CN101298276B - Intellectualized electric assisted bicycle - Google Patents
Intellectualized electric assisted bicycle Download PDFInfo
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- CN101298276B CN101298276B CN2007100221377A CN200710022137A CN101298276B CN 101298276 B CN101298276 B CN 101298276B CN 2007100221377 A CN2007100221377 A CN 2007100221377A CN 200710022137 A CN200710022137 A CN 200710022137A CN 101298276 B CN101298276 B CN 101298276B
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Abstract
The invention relates to an intelligent electric power bicycle, aiming at providing the intelligent electric power bicycle which has convenient usage, low cost, long stroke by once-charging and energy-saving. The intelligent electric power bicycle is provided with an electric power system which comprises a storage battery, a controller, a digital sensor, a DC motor and a pedal; wherein, the digital sensor has the same shaft with a motor and is used for transmitting a dynamic digital pulse signal containing real-time moment dynamic change information and speed information to a digital dynamic moment signal processing circuit; the controller is internally provided with a reference speed digital signal generator used for arranging the standard digital speed pulse signal of the DC motor, a digital dynamic moment signal processing circuit used for modulating and outputting the pulse-width signal which controls the conduction of the power converter, and a digital logic interface and a power amplification circuit used for controlling the power tube to output corresponding pulse width so as to drive the DC motor.
Description
Technical field
The present invention relates to a kind of Electrical Bicycle, the two intelligent assisted electric bicycles that drive of particularly a kind of electric power and manpower.
Background technology
The vehicle of Electrical Bicycle clean environment firendly are adopted by increasing people.Electrical Bicycle can think to add a cover motor-driven mechanism composition on the basis of bicycle, groundwork is: provide electric energy by storage battery, the direct motor drive bicycle.Its electric-control system mainly comprises storage battery, controller and motor.Its operational process is: storage battery send electricity for a motor through a controller, and motor is placed in the rear wheel, and the rotation of motor drives advancing of bicycle.The controller of Electrical Bicycle connects a governor handle, on foot-operated axis assistant sensor is housed, rotates governor handle and can allow controller detect different magnitudes of voltage, controller is according to the magnitude of voltage size, analog regulation flows to the height of electric moter voltage, thereby has controlled rotating speed of motor.
Can be divided into two classes by the type of drive Electrical Bicycle.One class is a battery-driven car, and promptly the bicyclist does not need oneself firmly, as long as energized, the motor on the Electrical Bicycle can be worked and be driven bicycle running.This vehicle power derives from storage battery fully, and conventional electric bike battery once charges and can only travel 30~50 kilometers, and frequent charge makes the service life of battery generally less than 1 year.This causes battery-driven car inconvenience in use, and use cost is higher.
Another kind of is the foot-operated two electric assisted bicycles that drive of electric power and manpower, this car collection manpower and electric power are one, between battery-driven car and bicycle, motor provided power-assisted when the bicyclist exerted oneself treadmill, and the size of manpower is passed to computer chip in the controller by a torque sensor, by the output torque of computer chip control motor, power-assisted and manpower are in direct ratio, manpower is big more, and power-assisted is big more, and the not afterburning then motor of bicyclist is not worked.This vehicle has certain energy-saving effect when going up a slope by bike, but generally speaking, energy-conservation not remarkable.Because battery-driven car is when smooth road traveling, the people does not need bigger additional power-assisted, but motor still exports and the corresponding power-assisted of manpower, not only wastes the energy of storage battery, but also may cause the unsafe condition of driving over the speed limit.
Need at present that energy resource consumption is few in a kind of the travelling, once the stroke that charges is long, the electric assisted bicycle that use cost is low and safe and reliable badly.
Summary of the invention
The objective of the invention is to overcome the defective of prior art, provide a kind of easy to use, cost is low, the stroke that once charges is long, energy-conservation Intellectualized electric assisted bicycle.
The technical scheme that realizes the foregoing invention purpose is: a kind of Intellectualized electric assisted bicycle, electric booster system comprise storage battery, controller, digital sensor, DC machine and foot-operated, wherein,
Described digital sensor, it and motor coaxle are used for comprising to the transmission of digital dynamic force moment signal processing circuit the dynamic digital impulse singla of real-time moment dynamic-change information and velocity information;
Be provided with in the described controller:
The reference velocity digital signal generator is used to set the standard digital speed pulse signal of described DC machine, and with this impulse singla as exporting to dynamic digital torque signals treatment circuit with reference to digital speed pulse signal;
The digital dynamic force moment signal processing circuit, be used for described reference velocity impulse singla and described dynamic digital impulse singla are done the position relatively, obtain the vector of dynamic force moment variable, the pulse width signal of the pulse width stack back output power controlling changer conducting of again this dynamic force moment variable and this digital dynamic force moment signal processing circuit last time being exported;
Digital Logic interface and power amplifier are used to receive the pulse width signal of digital dynamic force moment signal processing circuit output and modulate, and the power controlling pipe is exported corresponding pulse width and driven described DC machine.
Principle of the present invention is: the digital sensor among the present invention come down to one with motor coaxle, rotate and can send the digital position transducer of a plurality of five equilibrium pulse duration frequency signals (position-time signal and displacement signal are provided) week, it passes out the five equilibrium pulse duration frequency signal of the spatial position change information that comprises reflection dynamic force moment variable quantity-aliquot.The reference burst signal that these five equilibrium impulse singlas that spread out of by sensor are set with the reference velocity digital signal generator in the digital dynamic force moment signal processing circuit is done locational comparison at one time, when the dynamic force moment increment on the motor wheel shaft is zero, the five equilibrium impulse singla and the relative position between the reference burst signal that are sent by sensor are constant, and the pulse width between two pulses of promptly comparing is constant; When external force applies when making the dynamic force moment increment non-vanishing, five equilibrium impulse singla that is sent by sensor and the relative position between the reference burst signal change, in this moment, certainly lead to a variable quantity by the pulse width between five equilibrium impulse singla and the reference burst signal, this variable quantity has just equivalently reacted the diverse vector (increment or decrement) of dynamic comprehensive moment.The digital dynamic force moment signal processing circuit inversely adds the pulse width signal of the power controlling pipe that dynamic comprehensive moment vector and digital dynamic force moment signal processing circuit were last time exported, and exports a pulse width signal that deducts the power controlling pipe of dynamic comprehensive moment vector width.Obviously, in the moment that dynamic comprehensive moment vector (increment or decrement) produces, the conducting amount of power tube has been made the variation of corresponding (decrement or increment), and the electric energy that electrical motor obtains reduces or increased.Because the effect of inertia and inductance, in the moment that the dynamic comprehensive moment vector changes, the electric current of motor is constant, speed is constant, the minimizing of motor intake or increase, minimizing or increase that this must make the voltage of input motor also must cause the minimizing or the increase of motor output torque.And the minimizing of this electrokinetic moment or recruitment just in time offset with the increase or the reduction of moment of face.Like this, moment is in stabilized conditions to the electric booster system of car again.
In sum, adopt digital moment/voltage close loop control among the present invention in the electric power assisted control system, by the dynamic change of the detected Real Time Drive moment of the digital position transducer that is installed in axis or other region of interest, the digital dynamic force moment signal processing circuit comprehensively obtains comprehensive moment increment signal with real-time dynamic force moment variable signal and reference speed signal then, the last time output torque output signal of comprehensive moment increment signal and motor inversely adds, impulse singla after the stack goes to control the output torque of motor to power inverter, forms a digital dynamic force moment closed loop circuit.This moment, the output torque of motor was relevant with bicyclist's speed, applied moment, increased if manpower applies moment, and comprehensive moment increment increases, and the output torque of motor just reduces.
As a further improvement on the present invention, the present invention also comprises protective circuit, and protective circuit comprises that hypervelocity suppresses circuit, Ultra-Low Speed signal generator and Ultra-Low Speed protective circuit; Hypervelocity suppresses circuit, receive the reference velocity impulse singla that real-time speed impulse singla that described digital sensor sends and reference number speed signal generator send, real-time speed impulse singla and pre-set velocity impulse singla are compared, when real-time speed is higher than pre-set velocity, constantly sends an of short duration pulsewidth and close gate signal to described Digital Logic interface circuit; The Ultra-Low Speed signal generator, default ultralow speed pulse signal; The Ultra-Low Speed protective circuit; receive the Ultra-Low Speed number of degrees word pulse signal that real-time speed impulse singla that described digital sensor sends and Ultra-Low Speed signal generator send; real-time speed impulse singla and Ultra-Low Speed number of degrees word pulse signal are compared; when real-time speed is lower than ultralow speed; send pulse and close gate signal to described Digital Logic interface and power amplifier; make not conducting of power tube; when real-time speed increase to surpass ultralow speed, send the pulse enabling signal and give described Digital Logic interface and power amplifier.
The present invention compared with prior art has the following advantages:
1, the present invention adopts the feedback signal of digital dynamic force moment variable quantity as closed loop system, system can not only the recognition reaction dynamic force moment the variation size, and the direction of recognition reaction moment simultaneously, direction as manpower, gravity torque and wind-force moment changes, make controller make corresponding judgment, adjust electrokinetic moment, thereby realized the Intellectualized electric assisted control of Electrical Bicycle.
2, the present invention adopts the feedback signal of digital dynamic force moment variable quantity as closed loop system, when the comprehensive moment on acting on system changed, controller can reach new state of equilibrium by the Instantaneous Control electric booster system, therefore, when car load of the present invention is ridden, very steady.
3, the present invention adopts the feedback signal of digital dynamic force moment variable quantity as closed loop system, be implemented under the unmodified prerequisite that maintains speed, the interaction of double dynamical output and balance, manpower and electric power can be helped each other, reduced power consumption, stroke after storage battery once charges prolongs greatly, and therefore also prolong the service life of storage battery.
4, in moment of the present invention/voltage close loop control loop, all adopt digital circuit, do not have integral element, with stable, cost is lower more fast in control.
Description of drawings
Fig. 1 is embodiments of the invention 1 electric boosted control system structured flowcharts
Fig. 2 is the embodiment of the invention 2 electric boosted control system architecture diagrams.
The specific embodiment
The present invention adopts the feedback signal of dynamic force moment variable quantity as the digital closed loop system, realizes the control to the motor output torque, and further adopts the feedback signal of velocity variable as the digital closed loop system, realizes the protection to electric-control system.
Be further elaborated below in conjunction with drawings and Examples.
With reference to figure 1, Fig. 1 is the electric boosted control system block diagram of a kind of Intellectualized electric assisted bicycle of the present invention, and electric boosted control system comprises storage battery, controller 2, digital sensor 1, DC machine 3 and ride 4 that storage battery is not expression in the drawings.
Be provided with in the controller 2:
Reference velocity digital signal generator 23 is used to set the standard speed digital pulse signal of described DC machine, and with this impulse singla as the reference speed pulse signal to 21 outputs of digital dynamic force moment signal processing circuit;
Digital dynamic force moment signal processing circuit 21, be used for described reference velocity impulse singla and described dynamic digital impulse singla are done the position relatively, obtain the vector of dynamic force moment variable, after the pulse width signal that this dynamic force moment vector and this digital dynamic force moment signal processing circuit were last time exported inversely adds again, as the pulse width signal output of power controlling changer conducting;
Digital Logic interface and power amplifier 22 are used to receive the pulse width signal of digital dynamic force moment signal processing circuit 21 outputs and modulate, and the power controlling pipe is exported corresponding pulse width and driven described DC machine.
Electric boosted control system in the present embodiment is operation like this: the dynamic force moment increment Delta M on the motor wheel shaft
MovingWhen being zero, relative position between the reference burst signal that five equilibrium impulse singla that is sent by digital sensor 1 and reference burst signal producer 21 produce is constant, pulse width between two pulses of promptly comparing is constant, digital dynamic force moment signal processing circuit 21 is also exported a unmodified pulse width signal, export corresponding pulse width by logic interfacing circuit 22 power controlling pipes, provide electric energy to DC machine 3, keep its former steady-state operation; When external force applies when making the dynamic force moment increment non-vanishing, for example, the people puts on foot-operated 4 moment and strengthens, manpower moment strengthen instantaneous, because the effect of the inertia of system, the running velocity of wheel shaft does not become, speed signal that does not become that sends by sensor 1 and spatial position change Δ M
MovingThe five equilibrium impulse singla, in digital dynamic force moment signal processing circuit 21 with spatial position change Δ M
MovingFive equilibrium impulse singla and the reference running velocity digital signal that produces of reference velocity digital signal generator 23 compare and comprehensive, obtain by the pulse width between five equilibrium impulse singla and the reference burst signal at this size and Orientation variable quantity in a flash, with this variable quantity superpose again, comprehensively when the former stable state on the pulse width of digital dynamic force moment signal processing circuit 21 outputs, obtain a ratio last time the pulse width that reduces of output pulse width as the Continuity signal of power controlling pipe.Obviously, in the moment that manpower moment increases, the conducting amount of power tube has reduced, and the electric energy that DC machine obtains reduces.Because the effect of inertia and inductance, in the moment that the dynamic comprehensive moment vector changes, the electric current of DC machine is constant, speed is constant, the minimizing of motor intake, this must make the minimizing or the increase of the voltage of input dc power machine, also must cause the minimizing or the increase of DC machine output torque.And the minimizing of this electrokinetic moment just in time offsets with the recruitment of manpower moment.Like this, moment is in stabilized conditions to the electric booster system of car again.
When the people put on foot-operated moment minimizing, when ground drag or wind-force resistance increased, system also can be because of same principle of work, and moment is adjusted and increases electrokinetic moment, made electric booster system reach new stablizing.
With reference to figure 2, the electric boosted control system architecture diagram of Fig. 2 adds protective circuit 5 on the structure of precedent, and protective circuit 5 comprises that the hypervelocity numeral suppresses circuit 51, Ultra-Low Speed digital signal generator 52 and Ultra-Low Speed digital protection circuit 53; Hypervelocity suppresses circuit 51, the reference velocity impulse singla that real-time speed impulse singla that reception digital sensor 1 sends and reference velocity digital signal generator 23 send, real-time speed impulse singla and pre-set velocity impulse singla are compared, when real-time speed is higher than pre-set velocity, monostable circuit by wherein constantly sends an of short duration pulsewidth and closes gate signal and give described Digital Logic interface circuit 22, thereby suppress the hypervelocity phenomenon, motor is got back on the normal running velocity; Ultra-Low Speed digital signal generator 52, default Ultra-Low Speed number of degrees word pulse signal; Ultra-Low Speed digital protection circuit 53; the Ultra-Low Speed number of degrees word pulse signal that real-time speed impulse singla that reception digital sensor 1 sends and Ultra-Low Speed digital signal generator 52 send; real-time speed impulse singla and Ultra-Low Speed number of degrees word pulse signal are compared; when real-time speed is lower than ultralow speed; send pulse and close gate signal to described Digital Logic interface and power amplifier 22; make not conducting of power tube; thereby the protection electrical motor in startup; under the Ultra-Low Speed state excessive rush current can not appear; when real-time speed increase to surpass ultralow speed, send the pulse enabling signal and give Digital Logic interface and power amplifier 22.
Claims (6)
1. Intellectualized electric assisted bicycle, electric booster system comprise storage battery, controller, digital sensor, DC machine and foot-operated, it is characterized in that,
Described digital sensor, it is coaxial with DC machine, is used for comprising to the transmission of digital dynamic force moment signal processing circuit the dynamic digital impulse singla of real-time moment dynamic-change information and velocity information;
Be provided with in the described controller:
The reference velocity digital signal generator is used to set the standard speed digital pulse signal of described DC machine, and the standard speed digital pulse signal is exported to the digital dynamic force moment signal processing circuit as the reference speed pulse signal;
The digital dynamic force moment signal processing circuit, be used for described reference velocity impulse singla and described dynamic digital impulse singla are done the position relatively, obtain the vector of dynamic force moment variable, again the impulse singla of the power controlling pipe that this dynamic force moment variable and this digital dynamic force moment signal processing circuit were last time the exported pulse width signal of back output power controlling changer conducting that inversely adds;
Digital Logic interface and power amplifier are used to receive the pulse width signal of digital dynamic force moment signal processing circuit output and modulate, and the power controlling pipe is exported corresponding pulse width and driven described DC machine.
2. electric assisted bicycle according to claim 1 is characterized in that, described digital sensor is a position transduser.
3. electric assisted bicycle according to claim 1 is characterized in that, also is provided with the Ultra-Low Speed protective circuit in the described controller, is used for the Ultra-Low Speed protection of DC machine.
4. electric assisted bicycle according to claim 1, it is characterized in that, also be provided with the hypervelocity numeral in the described controller and suppress circuit, be used to receive the reference velocity impulse singla that real-time speed impulse singla that digital sensor sends and reference velocity digital signal generator send, real-time speed impulse singla and pre-set velocity impulse singla are compared, when real-time speed is higher than pre-set velocity, constantly sends an of short duration pulsewidth and close gate signal to described Digital Logic interface and power amplifier.
5. electric assisted bicycle according to claim 3 is characterized in that, described Ultra-Low Speed protective circuit comprises Ultra-Low Speed digital signal generator and Ultra-Low Speed digital protection circuit; The Ultra-Low Speed digital signal generator, default Ultra-Low Speed number of degrees word pulse signal; The Ultra-Low Speed digital protection circuit; receive the Ultra-Low Speed number of degrees word pulse signal that real-time speed impulse singla that described digital sensor sends and Ultra-Low Speed digital signal generator send; real-time speed impulse singla and Ultra-Low Speed number of degrees word pulse signal are compared; when real-time speed is lower than ultralow speed; send pulse and close gate signal to described Digital Logic interface and power amplifier; make not conducting of power tube; when real-time speed increase to surpass ultralow speed, send the pulse enabling signal and give described Digital Logic interface and power amplifier.
6. electric assisted bicycle according to claim 4 is characterized in that, described hypervelocity numeral suppresses to be provided with monostable circuit in the circuit, constantly sends an of short duration pulsewidth by monostable circuit and closes gate signal to described Digital Logic interface and power amplifier.
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CN2007100221377A CN101298276B (en) | 2007-04-30 | 2007-04-30 | Intellectualized electric assisted bicycle |
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CN2007100221377A CN101298276B (en) | 2007-04-30 | 2007-04-30 | Intellectualized electric assisted bicycle |
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CN101298276A CN101298276A (en) | 2008-11-05 |
CN101298276B true CN101298276B (en) | 2011-08-24 |
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WO2016154832A1 (en) * | 2015-03-28 | 2016-10-06 | 东莞市台铃车业有限公司 | Electric vehicle having intelligent power adjustment function |
CN113911254B (en) * | 2021-10-28 | 2023-04-07 | 南京懂玫驱动技术有限公司 | Motor and electric power-assisted bicycle driving system |
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