JP6391846B2 - Electric assist bicycle - Google Patents

Description

  The present invention relates to an electric assist bicycle, and more particularly, to an electric assist bicycle including an electric device other than an assist motor.

2. Description of the Related Art Conventionally, a bicycle equipped with a dedicated device around the rotation axis of the handle is known in order to reduce the breakage of the handle that is likely to occur at a low vehicle speed such as when the bicycle is started.
In Patent Document 1, an electric steering device that applies a driving force by a motor to a rotating shaft of a handle is applied, and an appropriate reaction force is applied based on a steering angle, an operation pressure, or the like of the handle, thereby breaking the handle. An electrically assisted bicycle is disclosed that is prevented.

JP 2011-5935 A

  When electric power is supplied to both the assist motor and the electric steering device by a single battery as in the electric assist bicycle described in Patent Document 1, if the battery management is not executed, the remaining battery level is low. Both are driven equally until just before zero. However, in patent document 1, the examination about the optimal battery management when a battery remaining charge fell is not made.

  An object of the present invention is to solve the above-described problems of the prior art and to provide an electrically assisted bicycle that performs optimum battery management when the remaining battery level is reduced with respect to an assist motor and an electric steering device.

  In order to achieve the above object, the present invention provides a vehicle body frame (9) on which a front fork (8) pivotally supporting a front wheel (WF) is pivotally supported, and a steering stem of the front fork (8) ( 7) A steering wheel (3) fixed to the pedal, a pedal crank (10) for inputting the pedal depression force of the driver, and an assist for applying auxiliary force to the rear wheel (WR) or the front wheel (WF) rotated by the pedal depression force. A motor (52), a steering assist device (40, 50) for applying an assisting force to the steering stem (7), and a battery for supplying electric power to the assist motor (52) and the steering assist device (40, 50) (B), an electric assist bicycle (1, 1a) that controls power supplied to the assist motor (52) and the steering assist device (40, 50). The battery management control unit (55) includes a battery management control unit (55). When the remaining battery level of the battery (B) decreases, the battery management control unit (55) compares the assist motor (52) and the steering assist device with those before the decrease. (40, 50) is performed to reduce the power supplied to one of the assist motor (52) and the steering assist device (40, 50), and the other is given priority. There is a first feature in that it includes control for further reducing the power supplied to the.

  The battery management control unit (55) prioritizes power supply to the steering assist device (40, 50) when the battery remaining amount is less than a predetermined amount, and supplies power to the assist motor (52). There is a second feature in that control is performed to further reduce the.

  The battery management control unit (55) prioritizes power supply to the steering assist device (40, 50) when the remaining battery level is equal to or less than a first threshold (W1, W4), and the assist motor There is a third feature in that the control to start the reduction of the power supplied to (52) is performed first.

  Further, when the remaining battery level of the battery (B) becomes equal to or less than a second threshold value (W2) smaller than the first threshold value (W1), the battery management control unit (55) 50) and a reduction rate of the power supplied to the assist motor (52) is set between the first threshold (W1) and the second threshold (W2). A fourth feature is that control is performed to make the rate greater than the decrease rate.

  The battery management control unit (55) further includes a priority drive selection switch (29) that selects which of the assist motor (52) and the steering assist device (40, 50) is to be prioritized. When the battery level of the battery (B) is less than a predetermined amount, one of the assist motor (52) or the steering assist device (40, 50) is selected according to the selection result by the priority drive selection switch (29). There is a fifth feature in that control is performed to supply power with priority given to.

  According to the first feature, the battery management control unit (55) for controlling power supplied to the assist motor (52) and the steering assist device (40, 50) is provided, and the battery management control unit (55). Performs control to reduce the power supplied to the assist motor (52) and the steering assist device (40, 50) when the remaining battery level of the battery (B) decreases compared to before the decrease. Since the control includes giving priority to power supply to either the assist motor (52) or the steering assist device (40, 50) and further reducing the power supplied to the other, the assist motor and the steering assist device. Any of the functions can be sustained for a long time. Furthermore, it is possible to avoid a situation in which the assist motor and the steering assist device stop unexpectedly at the same time due to the battery running out.

  According to the second and third features, the battery management control unit (55) prioritizes power supply to the steering assist device (40, 50) when the battery remaining amount is less than a predetermined amount, and the assist Control for further reducing the power supplied to the motor (52), or the battery management controller (55), when the remaining battery level is equal to or less than a first threshold (W1, W4), the steering assist device Since priority is given to power supply to (40, 50) and control to start reduction of power supplied to the assist motor (52) is performed first, the loading capacity of the front basket or child seat attached at the low speed or in front of the steering wheel The function of suppressing the wobbling of the handle that tends to occur when the angle is large can be maintained for a long time.

  According to a fourth feature, when the remaining battery level of the battery (B) becomes equal to or less than a second threshold (W2) smaller than the first threshold (W1), the battery management control unit (55) The reduction of the supply power to the steering assist device (40, 50) is started, and the decrease rate of the supply power to the assist motor (52) is set to the first threshold value (W1) and the second threshold value (W2). Therefore, even if the remaining battery level is reduced to near zero, priority is given to the power supply to the steering assist device. While suppressing the wobbling of the handle, it is possible to extend the time until the remaining battery level becomes zero.

  According to a fifth feature, the battery management system includes a priority drive selection switch (29) for selecting which of the assist motor (52) and the steering assist device (40, 50) is to be prioritized. When the remaining battery level of the battery (B) is less than a predetermined amount, the control unit (55), depending on the selection result by the priority drive selection switch (29), the assist motor (52) or the steering assist device ( 40, 50) is performed with priority given to power supply, so that battery management according to the driver's desire is possible. For example, when the load amount is small and the possibility that the steering wheel will fluctuate is low, it is possible to make a selection such as giving priority to the power supply to the assist motor even if the remaining battery level is reduced to near zero.

1 is a left side view of an electrically assisted bicycle according to an embodiment of the present invention. It is a block diagram which shows the structure of the control system of an electrically assisted bicycle. It is a graph which shows the relationship between the battery remaining amount of a battery, and a supply electric power ratio (equipped with an electric steering device and an electric steering damper). It is a graph which shows the relationship between the battery remaining amount of a battery, and a supply electric power ratio (equipped with only an electric steering damper). It is a top view of a handle switch. It is a figure which shows the modification of the attachment position of an electric steering damper and an electric steering device.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a left side view of an electrically assisted bicycle 1 according to an embodiment of the present invention. The electrically assisted bicycle 1 includes a head pipe 6 positioned in front of the vehicle body, a down frame 9 as a vehicle body frame extending rearward and downward from the head pipe 6, and a seat pipe 18 rising upward from the rear end of the down frame 9. Prepare. A front fork 8 extending downward is steerably connected to the head pipe 6, and a front wheel WF is pivotally supported at the lower end of the front fork 8.

  A handle 3 is provided at the upper end of a steering stem 7 pivotally supported on the head pipe 6, and a handle grip 2 and front and rear wheel brake levers 17 are attached to both ends of the handle 3. Between the left and right handles 3, a child seat 4 serving as a front basket and a footrest 5 are attached. A box-shaped handle switch 30 is attached to a position adjacent to the handle grip 2 of the left handle 3.

  A rear fork 13 extending rearward is disposed at the rear end of the down frame 9, and a rear wheel WR is pivotally supported at the rear end of the rear fork 13. A pair of left and right stays 14 are disposed between the upper portion of the seat pipe 18 and the rear portion of the rear fork 13.

  The down frame 9 and the rear fork 13 support the assist unit P. A seat post 19 that can adjust the vertical position of the seat 15 is supported on the seat pipe 18. A battery B that supplies electric power to the assist unit P is detachably attached to the body frame side behind the seat pipe 18.

  A pedal crankshaft 27 extending in the vehicle width direction is disposed through the assist unit P and the drive sprocket 12. A crank 10 having a pedal 10 a is fixed on both sides of the pedal crankshaft 27, and rotational torque is applied to the pedal crankshaft 27 when a driver steps on the pedal 10 a and pedals.

  A drive sprocket 12 is attached to the pedal crankshaft 27 via a one-way clutch, and the rotation of the drive sprocket 12 is transmitted to the driven sprocket 12a of the rear wheel WR via the drive chain 11. As a result, the resultant torque of the rotational torque applied by the driver to the pedal crankshaft 27 and the assist torque applied by the assist unit P is transmitted to the rear wheel WR.

  The case 51 of the assist unit P includes an assist motor 52 and a control unit 53 that drives the assist motor 52. The rotational driving force of the assist motor 52 is applied to the drive sprocket 12 via a speed reduction mechanism.

  The hub 20 of the front wheel WF is provided with a vehicle speed sensor 26, and the pedal pedal force sensor 25 for detecting the pedal effort by the driver is provided on the crank pedal shaft 27. The vehicle speed sensor 26 includes a magnet provided inside the hub 20 and a hall element that detects passage of the magnet. Further, the pedal depression force sensor 25 is a non-contact type magnetostrictive sensor disposed close to the pedal crankshaft 27. The structure and arrangement of the vehicle speed sensor 26 and the pedal depression force sensor 25 can be variously modified.

  The control unit 53 calculates the force by which the driver steps the pedal 10 in the vertical direction based on the rotational torque value detected by the pedal depression force sensor 25, and the assist ratio according to the depression force and the vehicle speed of the electrically assisted bicycle 1. The assist motor 53 is controlled so that the assist torque determined by is generated.

  The electrically assisted bicycle 1 is provided with an electric steering damper 40 and an electric steering device 50 as steering assist devices. The electric steering damper 40 has its main body fixed to a mounting stay 21 provided on the down frame 9, and a swinging arm extending to the front side of the vehicle body is connected to the steering stem 7. Thereby, a damping force of an arbitrary magnitude can be applied to the turning operation of the handle 3 without changing the basic configuration of the vehicle body. The electric steering device 50 is fixed to the front of the head pipe 6 and is configured to be able to give an arbitrary turning assist force to the steering stem 7 by a motor built in the main body.

  The electric steering damper 40 and the electric steering device 50 suppress the wobbling of the steering wheel 3 that is likely to occur at the time of starting or the like according to the sensor outputs of the vehicle speed sensor 26 and the pedal depression force sensor 25, or by unevenness on the road surface. Control is performed so that the stability when an external force is applied to the handle 3 is maintained. The driving mode of the steering assist device for each sensor signal can be derived from a preset data table.

  FIG. 2 is a block diagram showing the configuration of the control system of the electrically assisted bicycle 1. The electric steering damper 40 is configured to be able to adjust the damping force based on a control signal from the control unit 32. The assist control unit 54 of the control unit 53 drives the assist motor 52 on the basis of sensor outputs of the pedal depression force sensor 25 and the vehicle speed sensor 26 and also drives a steering assist device including the electric steering damper 40 and the electric steering device 50. . The control parameters of the assist motor 52 and the steering assist device may include the sensor output of the roll angle sensor 28 that detects the roll angle of the vehicle body and the rotation speed in the roll direction.

  The control unit 53 receives the sensor output of the battery remaining amount sensor S. In the present invention, a battery management control unit 55 is provided that changes the mode of power supply to the assist motor 52 and the steering assist device when the remaining battery level is low. Depending on the sensor output of the battery remaining amount sensor S, for example, the battery management control unit 55 supplies power to the steering drive device so that the drive time of the steering assist device becomes longer even if the power supply to the assist motor 52 is reduced. Control that prioritizes supply can be executed.

  FIG. 3 is a graph showing the relationship between the remaining battery power W of the battery B and the supplied power ratio (%). This graph corresponds to a case where both the electric steering damper 40 and the electric steering device 50 are provided as steering assist devices. The supplied power ratio is the ratio of the power supplied in the same driving situation when the remaining battery level is low, assuming that the normal supplied power in each driving situation when the remaining battery level is sufficient is 100%. is there.

  In the present embodiment, when the remaining battery level decreases to be equal to or lower than the first threshold value W1, the battery management control unit 55 changes the priority of the supplied power. Specifically, while giving priority to the power supply of the auxiliary power unit, the power supply ratio (graph B) to the auxiliary power unit is maintained at 100% (same as when the remaining battery level is greater than the first threshold W1), The power supply ratio (graph A) to the assist motor 52 is reduced at a predetermined reduction rate. As a result, it is possible to increase the drive time of the steering assist device by reducing the power supply to the assist motor 52.

  Further, when the remaining battery level becomes equal to or less than the second threshold value W2, the reduction rate of the power supply ratio to the assist motor 52 (graph A) is increased even though the reduction of the power supply ratio to the steering assist device is started. It is configured. When the remaining battery level becomes equal to or lower than the third threshold value W3, the power supply to the assist motor 52 becomes zero, and the power supply to the steering assist device decreases at a predetermined decrease rate until the remaining battery level becomes zero. Will continue.

  As an aspect of the steering assist device, a configuration including only the electric steering device 50 or a configuration including only the electric steering damper 40 is conceivable.

  FIG. 4 is a graph showing the relationship between the remaining battery power W of the battery B and the supplied power ratio (%). This graph corresponds to the case where only the electric steering damper 40 is provided as the steering assist device. Since the electric power consumption part of the electric steering damper 40 is only the motor that opens and closes the valve that increases and decreases the cross-sectional area of the oil passage, the electric power consumption is significantly smaller than that of the electric steering device 50.

  In accordance with this, in the present embodiment, the ratio of the power supplied to the electric steering damper 40 (graph D) is set to 100% until immediately before the remaining battery level becomes zero. Specifically, when the remaining battery level becomes equal to or less than the fourth threshold value W4, only the power supply ratio (graph C) to the assist motor 52 is decreased at a predetermined decrease rate. Thereafter, the power supply ratio to the assist motor 52 is gradually reduced until the remaining battery level becomes the fifth threshold value W5 or less, while the power supply ratio to the electric steering damper 40 is still kept at 100%. .

  The power supply ratio to the electric steering damper 40 is reduced at a predetermined reduction rate only after the remaining battery level becomes equal to or less than the sixth threshold value W6 that is close to zero. As a result, the same damping force control as when the remaining battery level is sufficient is executed until immediately before the remaining battery level becomes zero.

  Note that when the fourth threshold value W4 shown in FIG. 4 is less than or equal to the threshold value, the power supply ratio to the assist motor 52 is decreased, while the power supply ratio to the steering assist device is maintained. It has the same property as the indicated threshold value W1.

  In addition, as an aspect of the supply power ratio, it is conceivable that when the remaining battery level becomes equal to or less than a predetermined threshold, the power supply ratio to the steering assist device and the assist motor 52 starts to be reduced simultaneously with different reduction rates. In this case, it is possible to lengthen the effective time of damping force control while suppressing the total power consumption by making the decrease rate of the power supply ratio to the assist motor 52 larger than the power supply ratio to the steering assist device. .

  FIG. 5 is a plan view of the handle switch 30. The handle switch 30 functions as an interface including an operation switch and an indicator. The case 31 of the handle switch 30 is provided with an operation mode changeover switch 29 for switching the operation mode of the steering assist device, and indicators 37, 38, 39 indicating the current operation mode, in addition to the speedometer 32 and the battery fuel gauge 33. ing. The indicators 37, 38, and 39 correspond to an “off mode” that minimizes the influence of the steering assist device, a “soft mode” that is a standard setting, and a “hard mode” that has a larger input to the steering system than the standard setting. Each time the operation mode switch 29 is pressed, the lighting position is switched. Thus, not only the operation mode is automatically set according to the vehicle speed and the pedal depression force, but also the adjustment according to the driver's preference can be made and the current operation mode can be notified to the driver.

  Furthermore, the handle switch 30 includes a priority drive selection switch 34 that selects which of the steering assist device and the assist motor 52 is to be driven with priority when the remaining battery level is equal to or less than the first threshold value W1. The driver is informed by the indicators 36 and 37 indicating the current selection status. As a result, not only the priority mode is automatically set according to the remaining battery level, but also when the load is small and the handle 3 is unlikely to fluctuate, the remaining battery level may be reduced to near zero. Settings according to the driver's preference, such as giving priority to power supply to the assist motor, can be made.

  The operation mode changeover switch 29 can also be used as a power switch of the electrically assisted bicycle 1. On the other hand, when the sensor output from the vehicle speed sensor or the like is not present for a long time, the power supply is automatically turned off. Can do.

  FIG. 6 is a view showing a modified example of the mounting positions of the electric steering damper 40 and the electric steering device 50. In this modification, a stay is provided on the side of the head pipe 6 so that the electric steering damper 40 is disposed adjacent to the left side of the head pipe 6 in the vehicle width direction, and the electric steering device 50 is positioned on the right side of the head pipe 6 in the vehicle width direction. Is arranged. According to this modification, it is possible to obtain a steering assist device that concentrates mass without touching when the driver gets on and off.

  It should be noted that the configuration of the electrically assisted bicycle, the configuration and mounting structure of the electric steering damper, the configuration and mounting structure of the electric steering device, the setting of the damping force of the electric steering damper and the relationship with each sensor output, the remaining battery level is below a predetermined threshold The setting of the power supply ratio in the case of becoming is not limited to the above embodiment, and various changes can be made.

  DESCRIPTION OF SYMBOLS 1 ... Electric assist bicycle, 3 ... Handle, 6 ... Head pipe, 7 ... Steering stem, 9 ... Down frame, 10 ... Crank, 10a ... Pedal, 25 ... Pedal pedal force sensor 25 ... Vehicle speed sensor, 40 ... Electric steering damper (steering) Assist device), 50 ... electric steering device (steering assist device), 52 ... assist motor, 55 ... battery management controller, B ... battery, P ... assist unit, W1, W4 ... first threshold, W2 ... second Threshold

Claims (5)

A vehicle body frame (9) on which a front fork (8) pivotally supporting a front wheel (WF) is pivotally supported; a handle (3) fixed to a steering stem (7) of the front fork (8); A pedal crank (10) for inputting the pedal depression force of the driver, an assist motor (52) for applying an assist force to the rear wheel (WR) or the front wheel (WF) rotated by the pedal depression force, and the steering stem (7) A power assist bicycle (1, 50) having a steering assist device (40, 50) for applying an assist force to the motor, and a battery (B) for supplying electric power to the assist motor (52) and the steering assist device (40, 50). In 1a)
A battery management controller (55) for controlling power supplied to the assist motor (52) and the steering assist device (40, 50);
When the remaining battery level of the battery (B) decreases, the battery management control unit (55) reduces the power supplied to the assist motor (52) and the steering assist device (40, 50) compared to before the decrease. Including control for giving priority to power supply to one of the assist motor (52) and the steering assist device (40, 50) and further reducing power supplied to the other. ,
The battery management control unit (55) prioritizes power supply to the steering assist device (40, 50) when the battery remaining amount is less than a predetermined amount, and further supplies power to the assist motor (52). Control to decrease,
The decrease in the power supplied to the assist motor (52) is to gradually decrease the power supply ratio at a predetermined rate.
The decrease in the supply power to the steering assist device (40, 50) is to gradually decrease the supply power ratio at a predetermined decrease rate,
When the power supply ratio of the assist motor (52) becomes zero, the power supply of the steering assist device (40, 50) is continued,
Within the period from when the power supply ratio of the assist motor (52) starts to decrease to zero, the rate of decrease in the power supply ratio of the steering assist device (40, 50) is the same as that of the assist motor (52). An electrically assisted bicycle characterized by being always smaller than the decreasing rate of the supplied power ratio. The reduction rate of the power supply ratio of the assist motor (52) varies depending on the remaining battery level.
The power-assisted bicycle according to claim 1, wherein the rate of decrease is greater when the remaining battery capacity is lower than when the remaining battery capacity is greater.   The battery management control unit (55) prioritizes power supply to the steering assist device (40, 50) when the remaining battery level is equal to or less than a first threshold (W1, W4), and the assist motor (52). The power-assisted bicycle according to claim 1, wherein a control for starting a decrease in the power supplied to the first is performed. The reduction rate of the power supply ratio of the assist motor (52) varies depending on the remaining battery capacity,
The rate of decrease is greater when the battery level is lower than when the battery level is high,
When the battery remaining amount of the battery (B) becomes equal to or smaller than a second threshold (W2) smaller than the first threshold (W1), the battery management control unit (55) is configured to operate the steering assist device (40, 50). Start to reduce the power supply to
The electric assist according to claim 3, wherein a reduction rate of the power supply ratio of the assist motor (52) below the second threshold (W2) is larger than a reduction rate at the start of the reduction. bicycle. A priority drive selection switch (29) for selecting which of the assist motor (52) and the steering assist device (40, 50) is to be prioritized;
The battery management control unit (55) gives priority to the steering assist device (40, 50) according to a selection result by the priority drive selection switch when the battery remaining amount of the battery (B) is less than a predetermined amount. The power-assisted bicycle according to claim 1, wherein power supply control is performed.

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