JP3209291U - Motorbike with control device - Google Patents

Abstract

A motor-equipped bicycle having a control device that effectively satisfies the demand for differentiating use of different riders. A motor-driven bicycle having a control device includes an electrically connected assist motor 11, a battery 12, a microcomputer 3, an acceleration detector 14, and a transmitter 15. The microcomputer was measured by a physical strength monitor. The calculation is performed based on the heartbeat signal of the rider, the power consumption value of the battery output monitored by the microcontroller 13, and the acceleration detection value of the motorized bicycle detected by the acceleration detector. A motor output adjustment signal that can specifically reflect the acceleration performance is generated and transmitted to the microcontroller to control the output of the battery, and adjust the output of the battery to the assisting motor according to changes in the rider's physical strength. Change the power assistance for the bicycle rider. [Selection] Figure 1

Description

  The present invention relates to a bicycle device with a motor, and more particularly, to a bicycle with a motor having a control device.

  Currently, riding on a bicycle or a motorcycle has become an indispensable means of transportation for the general public, and in particular, a bicycle is not only a substitute for walking, but also has an effect of exercise and fitness. Therefore, it is not possible to meet the demands of the current electronic era. Therefore, there is an invention of an electric bicycle (including a power-assisted bicycle and an electric motorcycle), so that it can have environmental protection in addition to fitness and transportation. It has become. However, the electric power system of electric trains achieves the purpose of traffic to the rider with an accelerator, but the acceleration power of the current electric bicycle is mostly controlled manually by the rider, and the electricity is displayed with a meter. It can be used by the rider with the current amount of electricity. However, motorbikes that use electric power due to lack of distribution planning and control are not used by ordinary people, and often use battery power without moderation. After running out of power, it is often necessary to struggle to pedal and face the difficulties of the subsequent strokes, and the feeling of riding and the feeling of use are not good.

  Recently, contractors have developed a motorbike structure having a control device, for example, the “Pedal Assisting System for Bicycle Pedal” patent issued by the Republic of China No. I464089. A bicycle pedaling assistance providing system installed on a bicycle and used for providing assistance during pedaling, the pedaling assistance providing system for a bicycle provided on the bicycle and the bicycle A pedaling speed sensor that is electrically connected to the microcomputer, detects the pedaling speed of the bicycle, and transfers the detected information to the microcomputer as a pedaling speed signal; and is connected to the microcomputer and electrically connected to the microcomputer; The vehicle speed is detected, and the detected information is used as the vehicle speed signal. A vehicle speed sensor for transmission to a computer, a gear supply that is electrically connected to the microcomputer and causes the microcomputer to obtain the current gear or gear ratio of the bicycle; and allows the microcomputer to read at least pedal speed The vehicle speed, the current gear ratio and the assisting data, the ratio value of the vehicle speed and the current gear ratio is defined as the first comparison value, the pedaling speed is defined as the second comparison value, and the first comparison value and The assistance corresponding to the second comparison value is an assistance magnitude determination database that forms an assistance comparison table, and is electrically connected to the microcomputer and provided on the bicycle, and used to provide assistance to the bicycle for progress. The microcomputer is configured to determine the magnitude of the assistance provided by the determination logic, and the microcomputer. Control is performed to output a value having a size determined according to the determination result. Among these, the determination logic is (1) both the first comparison value and the second comparison value are small. In this case, it is determined as low-speed pedaling, and a large assist is output at this time; (2) When both the first comparison value and the second comparison value are in the middle, it is determined as normal pedaling, and the assist during this time (3) When both the first comparison value and the second comparison value are large, it is judged as high-speed pedaling, and at this time, a small assistance is output; (4) A situation other than the above three situations In the above decision logic, the magnitude of the first comparison value is determined by comparing the gear ratio of the bicycle and the normal riding speed section in which the general user rides the bicycle. As a basis for judgment, the size of the second comparison value is The possible range of normal pedaling speed at which the user rides on a bicycle is used as the size judgment and grounds. Is.

  However, the first comparison value and the second comparison value only include three condition parameters, the ratio value of the vehicle speed and the current gear ratio, and the pedaling speed, and the actual physical strength of the rider and the pure human acceleration The performance cannot be specifically reflected, and in the control in which the microcomputer of the patent provides assistance, it is often impossible to make fine individualization adjustments according to differences in physical strength of different riders, The use of different riders cannot be differentiated.

  Therefore, the structure of the above-mentioned prior application cannot actually reflect the actual physical strength and performance of the rider, and the difference in the physical strength of the rider differs in the control provided by the microcomputer of the patent. It is a problem to be solved by the present invention how to improve the shortcomings such as being unable to make fine individual adjustments based on this.

Republic of China Notice No. I464089

  The purpose of the present invention is to have an electrically connected assisting motor, battery, microcomputer, acceleration detector and transmitter, which are combined with the microcomputer and detected by the power consumption value of the battery output monitored by the microcontroller and the acceleration detector. Calculation based on the acceleration detection value of the motorbike, generates a motor output adjustment signal that can specifically reflect the actual physical strength and pure human acceleration performance of the rider, and outputs the output to the battery assist motor to the microcontroller Control, adjust the output of the assisting motor according to changes in the rider's physical strength, change the power assistance for the rider of the motorbike, and effectively satisfy the differentiating use requirements of different riders It is to provide a motorbike having a device.

  In order to achieve the above objects and effects, a motorized bicycle having a control device of the present invention includes a motorized bicycle having an assisting motor, a battery, a microcontroller, an acceleration detector, and a transmitter and electrically connected to each other. The microcontroller controls the power supplied by the battery to the assisting motor, assists the motorbike in progress, and the microcontroller monitors the current output by the battery and defines the power consumption value. The acceleration detector detects the acceleration of the motorized bicycle and generates an acceleration value, and the transmitter transmits the power consumption value and the acceleration detection value to the microcomputer.

  The microcomputer includes a wireless transmission / reception unit and an assistance adjustment unit, the wireless transmission / reception unit receives the power consumption value and the acceleration detection value, and the assistance adjustment unit includes the power consumption value and the acceleration detection value. The wireless transmitter / receiver unit and the transmitter transmit the motor output adjustment signal to the motorized bicycle microcontroller, and the microcontroller adjusts the output of the battery to the assisting motor. , Change the power assistance for motorbike riders.

The present invention certainly overcomes the difficulties and disadvantages facing the technological development of the power control of the assist motor of the current motorbike, and achieves the following advantages.
1. The microcomputer 3 of the present invention is based on the power consumption value 121, the acceleration detection value 141, and the heartbeat signal 21, and the assist adjustment unit 32 calculates the actual physical strength and pure human acceleration performance of the rider. The motor output adjustment signal 321 that can specifically reflect the above is generated, transmitted to the microcontroller 13, the battery output is controlled, and the output of the assist motor 11 of the battery 12 is adjusted based on the change in the physical strength of the rider 4. The power assistance for the rider 4 of the motorbike 1 can be changed to effectively satisfy the demand for differentiating use of different riders 4. 2. The microcomputer 3 further sets the riding route of the horse, calculates the inclination of the set route based on the set route and the acquired sea level altitude, and records the power consumption value recorded by the storage unit 35. 121, acceleration detection value 141, heart rate signal 21, current riding time and riding distance data are calculated, and when the motor output adjustment signal 321 is generated, the power output of the entire stroke is distributed based on the inclination of the set route In addition, the power of the battery 12 of the motorbike 1 can be secured and the rider 4 can be supported to ride to the end of the journey.

It is a plane explanatory view of the structure of the present invention. It is a block diagram of the structural connection of this invention. It is explanatory drawing of the Example of the riding use of this invention.

  Referring to FIGS. 1 to 3, a motorized bicycle having a control device of the present invention includes an assisting motor 11, a battery 12, a microcontroller 13, an acceleration detector 14, and a transmitter 15 and is electrically connected to each other. The microcontroller 13 controls the power supplied by the battery 12 to the assisting motor 11 to assist the advancement of the motorbike 1, and the microcontroller 13 outputs the battery 12. The current is monitored and a power consumption value 121 is defined. The acceleration detector 14 detects the acceleration of the traveling of the motorbike 1 and generates an acceleration value 141. The transmitter 15 The quantity value 121 and the acceleration detection value 141 are transmitted to the microcomputer 3.

  The microcomputer 3 includes a wireless transmission / reception unit 31 and an assistance adjustment unit 32. The wireless transmission / reception unit 31 receives the power consumption value 121 and the acceleration detection value 141, and the assistance adjustment unit 32 The consumption value 121 and the acceleration detection value 141 are calculated, and a motor output adjustment signal 321 is generated. The wireless transmission / reception unit 31 and the transmitter 15 transmit the motor output adjustment signal 321 to the microcontroller 13 of the motorbike 1. The microcontroller 13 adjusts the output of the battery 12 to the assisting motor 11 and changes the power assist of the rider 4 of the motorbike 1.

  The features of each member of the present invention will be further described, and with reference to FIGS. 1 to 3 described above, further including a physical strength monitor 2, which is attached to the rider 4 of the motorbike 1. The physical strength of the rider 4 of the motorbike 1 is monitored, a heartbeat signal 21 is generated, and the fitness monitor 2 wirelessly transmits the heartbeat signal 21 to the microcomputer 3, and the assisting adjustment unit 32 includes The power consumption value 121, the acceleration detection value 141, and the heart rate signal 21 are calculated, and a motor output adjustment signal 321 is generated. The wireless transmission / reception unit 31 and the transmitter 15 send the motor output adjustment signal 321 to the micro of the motorbike 1. The microcontroller 13 adjusts the output of the battery 12 to the assisting motor 11 and changes the power assist for the rider 4 of the motorbike 1. That. Next, the acceleration detector 14 is a gyroscope, the physical strength monitor 2 is a bracelet or a heart rate belt that can support wireless transmission, and the battery 12 is connected to a power cable 122 of the assisting motor 11. . The microcomputer 3 is a kind of mobile phone or tablet PC, and includes a GPS navigation chip 33, a touch display 34, a storage unit 35, and a setting unit 36. The GPS navigation chip 33 is a satellite signal. The setting unit 36 is used to set the riding route of the ride, and the touch display 34 displays the set route route and the location in the process. The storage unit 35 starts recording the power consumption value 121, the acceleration detection value 141, and the heartbeat signal 21 received by the wireless transmission / reception unit 31 from the starting point of the set path, and the assisting adjustment unit 32 includes a GPS navigation chip. 33 calculates the altitude obtained above sea level and calculates the inclination of the set route, Power consumption value 121 憶 unit 35 is recorded, the acceleration detection value 141, and calculates a heartbeat signal 21, generates the motor output adjustment signal 321.

  As shown in FIGS. 1 to 3, before the rider 4 of the motorbike 1 of the present invention uses the present invention, the transmitter 15, the physical strength monitor 2, and the wireless transmission / reception unit 31 are wirelessly connected first. The transmission matching is carried out, and then the riding route of the riding is set via the GPS navigation 33 and the setting unit 36. The touch display 34 displays the set route route and the location of the route pillar, and the wireless transmission / reception unit. 31 starts receiving the power consumption value 121, the acceleration detection value 141, and the heartbeat signal 21 from the starting point for setting the stroke path, and the storage unit 35 receives the received signal and the current horse riding from the starting point of the setting path. Start recording time and riding distance. As described above, the GPS navigation chip 33 acquires the altitude altitude data of the current point from the satellite signal, and the assisting adjustment unit 32 calculates the altitude altitude obtained from the GPS navigation chip 33, and The inclination degree is calculated, the power consumption value 121, the acceleration detection value 141, the heart rate signal 21 and the current riding time and riding distance data recorded by the storage unit 35 are calculated, and the motor output adjustment signal 321 is generated. The wireless transmission / reception unit 31 and the transmitter 15 output the motor output adjustment signal 321 to the microcomputer 13 of the motorized bicycle 1 to change the power assistance for the rider 4 of the motorized bicycle 1 to change the power of the rider 4. Based on the change in physical strength, the output of the battery 12 to the assisting motor 11 is adjusted to the rider 4 of the motorbike 1. Changing the force auxiliary.

  As described above, the calculation of the motor output adjustment signal 321 by the assist adjustment unit 32 is obtained from the calculation of the fluctuation of the manpower output energy and the motor output energy during the riding process, and the calculation is derived as follows. It is.

Based on the kinetic energy theorem, when one external force acts on one object and the kinetic energy increases from E _K0 to E _K , the work performed by this force is W = ΔE _K = E _K −E _K0 = For Fd and constant velocity linear motion, the following equation is derived:
Of which
Where m is the mass, v ₁ and v ₂ are the initial velocity and final velocity of the mass point, respectively, and a is the acceleration. The derivation in the general situation is as follows:

In the present invention, a is the Y-axis acceleration detected by the acceleration detector (13, gyroscope) on the vehicle body, and its application is as follows.
a = hpa + mpa
Among them, mpa is motor output energy (Motor Power) provided by the assisting motor 11, and hpa (human power) is human power output energy, that is, hpa = a-mpa. Since the actual physical strength of the rider is finally reflected, the acceleration of the vehicle body is obtained. Therefore, the present invention uses the acceleration on the Y axis detected by the acceleration detector (13, gyroscope) on the vehicle body as a calculation parameter. Adopted to reflect the actual physical strength and pure human acceleration performance of the rider.

  As described above, the assisting adjustment unit 32 of the microcomputer 3 of the present invention expresses hpampa data in a specific pattern or curve form, and in the process, based on increase / decrease of hpa (fatigue state of human physical strength) The motor output adjustment signal 321 that specifically reflects the actual physical strength and human power acceleration performance from the rider is generated based on the motor output curve formed by the mpa data. To do. The microcontroller 13 of the motorbike 1 adjusts the output of the battery 12 to the assisting motor 11 to change the power assistance of the rider 4 of the motorbike 1.

  Therefore, the present invention further sets the riding path of the riding on the microcomputer 3, and the assisting adjustment unit 32 calculates the inclination of the setting path based on the setting path and the acquired sea level altitude, and stores the storage unit 35. Calculates the power consumption value 121, the acceleration detection value 141, the heart rate signal 21, and the current riding time and riding distance data stored therein, and when the motor output adjustment signal 321 is generated, it is further based on the inclination of the set route. Thus, the power output of the entire stroke can be distributed, the power of the battery 12 of the motorbike 1 can be secured, and the rider 4 can be supported to ride on the end of the stroke.

  Further, the microcomputer 3 further compares the current riding speed of the road condition and the current physical condition of the rider based on the current abnormal time and the riding distance data recorded by the storage unit 35.

As described above, the present invention surely overcomes the difficulties and disadvantages facing the technological development of the power control of the assist motor of the current motorized bicycle, and achieves the following advantages.
1. The microcomputer 3 of the present invention is based on the power consumption value 121, the acceleration detection value 141, and the heartbeat signal 21, and the assist adjustment unit 32 calculates the actual physical strength and pure human acceleration performance of the rider. The motor output adjustment signal 321 that can specifically reflect the above is generated, transmitted to the microcontroller 13, the battery output is controlled, and the output of the assist motor 11 of the battery 12 is adjusted based on the change in the physical strength of the rider 4. The power assistance for the rider 4 of the motorbike 1 can be changed to effectively satisfy the demand for differentiating use of different riders 4.
2. The microcomputer 3 further sets the riding route of the horse, calculates the inclination of the set route based on the set route and the acquired sea level altitude, and records the power consumption value recorded by the storage unit 35. 121, acceleration detection value 141, heart rate signal 21, current riding time and riding distance data are calculated, and when the motor output adjustment signal 321 is generated, the power output of the entire stroke is distributed based on the inclination of the set route In addition, the power of the battery 12 of the motorbike 1 can be secured and the rider 4 can be supported to ride to the end of the journey.

  The detailed description of the present invention according to the above embodiments does not limit the scope of the present invention. Even if a person familiar with the present technology makes changes or adjustments within the scope of the present invention, the important significance of the present invention is not lost and is included in the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Bicycle with motor 11 Auxiliary motor 12 Battery 121 Power consumption value 122 Power cable 13 Microcontroller 14 Acceleration detector 141 Acceleration detection value 15 Transmitter 2 Physical strength monitor 21 Heartbeat signal 3 Microcomputer 31 Wireless transmission / reception unit 32 Auxiliary adjustment unit 321 Motor Output adjustment signal 33 GPS navigation chip 34 Touch display 35 Storage unit 36 Setting unit 4 Rider

Claims (5)

  A motorized bicycle having an assisting motor, a battery, a microcontroller, an acceleration detector and a transmitter and electrically connected to each other, the microcontroller controlling the power supplied to the assisting motor by the battery, and the motorized bicycle And the microcontroller monitors the current output by the battery and defines power consumption values, the acceleration detector detects the acceleration of the motorized bicycle and determines the acceleration value. The transmitter transmits the power consumption value and the acceleration detection value to a microcomputer, and the microcomputer includes a wireless transmission / reception unit and an assist adjustment unit, and the wireless transmission / reception unit includes the power consumption The assist adjustment unit receives the quantity value and the acceleration detection value, calculates the power consumption value and the acceleration detection value, and outputs the motor output adjustment signal. The radio transmission / reception unit and transmitter transmit the motor output adjustment signal to the motorized bicycle microcontroller, the microcontroller adjusts the output of the battery to the assisting motor, and the motorized rider power of the motorized bicycle A motorbike with a control device that changes the assistance.   A fitness monitor, the fitness monitor being worn by a rider of the motorized bicycle, monitoring the fitness of the rider of the motorized bicycle, generating a heartbeat signal, and the fitness monitor The heartbeat signal is wirelessly transmitted to the microcomputer, and the assist adjustment unit calculates the power consumption value, the acceleration detection value, and the heartbeat signal, generates the motor output adjustment signal, and generates the motor output adjustment signal. 2. The motor output adjustment signal is transmitted to the motorized bicycle microcontroller, the microcontroller adjusting the output of the battery to the assist motor and changing the power assist for the motorbike rider. Motorbike with a control device.   The microcomputer is one of a mobile phone or a tablet PC, and includes a GPS navigation chip, a touch display, a storage unit, and a setting unit. The GPS navigation chip uses a satellite signal to indicate the altitude of the current point above sea level. The data is acquired, and the setting unit is used to set the riding route of the horse riding, displays the stroke route set by the touch display and the location in the stroke, and the starting point of the setting route of the storage unit Recording of power consumption values, acceleration detection values, and heart rate signals transmitted and received by the wireless transceiver unit starts, and the assisting adjustment unit calculates the altitude altitude obtained by the GPS navigation chip and calculates the inclination of the set route. And calculating the power consumption value, acceleration detection value, and heart rate signal recorded by the storage unit, Moped having a control device according to claim 2 for generating an over data output adjustment signal.   The motor-driven bicycle having the control device according to claim 1, wherein the acceleration detector is a gyroscope.   The motor-powered bicycle having a control device according to claim 2, wherein the physical strength monitor is an exercise bracelet or a heartbeat belt capable of supporting wireless transmission.