the nominal charging voltage value of energy storage component, control switch N1 cut-off,
Switch N2, switch N3 conducting, circuit switches to parallel connection;
The voltage of single set winding generating end " more than or equal to energy storage component nominal charging voltage value/
Little
In energy storage component nominal charging voltage value/
Time in the range of ", this kind of series system is all used to realize control
Effective input of device processed, " more than or equal to energy storage component nominal charging voltage value/
Less than or equal to m*Storage
The nominal charging voltage value of energy parts/
Parallel connection time in the range of ", voltage is constant;Or list overlaps the direct current of winding
Terminal voltage is " more than or equal to nominal charging voltage value/2 of energy storage component, less than the specified charging of energy storage component
Magnitude of voltage " in the range of time, all use this kind of series system to realize effective input of controller, " be more than or equal to
The nominal charging voltage value of energy storage component, less than or equal to m*The nominal charging voltage value of energy storage component " time in parallel
Voltage is constant.Therefore by after this circuit but pottery winding generating being positioned at of sending of end " the specified of energy storage component is filled
Piezoelectric voltage value/
The nominal charging voltage value of energy storage component/
" voltage in interval is all effective
Voltage, wide pressure scope improves 2 times than before, takes full advantage of power generation energy resource, improves the profit of electromotor
By rate.
Below with a specific embodiment explanation present invention, say using single set winding generating terminal voltage as example
Bright.Such as nominal charging voltage value 29.6VDC of energy storage component, charging manager itself has at 3 times of wide pressures
Reason scope, i.e. m=3, then the output voltage of corresponding single set winding generating end all has at 21VAC-63VAC
Effect voltage, can charge through charging manager treatment and supplied energy storage component.Voltage such as simplex winding output
Being 10.5VAC, if without this circuit, then this voltage is dead voltage, after foregoing circuit is connected,
Voltage is upgraded to original 2 times and becomes 21VAC, effectively;Voltage such as simplex winding output is 12VAC, if
Without this circuit, then this voltage is dead voltage, and after foregoing circuit is connected, voltage is upgraded to original
2 times become 24VAC, effectively;Voltage such as simplex winding output is 15VAC, if without this circuit,
Then this voltage is dead voltage, and after foregoing circuit is connected, voltage is upgraded to original 2 times and becomes 30VAC,
Effectively;Voltage such as simplex winding output is 20VAC, if without this circuit, then this voltage is invalid electricity
Pressure, after foregoing circuit is connected, voltage is upgraded to original 2 times and becomes 40VAC, effectively,
And the voltage of the 21VAC-63VAC sent for electromotor simplex winding is originally just in active voltage scope
In, it is not necessary to boosting, the most set winding parallels the most directly use the output voltage of simplex winding, as
When the voltage of simplex winding output is 22VAC, the most above-mentioned double winding parallel connection keeps magnitude of voltage constant,
In like manner, as simplex winding output voltage be 30VAC time, 40VAC time, during 50VAC, all allow during 60VAC
Above-mentioned double winding parallel connection keeps output to be exactly the set winding output of electromotor list to the magnitude of voltage of charging manager
Voltage.
Visible, the voltage of the 10.5VAC-63VAC that simplex winding generating end sends is all effective, makes active voltage model
Enclosing and become 10.5VAC-63VAC by original 21VAC-63VAC, wide pressure scope becomes 6 times, at 3 times
On the basis of improve again 2 times, script disabled 10.5VAC~the 21VAC section making generator windings send
Voltage be alternatively energy storage component charging, take full advantage of power generation energy resource, improve the utilization rate of electromotor.String
Boosting during connection, electric current is constant, and time in parallel, voltage is constant, and electric current increases.
Above-described embodiment describes the connection of double winding, can be also 3 sets, 4 set windings, during many set windings,
Connect by manner described above between every double winding, be sequentially connected with between the positive-negative output end of many set windings
Form series loop;Connect between positive output end to connect between negative output terminal and form shunt circuit.Due to this
It is that those skilled in the art it is readily conceivable that according to above-mentioned annexation, does not therefore detail at this.3 sets
If winding, the output voltage of 7VAC-63VAC is all effective, if 4 set windings, and 5.25VAC-63VAC
Output voltage all effective, often increase a set of winding, wide pressure scope just expands and is twice, it is therefore prevented that the wave of the energy
Taking, the utilization rate of electromotor is the highest, with during above-mentioned double winding in like manner, therefore do not repeat them here.
When two sets, biphase phase place symmetric winding, identical with above-mentioned three-phase windings, circuit such as Fig. 5,
First winding RZ1 ' connects the first bridge rectifier being made up of diode D1 '-D4 ', the first bridge rectifier
The outfan of circuit connects the first inductance L1 ', the second winding RZ2 ' and connects and be made up of diode D10 '-D13 '
The second bridge rectifier, the outfan of the second bridge rectifier connects the second inductance L2 ', described in open
Close circuit and include three powerful gate-controlled switches, respectively switch N1 ', switch N2 ' and switch N3 ', open
The power pin closing N1 ' connects negative output terminal and the positive output end of the second winding RZ2 ' of the first winding RZ1 ',
Described first bridge rectifier the first electric capacity E1 ', the first electric capacity E1 ' in parallel are connected to the first winding RZ1 '
Positive output end and the power pin of switch N1 ' between, described second bridge rectifier second electric capacity in parallel
E2 ', the second electric capacity E2 ' are connected between the negative output terminal of the second winding RZ2 ' and the power pin of switch N1 ',
Switch N2 ' connects positive output end and the positive output end of the second winding RZ2 ' of the first winding RZ1 ', switchs N3 '
Connecting negative output terminal and the negative output terminal of the second winding RZ ' of the first winding RZ1 ', the first winding RZ1 ' is just
The negative output terminal of outfan and the second winding RZ2 ' connects described charging manager U1, and charging manager connects
The energy storage components such as accumulator.Above-mentioned inductance and electric capacity are all filter actions, and principle is identical with above-mentioned three-phase windings,
Therefore do not repeat.
During for maximum process magnitude of voltage treatable beyond charging manager, this partial power is invalid electricity
Source, charging manager cannot process, it is impossible to supply energy storage component, accumulates on charging manager internal circuit
If certainly will damage the components and parts of charging manager, the most described charging manager also includes that is worked as a charging valve
The magnitude of voltage of the list set winding generating end that reason device detects is more than the treatable maximum of described charging manager
Process magnitude of voltage/
Or list set direct current terminal voltage value is more than m*The nominal charging voltage value of energy storage component
The unloading control device of Shi Jinhang off-load, described off-load is carried out by off-load device, by excessive magnitude of voltage
Electric current is laid down, and prevents from damaging charging manager and energy storage component, protects charging manager and energy storage component
Life-span.
When being energy storage component charging by TRT such as solar energy, body-building device or wind-force, due to these electricity
Can source be all unstable, therefore voltage be little time big when understanding, therefore can not be once detect that change in voltage is just
Switch over, and to detect row switching again after the situation of voltage fully, in order to avoid occurring that switching device does not stops to cut
The problem changed, causes potential safety hazard.
Such as Fig. 6, if with generating terminal voltage explanation, e1 represent the nominal charging voltage value of energy storage component/
E2 represent the nominal charging voltage value of energy storage component/
E3 represents m*The specified charging of energy storage component
Magnitude of voltage/
Less than e1, the voltage more than e3 is all dead voltage.
Confusion region is set in the region close to e2, confusion region is being set slightly larger than e3 region, is entering for above-mentioned confusion region
Row fully detection, and use the detection mode of voltage and time match.Particularly as follows: for e2, described charging
Manager is more than or equal to bV (b is slightly larger than e2, such as 1.1e2) according to the magnitude of voltage of the generating end detected, and
When this value stops a time period, charging manager controls described on-off circuit and switches to parallel connection;Described fill
Electricity manager is less than aV and when this value stops one according to the magnitude of voltage of the list set winding generating end detected
Between section time, charging manager controls described on-off circuit and switches to series connection (a is slightly smaller than e2, as 0.9e2).
When continue for some time detect that voltage is higher than cV (c is slightly larger than e3, as 1.1e3) time, then by parallel connection side
Formula is switched to unloading way.
If with single set direct current terminal voltage explanation, in Fig. 6, e1 represents the nominal charging voltage value of energy storage component
/ n, e2 represent the nominal charging voltage value of energy storage component, and e3 represents m*The nominal charging voltage value of energy storage component.
Less than e1, the voltage more than e3 is all dead voltage.
Confusion region is set in the region close to e2, confusion region is being set slightly larger than e3 region, for above-mentioned fuzzy
District is fully detected, and uses the detection mode of voltage and time match.Particularly as follows: for e2, described
Charging manager is more than or equal to bV (b is slightly larger than e2, such as 1.1e2) according to the magnitude of voltage of the generating end detected,
And when this value stops a time period, charging manager controls described on-off circuit and switches to parallel connection;Described
Charging manager is less than aV according to the magnitude of voltage of the list set winding generating end detected and stops one in this value
During the time period, charging manager controls described on-off circuit and switches to series connection (a is slightly smaller than e2, as 0.9e2).
When continue for some time detect that voltage is higher than cV (c is slightly larger than e3, as 1.1e3) time, then by parallel connection side
Formula is switched to unloading way.
Many sets winding in the present invention may come from an electromotor, it is also possible to belongs to multiple electromotor.
Described electromotor is preferably biphase or three-phase permanent magnet electricity generator, and described energy storage component can be the storages such as accumulator
Can parts.
The electromotor used in the present invention is small generator, it is adaptable to supply household electrical appliance.As washing machine,
Water heater and dish-washing machine etc..
Circuit of the present invention also has the advantage that
1, circuit is simple, be easily achieved, use that auxiliary element is few, energy loss is few;
2, reasonable in design, dependable performance, easy to use, cheap, fault is few, it is low to be lost, effect
Rate is high.
The above is only the preferred embodiment of the present invention, it is noted that common for the art
For technical staff, under the premise without departing from the principles of the invention, it is also possible to make some improvements and modifications,
These improvements and modifications also should be regarded as protection scope of the present invention.
Claims (9)
1. based on the charging circuit that electromotor is energy storage component charging, including: mechanical energy is turned
Turn to the electromotor of electric energy, on-off circuit, rectification circuit, filter circuit, charging manager, storage
Can parts;Described generator amature is connected realization with mechanical part by drive system and rotates, generating
Machine stator has at least double winding, and often set winding is respectively through rectifier circuit rectifies and filter circuit
Forming a DC source after filtering, described at least two DC source passes through switching circuit in series shape
Become series loop, form shunt circuit by on-off circuit parallel connection, it is characterised in that described simultaneously
DC source flows to charging manager after connection in series-parallel processes, and charged manager processes is storage
Can charge by parts, charging manager is connected with described series and parallel loop respectively;Described charging valve
Reason device detects the magnitude of voltage nominal charging voltage more than or equal to energy storage component of single set winding generating end
Value/Or single set direct current terminal voltage value rated charge more than or equal to energy storage component detected
During pressure value, charging manager controls described on-off circuit and switches to parallel connection;Described charging manager is examined
Measure the magnitude of voltage nominal charging voltage value less than energy storage component of single set winding generating end/Or it is single
When set direct current terminal voltage value is less than the nominal charging voltage value of energy storage component, charging manager control
Make described on-off circuit and switch to series connection.
It is the most according to claim 1 based on the charging circuit that electromotor is energy storage component charging,
It is characterized in that, described charging manager is big according to the magnitude of voltage of the list set winding generating end detected
In equal to energy storage component nominal charging voltage value/And stop a time period or detection in this value
To single set direct current terminal voltage value more than or equal to the nominal charging voltage value of energy storage component and in this value
When stopping a time period, charging manager controls described on-off circuit and switches to parallel connection;Described fill
Electricity manager fills less than the specified of energy storage component according to the magnitude of voltage of the list set winding generating end detected
Piezoelectric voltage value/And stop a time period or single set direct current terminal voltage value less than storage in this value
Can parts nominal charging voltage value and this value stop a time period time, charging manager control
Described on-off circuit switches to series connection.
The most according to claim 1 and 2 based on the charged electrical that electromotor is energy storage component charging
Road, it is characterised in that described charging manager detects that the magnitude of voltage of single set winding generating end is more than
Equal to energy storage component nominal charging voltage value/For: described charging manager detects single set winding
Generating end magnitude of voltage more than or equal to energy storage component nominal charging voltage value/And less than or equal to m*
The nominal charging voltage value of energy storage component/
Described charging manager detects that single set direct current terminal voltage value is more than or equal to energy storage component
Nominal charging voltage value is: described charging manager detects that single set direct current terminal voltage value is more than
Nominal charging voltage value equal to energy storage component and the rated charge less than or equal to m* energy storage component
Pressure value;
Wherein m is wide pressure scope;
Described charging manager detects that the magnitude of voltage of single set winding generating end is less than described charged electrical
Pressure value/For: described charging manager is less than according to the magnitude of voltage of the list set winding generating end detected
The nominal charging voltage value of described energy storage component/And more than or equal to the rated charge of energy storage component
Pressure value/Wherein n is the tricks of winding, and the value of n is the integer more than or equal to 2;
Described charging manager detects that single set direct current terminal voltage value is less than the specified of energy storage component
Charging voltage value is: described charging manager detects that single set direct current terminal voltage value is less than described
The nominal charging voltage value of energy storage component and the nominal charging voltage value/n more than or equal to energy storage component,
Wherein n is the tricks of winding, and the value of n is the integer more than or equal to 2.
4. according to according to any one of claim 1-2 based on electromotor be energy storage component charging
Charging circuit, it is characterised in that described charging manager includes that one detects when charging manager
List set winding generating end magnitude of voltage more than m* energy storage component nominal charging voltage value/Or inspection
Carry out when measuring single set direct current terminal voltage value more than the nominal charging voltage value of m* energy storage component
The unloading control device of off-load, described off-load is carried out by off-load device.
5. according to according to any one of claim 1-2 based on electromotor be energy storage component charging
Charging circuit, it is characterised in that include a set of first section of winding and a set of end winding, by head end around
Group one section as outfan, short circuit between the phase line of a section of end winding, other often overlap winding
One end connected by one end of on-off circuit and adjacent winding and form series loop, simultaneously described in
Other often overlap winding and are connected to outfan formation parallel circuit by on-off circuit.
It is the most according to claim 5 based on the charging circuit that electromotor is energy storage component charging,
It is characterized in that, on-off circuit includes at least two multiple contact relay, sets between every double winding
Put two described multiple contact relays, the contact number of described multiple contact relay and winding phase
Number is equal, and a contact correspondence connects a phase line, and described trigger relay more than two is one
The relay that the relay of contact double-throw and a contact list are thrown,
The relay of one described contact double-throw is set on one of double winding being connected, passes through
The relay of described contact double-throw is connected to one end of another set of winding or described outfan, right
The relay that one described contact list is thrown is set on the other end of the another set of winding answered, described many
The coil power end of contact relay connects described charging manager.
7. according to according to any one of claim 1-2 based on electromotor be energy storage component charging
Charging circuit, it is characterised in that the detection of described voltage is realized by voltage detecting circuit, voltage
Testing circuit be by a main resistor and a sampling resistor and with main resistor and a sampling resistor
The circuit of the electric capacity composition being in parallel, the voltage signal of described sampling resistor is transferred to described charging valve
Master chip in reason device calculates, and the terminal voltage of described sampling resistor is less than described Charge Management
The running voltage of the master chip of device.
It is the most according to claim 3 based on the charging circuit that electromotor is energy storage component charging,
It is characterized in that, the detection of described voltage is realized by voltage detecting circuit, and voltage detecting circuit is
The electricity being made up of a main resistor and a sampling resistor and the electric capacity that is in parallel with two resistance
Road, the master chip that the voltage signal of described sampling resistor is transferred in described charging manager is counted
Calculating, the terminal voltage of described sampling resistor is less than the running voltage of the master chip of described charging manager.
9. according to described in claim 1-2 any one based on electromotor be energy storage component charging
Charging circuit, it is characterised in that described electromotor is biphase or three-phase permanent magnet electricity generator, described storage
Can parts be accumulator.
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CN106341068B (en) * | 2016-10-14 | 2020-11-24 | 江先武 | Switching device for motor wide speed |
CN106411221B (en) * | 2016-10-14 | 2020-11-24 | 江先武 | Current detection and control device for wide speed of motor |
CN106411222B (en) * | 2016-10-14 | 2020-11-24 | 江先武 | Power supply device for wide speed of motor |
CN106341067B (en) * | 2016-10-14 | 2021-01-29 | 江先武 | Switching system for motor wide speed |
CN106452273B (en) * | 2016-10-14 | 2020-11-24 | 江先武 | Control system for motor wide speed |
CN110460247A (en) | 2019-09-19 | 2019-11-15 | 深圳英飞源技术有限公司 | A kind of power supply and its control method of high-performance wide output voltage range |
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US5719488A (en) * | 1996-01-05 | 1998-02-17 | Hitachi, Ltd. | Charging generator and voltage regulator therefor |
CN101599735A (en) * | 2008-06-03 | 2009-12-09 | 上海大宙风能发电机制造有限公司 | Wind energy varying voltage generator |
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JPS5895999A (en) * | 1981-12-03 | 1983-06-07 | Nissan Motor Co Ltd | Ac generator |
JP2001309563A (en) * | 2000-02-15 | 2001-11-02 | Sekisui Chem Co Ltd | Building power supply system and battery device |
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US5719488A (en) * | 1996-01-05 | 1998-02-17 | Hitachi, Ltd. | Charging generator and voltage regulator therefor |
CN101599735A (en) * | 2008-06-03 | 2009-12-09 | 上海大宙风能发电机制造有限公司 | Wind energy varying voltage generator |
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