Patent ID: 9377326
Filing Date: 2016-06-28
CPC Classification: B62M,G01D

Claim Text:
1. A power-assisted bicycle, comprising: an electric power-assisted bicycle and a sensor, wherein: said electric power-assisted bicycle has a middle shaft; a sleeve pipe is sleeved around an intermediate section of said middle shaft; said middle shaft and said sleeve pipe are rotatably connected; a chain wheel is mounted on said middle shaft; two pedals are respectively mounted at two ends of said middle shaft; a battery on said electric power-assisted bicycle and a motor controller are connected; and, a motor on a wheel is connected to said motor controller; wherein: said sensor has the following structures and connections: said sensor comprises a sensing element, a power assistance model processor, a digital-to-analog converter (DAC) and an operational amplifier (OPA); wherein firstly, said sensing element is for converting a rotary motion of a rotary wheel with a first ring-shaped groove into an output of a rectangular wave signal; said sensing element comprises said rotary wheel with said first ring-shaped groove, a static wheel with a second ring-shaped groove, a Hall component and a plurality of permanent magnets; said first ring-shaped groove of said rotary wheel is opposed to said second ring-shaped groove of said static wheel; said second ring-shaped groove of said static wheel is embedded within said first ring-shaped groove of said rotary wheel, so as to form an embedded hollow shell having said two wheels relatively rotatable; said first ring-shaped groove and said second ring-shaped groove form a hollow ring where the plurality of said permanent magnets are mounted on said rotary wheel; the plurality of said permanent magnets are arranged circumferentially in an irregular manner; said irregular manner is an irregular radius manner, or an irregular distance manner, or a combination of said irregular radius manner and said irregular distance manner; in said irregular radius manner, the plurality of said permanent magnets are arranged within a ring formed by an inner circle and an outer circle; at least one circle between said inner circle and said outer circle passes through all of said permanent magnets; said inner circle and said outer circle are concentric; at least two of said permanent magnets are at different distances to a center of said inner circle; in said irregular distance manner, a distance between each two neighboring permanent magnets is defined as a permanent magnet distance; at least two of said permanent magnet distances are different; at a surface of said rotary wheel in proximity to said hollow ring, each two neighboring permanent magnets have opposite magnetic poles; all said permanent magnets on said rotary wheel with said first ring-shaped groove have said magnetic poles thereof arranged in an order of N pole, S pole, N pole, S pole, N pole and S pole; at least two of said permanent magnets have different magnetic fluxes; said Hall component is mounted within said hollow ring on said static wheel with said second ring-shaped groove; said Hall component approximates to said permanent magnets and is positioned for sensing said magnetic flux of each permanent magnet; said Hall component is spaced from said permanent magnets; said Hall component is for generating said rectangular wave signal as said output according to said opposite magnetic poles; secondly, said power assistance model processor is a signal form converter for converting a digital signal about a rotation of said rotary wheel into a power assistance model digital signal; said power assistance model processor comprises an identifier for identifying an analog/digital conversion, a wave width and a wave peak, a power assistance origin selector, a magnet rotation velocity calculator, a power assistance model memory and a power assistance model calculator; said identifier is connected to said sensing element; said identifier identifies a width and a peak of each rectangular wave of said rectangular wave signal which is outputted by said Hall component in said sensing element, converts each rectangular wave into respective digital signals and marks each rectangular wave; said identifier outputs a magnet motion digital signal which is marked with magnet position order; said identifier is connected respectively to said power assistance origin selector and said magnet rotation velocity calculator; said power assistance origin selector is connected to said magnet rotation velocity calculator; said magnet rotation velocity calculator receives said magnet motion digital signal which is marked with said magnet position order, outputted by said identifier, and calculates out a rotation velocity of said rotary wheel with said received magnet motion digital signal; then, said magnet rotation velocity calculator sends a rotation velocity digital signal of said rotary wheel into said power assistance origin selector; with said magnet motion digital signal which is marked with said magnet position order and said rotation velocity digital signal of said rotary wheel, said power assistance origin selector determines said rectangular wave which corresponds to a power assistance origin under a certain rotation velocity, namely a power assistance origin magnet; said power assistance origin selector and said magnet rotation velocity calculator are both connected to said power assistance model calculator; said power assistance model memory is connected to said power assistance model calculator; with said power assistance origin magnet determined by said power assistance origin selector and said rotation velocity of said rotary wheel calculated by said magnet rotation velocity calculator, said power assistance model calculator selects out a power assistance model within said power assistance model memory, substitutes said power assistance origin magnet and said rotation velocity of said rotary wheel into said selected power assistance model, and calculates out said power assistance model digital signal corresponding to said substituted power assistance origin magnet and said substituted rotation velocity of said rotary wheel; said power assistance model calculator outputs said power assistance model digital signal; thirdly, said DAC is for converting said power assistance model digital signal into an analog signal of said power assistance model; said power assistance model calculator is connected to said DAC; said DAC converts said power assistance model digital signal of said power assistance model calculator into said analog signal of said power assistance model; and fourthly, said OPA is for converting said analog signals of said power assistance model of said DAC into analog signals of said power assistance model under a rated voltage range; said sensor is connected to said electric power-assisted bicycle as follows; said rotary wheel with said first ring-shaped groove of said sensor and said static wheel with said second ring-shaped groove of said sensor are sleeved around said middle shaft of said electric power-assisted bicycle; said static wheel is mounted on said sleeve pipe around said middle shaft; said rotary wheel is mounted on said middle shaft of said electric power-assisted bicycle; said rotary wheel synchronously rotates with said middle shaft; said rotary wheel and said static wheel are mutually sleeved and embedded for a rotatable connection; said rotary wheel and said middle shaft have the same rotation center; a signal output wire of said OPA of said sensor is connected to a signal input terminal of said motor controller of said electric power-assisted bicycle.