CN1351413A - Power generation controller of vehicle - Google Patents

Power generation controller of vehicle Download PDF

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Publication number
CN1351413A
CN1351413A CN 01119369 CN01119369A CN1351413A CN 1351413 A CN1351413 A CN 1351413A CN 01119369 CN01119369 CN 01119369 CN 01119369 A CN01119369 A CN 01119369A CN 1351413 A CN1351413 A CN 1351413A
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CN
China
Prior art keywords
phase
mentioned
current
output
zero passage
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Granted
Application number
CN 01119369
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Chinese (zh)
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CN1211910C (en
Inventor
大田淳朗
本田聪
生井邦明
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Honda Motor Co Ltd
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Honda Motor Co Ltd
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Publication of CN1351413A publication Critical patent/CN1351413A/en
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Publication of CN1211910C publication Critical patent/CN1211910C/en
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    • Y02T10/641
    • Y02T10/642
    • Y02T10/7005
    • Y02T10/7241

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  • Control Of Eletrric Generators (AREA)
  • Iron Core Of Rotating Electric Machines (AREA)
  • Permanent Magnet Type Synchronous Machine (AREA)
  • Permanent Field Magnets Of Synchronous Machinery (AREA)

Abstract

A power generation controller for a vehicle has a rectifier circuit for rectifying the output current of a polyphase ac generator and a regulator for limiting the voltage to a predetermined value. The operation can be restored from the regulated mode reliably. When the battery voltage VB reaches a regulation voltage Vreg at time t1, the phases are regulated. The W-phase is restored at time t2, and then the V-phase is restored at time t3. When the current IW of the W-phase crosses the zero at time t4, the current IU of the unreported U-phase, which is the phase prior to the W-phase, is referenced. If the current IU is positive, the U-phase is restored.

Description

Power generation control device for vehicle
TECHNICAL FIELD OF THE INVENTION
The present invention relates to output current rectification with polyphase alternator, and with adjuster be controlled at decided the power generation control device for vehicle of voltage, particularly, each can return to the power generation control device for vehicle of original state mutually reliably from the adjustment state.
Prior art
With the output current of polyphase alternator with the commutating circuit rectification, with adjuster be controlled to be decided the Generation Control of voltage known.In such Generation Control, if the output voltage of commutating circuit surpass fixed adjustment voltage, above-mentioned adjuster control commutating circuit makes all phase ground connection, enters so-called adjustment state.By carrying out mutually, each is liberated from above-mentioned ground state when this current over-zero from the recovery of adjusting state.
On the other hand, as alternating current motor or generator, swivel mount cylindraceous around outer transition of the periphery of stator rotation the permanent magnet generator known.In addition, in such permanent magnet generator, the permanent magnet generator that forms commutating pole portion between permanent magnets adjacent is disclosed in, and for example, the spy opens in the flat 8-275476 communique.
The purpose of invention
In the permanent magnet generator of above-mentioned commutating pole structure, when the balance in magnetic field was bad, perhaps, when adopting as for motor vehicle alternating current generator, when each phase ground connection was adjusted, the polarity that electric current takes place was separated.Therefore, for example threephase alternator as shown in figure 11, can be estimated, though the two-phase in the three-phase (herein being V, the W phase) zero passage, can be from adjusting recovering state, a remaining phase (herein be the U phase) is because can not zero passage, so can not be from the adjustment recovering state.
The objective of the invention is to solve the problem of above-mentioned prior art, carry out rectification for output current to polyphase alternator, with adjuster be controlled at decided the power generation control device for vehicle of voltage, can be reliably from adjusting recovering state.
The means of invention
In order to achieve the above object, power generation control device for vehicle of the present invention possesses: the commutating circuit that each cross streams electric current that polyphase alternator is exported carries out rectification; The output voltage of commutating circuit reach during fixed adjustment voltage, make all adjusters that enters the adjustment state mutually; It is characterized in that also having: under the adjustment state,, detect the whether zero crossing detection device of zero passage of this alternating current to be unit mutually; Make the 1st recovery device from the adjustment recovering state of zero passage; No matter during which phase zero passage, judge the decision maker of the sense of current of this last phase; By above-mentioned decision maker, when the sense of current of judging above-mentioned last phase is positive direction, make this last from adjusting the 2nd recovery device of recovering state.
According to above-mentioned feature, at the adjustment state, there is not the phase of zero passage for phase current, when its a back phase zero passage, the phase current of himself is a positive direction, just can be from adjusting recovering state, so, even phase current zero passage not, also can be from adjusting recovering state.
Description of drawings
Fig. 1 is the whole side view that is suitable for small-sized automotive bicycle of the present invention.
Fig. 2 is the sectional drawing of the pendulous device of Fig. 1 along crank axle.
Fig. 3 is the partial sectional view along the face of the rotating shaft (crank axle) of the engine (permanent magnet turning motor) of holding concurrently perpendicular to starting device.
Fig. 4 is the side sectional drawing of Fig. 3.
Fig. 5 is the plane graph of rotating turret.
Fig. 6 is the side view of rotating turret.
Fig. 7 is the local expanded view of rotating turret.
Fig. 8 is the starting device control system component diagram of engine of holding concurrently.
Fig. 9 is the component parts figure of major part of the ECU of Fig. 8.
Figure 10 is the component parts figure of the adjuster of Fig. 8.
Figure 11 is the oscillogram of the action of adjuster.
Figure 12 is the corresponding relation figure of the input and output of adjuster.
Inventive embodiment
Below, the present invention is described in detail with reference to accompanying drawing.Fig. 1 is the whole side view that is suitable for the small-sized automotive bicycle of power generation control device for vehicle of the present invention.
Vehicular body front and rear vehicle link together by low base plate 4, become the body framework of car body bone, probably by under manage 6 and be responsible for 7 and constitute, fuel tank and box (all not shown on the figure) rely on to be responsible for and support, dispose vehicle seat above it.
At Vehicular body front, the handlebar 11 that relies on steering head 5 pivots to prop up is located at the top, and front fork 12 extends downwards, and in the lower end of front fork, front-wheel FW relies on axle supporting.On the top of handlebar 11, be covered with the handlebar shell of double as instrument board.In the riser portions lower end of being responsible for, be equipped with carriage 15, the suspension holdfast 18 of pendulous device 2 is by link 16, can freedom joltily connects to be supported on this carriage 15.
Be equipped with the two-stroke internal combustion engine E of single cylinder in the front portion of pendulous device 2.Constitute belt electrodeless variable-speed motor 10 to the rear from this internal combustion engine E, at its rear portion, trailing wheel RW pivot props up on the reducing gear 9 that is provided with by centrifugal clutch.In the upper end of this reducing gear be responsible between 7 the upper bend portion posterior bumper 3 is installed.In the front portion of pendulous device 2, be equipped with gasifier 17 that continues on extended air intake duct 19 and the air filter 14 that connects with gasifier 17 from internal combustion engine.
Fig. 2 is the sectional drawing that above-mentioned pendulous device 2 is cut open along crank axle 201, with the same or equal part of above-mentioned identical symbolic representation.
Pendulous device 2 by by about crank box 202L, the crank box 202 that the 202R zoarium constitutes be covered with, crank axle 201 can supported freely to rotate by the bearing 208,209 that is fixed on the crank box 202R.Connecting rod (not shown on the figure) is connected on the crank axle 201 by crank-pin 213.
Left side crank box 202L double as belt-type electrodeless variable-speed chamber on the crank axle 201 that extends to left crank box 202L, can be provided with belt drives wheel 210 rotatably.Belt drives wheel 210 is by fixedly side wheel halfbody 210L and movable side wheel halfbody 210R form, fixedly side wheel halfbody 210L is fixed on the left part of crank axle 201 by wheel hub 211, on the fixing right side of side wheel halfbody 210L, movable side wheel halfbody 210R spline is entrenched on the crank axle 201, can be approaching/away from fixing side wheel halfbody 210L.Vee-belt 212 volumes are hung thereon between two-wheeled side halfbody 210L, 210R.
Right side at movable side wheel halfbody 210R, cam disc 215 is fixed on the crank axle 201, be located at cam disc 215 outer circumference end sliding part 215a and can combine at the cam disc slip boss 210Ra of portion that the outer circumference end of movable side wheel halfbody 210R axially forms with being free to slide.The cam disc 215 of movable side wheel halfbody 210R has near the outer circumferentially oblique conical surface of cam disc 215 inclinations, and dry weight post 216 is being accommodated in the space between this conical surface and movable side wheel halfbody 210R.
Increase along with the rotary speed of crank axle 201, between movable side wheel halfbody 210R and cam disc, the above-mentioned dry weight post 216 that rotates with crank axle, under action of centrifugal force, move to centrifugal direction, movable side wheel halfbody 210R is moved to left by 216 extruding of dry weight post, near fast pulley halfbody 210L.As a result, the vee-belt 212 that is clipped between two-wheeled side halfbody 210L, the 210R moves to centrifugal direction, and volume is hung radius and increased.
At the rear portion of vehicle, be provided with belt drives and take turns 210 corresponding driven pulleies (not shown on the figure), belt 212 volumes are hung on this driven pulley.By this belt gear, the power of internal combustion engine E is adjusted and is communicated to centrifugal clutch automatically, drives trailing wheel RW by above-mentioned reducing gear 9.
In right crank box 202R, be equipped with the starter that forms by the combination of starter motor and the AC engine engine 1 of holding concurrently.On starter was held concurrently engine, external rotor 60 relied on screw 253 to be fixed on the front end tapering of crank axle.Be provided in the internal stator 50 of the inboard of above-mentioned external rotor 60, rely on bolt 279 to be fixedly supported upon on the crank box 202.In addition, for the above-mentioned starter formation of engine 1 of holding concurrently, be elaborated with reference to Fig. 3 to Fig. 7 later on.
The full front of a Chinese gown of the central conus portion 280a of fan 280 partly relies on bolt 246 to be fixed on the external rotor 60, and fan 280 is covered with by fan cover 281 by radiator 282.
On crank axle 201, above-mentioned starter is held concurrently between engine 1 and the bearing 209, is fixing sprocket wheel 231, is used for hanging over this sprocket wheel 231 from the chain volume of crankshaft drives camshaft.In addition, above-mentioned sprocket wheel 231 passes on the gear 232 of power to be integrally formed with being used for to the pump that makes lubrication oil circulation.
Fig. 3, the 4th, partial plan layout and the side sectional drawing cut open along the face of engine 1 (permanent magnet turning motor) rotating shaft (bent axle 201) of holding concurrently perpendicular to above-mentioned starter, Fig. 5, the 6th, the plane graph of rotating turret and part expanded view thereof are whichsoever all represented same part such as be in league with above-mentioned identical symbol.
As Fig. 3, shown in 4, the starter of the present embodiment engine 1 of holding concurrently constitutes by stator 50 with around the external rotor 60 of this stator 50 peripheries rotation, above-mentioned external rotor 60 is by rotating turret 61, N utmost point permanent magnet 62N and S utmost point permanent magnet 62S, cup-shaped rotor casing 63 constitutes, as Fig. 4, shown in 5, rotating turret 61 is slightly cylindric lamination formation by the silicon steel plate (thin plate) of ring-type, as Fig. 3, shown in 7, N utmost point permanent magnet 62N and S utmost point permanent magnet 62S intert alternately in a plurality of peristomes 611 of the circumferencial direction that is located at rotating turret 61, as Fig. 3, shown in 4, above-mentioned cup-shaped rotor casing 63 connects above-mentioned rotating turret 61 on above-mentioned crank axle 201.
Above-mentioned rotor casing 63, circumferential ends at it possesses claw 63a, by this claw of bending to the inside 63a, the rotating turret 61 of above-mentioned lamination structure is seized on both sides by the arms vertically, and, make each permanent magnet 62 (62N, 62S) that interts in the peristome 611 of above-mentioned rotating turret 61 remain on institute's allocation in the rotating turret 61.
Said stator 50 as shown in Figure 3, is made of the silicon steel plate lamination, comprises stator core 51 and stator salient poles 52.Stator spiral 53 is around on each stator salient poles with the one pole centralized system, and the protected shell of the interarea of stator 50 is covered with.
Shown in Fig. 5,6,12 peristomes 611 that above-mentioned permanent magnet 62 axially inserts along the circumferential direction, are formed on the above-mentioned rotating turret 61 at interval with 30 degree.Bring into play functions as commutating pole 613 between each peristome 611 of adjacency.
As shown in Figure 7, section slightly becomes the permanent magnet 62 of drum type to insert in above-mentioned each peristome 611.At this, in the present embodiment, the section configuration of the shape of above-mentioned peristome 611 and permanent magnet 62 is not identical, insert under the state of above-mentioned peristome 611 at above-mentioned permanent magnet 62, both sides along the circumferencial direction of each permanent magnet have formed the 1st space 612, and, stator side at the both ends of each permanent magnet 62 forms the 2nd space 614.
Fig. 8 is the hold concurrently block diagram of control system of engine 1 of above-mentioned starter, with the same or equal part of above-mentioned identical symbolic representation.
In ECU, be provided with: with the above-mentioned starter three-phase full wave rectifier circuit that three-phase alternating current that the generating function of engine 1 takes place carries out full-wave rectification of holding concurrently; With the output voltage of full-wave rectifier 300 be limited in setting adjustment voltage (the adjuster operation voltage: for example, adjuster 100 14.5V).
On ECU, be connected to angular sensor 29, ignition coil 21, throttle sensor 23, fuel sensor 24, valve seat switch 25, idle running switch 26, cooling-water temperature sensor 27 and pulse generator 30, detect signal from each several part and input to ECU.At the secondary side of ignition coil 21, be connected to ignition spark plug 22.
In addition, on ECU, be connected to starter relay 34, starting switch 35, shutdown switch 36,37, backup indicator 38, fuel indicator 39, velocity transducer 40, motorcycle starter 41, reach headlight 42.On headlight, be provided with dimmer switch 43.
Give above-mentioned each supplying electric current through total fuse 44 and master switch 45 from storage battery 46.In addition, storage battery 46 directly is connected on the ECU through starter relay on the one hand, on the other hand, without master switch 45, only is connected on the ECU through total fuse 44.
Fig. 9 relates to the formation schematic diagram of major part of the Generation Control of above-mentioned ECU.Three-phase full wave rectifier circuit 300 is the bridge type returns that are connected in parallel and constituted by three groups two FET that are connected in series (field effect transistor).Adjuster 100 is a gate voltage by the switching of the FET (U-FET, V-FET, W-FET) of the every low potential side of control, battery tension VB is limited in the voltage of setting.
Figure 10 is the block diagram of the major part of above-mentioned adjuster 100, adjustment voltage Vreg that comparator 112 is relatively set and battery tension VB.Monostable multivibrator 101 changes generation Q output according to the output of above-mentioned comparator 112.Or door 105 is with the logic of the output of above-mentioned comparator 112 and Q output with export the F/F (trigger) 109 mutually at U, on the terminal group S of V phase F/F110 and W phase F/F111.
Comparator 113,114,115 respectively relatively each voltage VU, VV, the VW of U, the V of threephase alternator 1, W phase and be equivalent to zero passage setting voltage (in the present embodiment for-12.5mV).Not gate 116,117,118 reverses the output of above-mentioned each comparator 113,114,115 respectively.Trigger 102,103,104 changes generation Q output according to the output of above-mentioned comparator 113,114,115 respectively.
U and door 119 output U are the logic product of the non-output of Q of the Q output of the output of not gate 116 and W phase monostable multivibrator 104 and W phase F/F111 mutually.U mutually or door 106 with the logic of the Q output of the output of above-mentioned U and door 119 and monostable multivibrator 102 with output to U mutually on the reseting terminal R of F/F109.
The above-mentioned V of V and door 120 outputs is the logic product of the non-output of Q of the Q output of the output of not gate 117 and U phase monostable multivibrator 102 and U phase F/F109 mutually.V mutually or door 107 with the logic of the Q output of the output of V and door 120 and monostable multivibrator 103 with output to V mutually on the reseting terminal R of F/F110.
The above-mentioned W of W and door 121 outputs is the logic product of the non-output of Q of the Q output of the output of not gate 118 and V phase monostable multivibrator 103 and V phase F/F110 mutually.W mutually or door 108 with the logic of the Q output of the output of W and door 121 and monostable multivibrator 104 with output to W mutually on the reseting terminal R of F/F111.
Next, with reference to the oscillogram of Figure 11 and the input and output contrast table of Figure 12, the adjustment action of being undertaken by above-mentioned adjuster 100 is described.
At the moment of Figure 11 t1, after battery tension VB reached and adjusts voltage Vreg, the output of the comparator 112 of Figure 10 was from " 0 " changes " 1 " because or door 105 export " 1 ", so the F/F109 of each phase, 110,111 is by set.Its result, the U-FET of full-wave rectifier 300, V-FET, W-FET shown in the input and output contrast table of Figure 12, all become ON, and every being grounded promptly becomes the adjustment state, therefore, the output voltage step-down of full-wave rectifier 300.
Afterwards, at moment t2, after the electric current I W zero passage of W phase, the output of W phase comparator 115 is by " 0 " change " 1 ", and therefore, " 1 " pulse takes place the monostable multivibrator 104 of W phase.As a result, W phase F/F111 is reset, and its Q output is by " 1 " change " 0 ", and therefore, the W-FET of full-wave rectifier 300 becomes OFF.That is, W is from adjusting recovering state.
At this moment, the voltage VU of the preceding phase U phase of W phase is lower than-12.5, and promptly the electric current I U of U phase bears, and U phase comparator 113 is output as " 0 ", and not gate 116 is output as " 0 ", therefore, keeps the adjustment state of U phase.
Afterwards, at moment t3, after the electric current I V zero passage of V phase, the output of V phase comparator 114 is by " 0 " change " 1 ", and thus, " 1 " pulse takes place V phase monostable multivibrator 103.As a result, V phase F/F110 is reset, and its Q output is by " 1 " change " 0 ", and the V-FET of full-wave rectifier 300 becomes OFF.That is, V is mutually also from adjusting recovering state.
Afterwards, at moment t4, after the zero passage, the output of the not gate 118 of W phase is by " 0 " change " 1 " once more for the electric current I W of W phase, and thus, " 1 " pulses take place monostable multivibrator 104, and are input to U and door 119.In addition, at this time point, non-being output as of Q " 1 " of W phase F/F111, this output inputs to U and door 119.In addition, at moment t4, the voltage VU of U phase is than-12.5 height, that is, U phase current IU is for just, and thus, the output of U phase comparator 113 is by " 1 " change " 0 ", and the output of not gate 116 is by " 0 " change " 1 ".
As a result, U all becomes " 1 " with three inputs of door 119, and thus, its output becomes " 1 ".In addition, U phase F/F109 is reset, and Q exports by " 1 " change " 0 ", and the U-FET of full-wave rectifier 300 becomes OFF.That is, U is mutually also from adjusting recovering state.
So, according to present embodiment, the two-phase in the three-phase is behind the adjustment recovering state, a remaining phase, when its back phase zero passage, the phase current of self is positive words, just can be from adjusting recovering state, therefore, no matter when last can not occur mutually all can not be from adjusting the situation of recovering state.
In addition, in the foregoing description, be that example describes the present invention with the three phase alternating current motor, still, the present invention not only is defined in this, and four above mutually alternating current machines can be suitable for too.In addition, in the above-described embodiments, the zero passage of phase current only relates to a direction and detects the explanation of carrying out, and still, on the formation of Figure 10, increases by one group again, just can relate to the twocouese zero passage detection.
The effect of invention
According to the present invention, the two-phase in the three-phase after adjust recovering state, a remaining phase, During its follow-up phase zero passage, phase current is positive, just can be from adjusting recovering state. Therefore, Even as the occasion that generator adopts, last can not occur at the motor of commutating pole structure yet Mutually no matter when all can not be from adjusting the situation of recovering state.

Claims (2)

1. power generation control device for vehicle possesses: the commutating circuit that each cross streams electric current that polyphase alternator is exported carries out rectification; The output voltage of commutating circuit reach during fixed adjustment voltage, make all adjusters that enters the adjustment state mutually; It is characterized in that also having: under the adjustment state,, detect the whether zero crossing detection device of zero passage of this alternating current to be unit mutually; Make the 1st recovery device from the adjustment recovering state of zero passage; No matter during which phase zero passage, judge the decision maker of the sense of current of the last phase of this phase; By above-mentioned decision maker, when the sense of current of judging above-mentioned last phase is positive direction, make this last from adjusting the 2nd recovery device of recovering state.
2. power generation control device for vehicle as claimed in claim 1 is characterized in that above-mentioned polyphase alternator comprises: stator and spiral thereof; And at the rotating turret that slightly becomes drum of the periphery of said stator rotation, this rotating turret disposes a plurality of permanent magnets along its circumferencial direction, and above-mentioned rotating turret has commutating pole portion between each permanent magnet that adjoins each other.
CN 01119369 2000-10-26 2001-05-30 Power generation controller of vehicle Expired - Fee Related CN1211910C (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2000326743A JP3758077B2 (en) 2000-10-26 2000-10-26 Vehicle power generation control device
JP326743/2000 2000-10-26

Publications (2)

Publication Number Publication Date
CN1351413A true CN1351413A (en) 2002-05-29
CN1211910C CN1211910C (en) 2005-07-20

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN 01119369 Expired - Fee Related CN1211910C (en) 2000-10-26 2001-05-30 Power generation controller of vehicle

Country Status (3)

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JP (1) JP3758077B2 (en)
CN (1) CN1211910C (en)
ZA (1) ZA200204821B (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102163951A (en) * 2010-02-23 2011-08-24 株式会社电装 Vehicle generator

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5008751B2 (en) * 2010-05-21 2012-08-22 三菱電機株式会社 Power supply

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102163951A (en) * 2010-02-23 2011-08-24 株式会社电装 Vehicle generator
CN102163951B (en) * 2010-02-23 2014-09-17 株式会社电装 Vehicle generator

Also Published As

Publication number Publication date
CN1211910C (en) 2005-07-20
ZA200204821B (en) 2003-09-15
JP3758077B2 (en) 2006-03-22
JP2002136195A (en) 2002-05-10

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