NL1028627C2 - Activating device for an auxiliary electric motor for a bicycle has a chain wheel and drive pulley with an activation or switching pulley pulled away from activation pins dependent on the force applied to the pedals - Google Patents

Abstract

Device for activating an auxiliary motor of an electric bicycle has a chain wheel (20), a drive pulley (30), a multiplicity of activation pins (60) and limiting projections (23). To activate the motor switch an activation pulley (70) is withdrawn from the activation pins in an outwards direction.

Description

STARTING DEVICE FOR A RESOURCE FOR A POWER-DRIVEN WHEEL

BACKGROUND OF THE INVENTION

FIELD OF THE INVENTION

The present invention relates to a starting device for an auxiliary power source for an electrically driven bicycle, more in particular to a starting device that can convert pedal force of a rider into a mechanical displacement when the rider turns the pedals of the bicycle, the mechanical displacement can start the auxiliary power source of the electrically driven bicycle.

Description of the prior art

Electrically driven bicycles are very popular with all age groups because they are environmentally friendly and have the advantage that they are easy to use. Up to now, there have been various methods and times for starting the auxiliary power source of an electrically driven bicycle.

For example, initially the electrically driven bicycle was always provided on the left side of the handlebar with a switch that could be operated by the user, but its use was not easy, since the user had to operate the switch manually. Therefore, Japanese patent application 20001-055399 describes a method for detecting the running resistance and the running speed by using a precision control unit, wherein the running data collected and calculated by the precision control unit is then used to the moment of starting the 1028627 2 engine. In addition, Japanese patent applications 2001-301293 and 09-268415 also describe a method for controlling the moment of starting the motor based on the running data measured by a dynamometer, logic circuit and similar electronic elements.

Another method is described in Japanese patent application 11-290777, in which a freewheel shaft is arranged parallel to and between the crankshaft and the output shaft, and a pedal force measuring device is arranged on the freewheel shaft for measuring the pedal force exerted on the bottom bracket, and then the moment the engine is started is controlled based on the pedal force.

As stated above, for most conventional electrically-driven bicycles, the moment of starting the auxiliary power source is controlled by precision electronic control components or a sensor used to sense the running resistance or the pedal force, and then the moment of starting the auxiliary power source regulated on the basis of the running data. By making use of electronic precision elements and complicated measuring instruments, the costs and the number of failures will be correspondingly high. Furthermore, the use of electronic components to assess the pedal force of the user is likely to lead to an incorrect assessment. For example, riders in all age groups may have different pedal forces, so that if the reference value of the pedal force is set to a too high level, this will lead to uncomfortable use, and if the reference value of the pedal force is set to a too low level, this will lead to the incorrect moment of starting the engine.

The present invention is intended to reduce and / or eliminate the disadvantages mentioned above 1028627 3.

BRIEF DESCRIPTION OF THE INVENTION

The main object of the present invention is to provide a starting device for an auxiliary power source for an electrically driven bicycle, which can convert the pedal force of the rider into a mechanical displacement at the moment that the bicycle is moved by steps, and wherein subsequently the mechanical displacement can start the auxiliary power source of the electrically driven bicycle. The device according to the present invention has a simple structure and small dimensions, and can easily be manufactured and assembled.

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BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded view of a starting device for an auxiliary power source for an electrically driven bicycle according to the present invention,

FIG. 2 is an enlarged view of a drive disc according to the present invention,

FIG. 3 is an assembly view of a starting device for an auxiliary power source for an electrically driven bicycle according to the present invention,

FIG. 4 shows an electrically driven bicycle provided with a starting device for the auxiliary power source according to the present invention, FIG. 5 is a plan view of a starting device for an auxiliary power source for an electrically driven bicycle according to the present invention,

FIG. 6 is a side view of a starting device 1028627 4 for an auxiliary power source for an electrically driven bicycle according to the present invention,

FIG. 7 is a plan view when using a starting device for an auxiliary power source for an electrically driven bicycle according to the present invention,

FIG. 8 is a side view when using the starting device for the auxiliary power source for an electrically driven bicycle according to the present invention.

10 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Reference is made to Figs. 1-6, in which a starting device for an auxiliary power source for an electrically driven bicycle according to a preferred embodiment of the present invention is shown, which comprises a sprocket 20, a drive disc 30, a number of positioning springs 40, a pedal arm 50, a number of activation elements 60, an activation disk 70 and a switch 80.

The sprocket 20 is rotatably connected to the frame 10, and the teeth 21 on the periphery of the sprocket 20 engage with a chain 11 connected to the flywheel 12 of the rear wheel, thus forming a drive of the bicycle . A number of openings 22 and a central opening 24 are formed in the sprocket 20, and a number of protrusions 23 are formed on one side of the sprocket 20.

; The drive disk 30 is rotatably mounted on One side of the sprocket 20 in such a way that an axial tube 33 on the side of the drive disc 30 engages in the central opening 24 of the sprocket 20, and a C-shaped retaining member 34 is used to disengage from engagement. of the drive disc 30. A bearing 35 is arranged between the axial tube 33 and the central opening 24. The drive disc 30 is provided with a number of boundary openings 31 which have to be slid over the corresponding protrusions 23 of the sprocket 20, so that the drive disc 30 can rotate relative to the sprocket 20 within the boundaries of the boundary opening 31. On the engagement side of a drive disc 30 in contact with the sprocket 20 is formed by a number of slides 32, each of which progresses obliquely from a shallow end 321 to a deep end 322.

Two ends of the positioning springs 40 are hooked to the drive disc 30 and the sprocket wheel 20, respectively, such that the protrusions 23 come to rest against an end of the boundary openings 31.

The pedal arm 50 is attached to the drive disk 30, and a pedal 13 is provided at the end of the pedal arm 50.

Each of the activating elements 60 comprises a thick part 61 and a thin part 62, and a thread opening 621 is formed in the upper surface of the thin part 62. A return spring 63 is arranged axially on the thin part 62, and the thin part 62 of the activating member 60 is placed in the openings 22 of the sprocket 20 such that the thick part 61 of the activating members 60 rests against the deep end 322 of the respective slides 32.

The activation disk 70 is placed on a different side of the sprocket 20 in such a way that the threaded hole 621 on the thin part 62 of the activation elements 60 is attached to the surface of the activation disk 70 by means of screws.

The switch 80 is located on the same side of the sprocket 20 as the activation disk 70, and when it is activated at the right moment by the 1028627 6 activation disk 70, the auxiliary power source of the electrically driven bicycle will be started.

The moment the pedal 13 is rotated, the pedal arm 50 will rotate, as will the drive disk 30, since it is connected to the pedal arm 50. The rotational movement of the drive disk 30 is limited by the boundary openings 31 and the projections 23 (such as 7), wherein the rotation of the drive disk 30 will cause movement of the protrusion 23 from one end of the boundary opening 31 to the other end thereof, while at the same time the thick part 61 of the activating element 60 gradually will move from the deep end 321 of the slide 32 to the shallow end 321 thereof. After the activation element 60 has been moved to the shallow end 321, the activation element 60 will push the activation disc 70 outward (as seen in Fig. 8). Thus, the movement of the activation disk 70 to the outside will activate the switch 80 in order to switch on the auxiliary power source 14.

It is noted that in contrast to the conventional method of detecting the pedal force of the rider, the device according to the present invention converts the pedal force into mechanical displacement (the movement outwards of the activation disk), and thereafter this mechanical displacement can activate the switch 80 in order to start the auxiliary power source without using any electronic components. Furthermore, the device according to the present invention has a simple structure and small dimensions, and can easily be manufactured and assembled.

Incidentally, the switch 80 is preferably a proximity switch.

With the aid of the device according to the present invention, the auxiliary power source can be started the moment the pedal is rotated, while the auxiliary power source is stopped when the user stops pedaling the bicycle. Since the operation of the auxiliary power source is controlled by mechanical displacement, the risk of undesired activation is eliminated.

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Claims (4)

CLAIMS 1. Starting device for an auxiliary power source for an electrically driven bicycle, comprising: a sprocket that is rotatably connected to a bicycle frame, wherein a number of openings and a central opening are formed in the sprocket, and wherein a number of protrusions are formed on one side of the sprocket is formed, a drive disc rotatably mounted on one side of the sprocket in such a way that an axial tube on one side of the drive disc engages in the central opening of the sprocket, the drive disc being provided with a number of boundary openings that serve to be slid over corresponding protrusions of the sprocket, wherein on a engagement side of the drive disc, which makes contact with the sprocket, a number of slides are formed, each of which gradually slopes from a shallow end to a deep end, a number of positioning springs , wherein two ends of the respective p The locating springs are hooked on the drive disk or the sprocket wheel in order to force the protrusions against one end of the boundary openings. a pedal arm attached to the drive disk, a number of activation elements, each of which has a thick part and a thin part, a return spring being axially arranged on the thin part, and the thin part of the activating element in the openings of the sprocket is placed such that the thick part of the activating elements makes contact with the deep end of the respective slides, an activating disk mounted on another side of 1028627 in such a way that the thin part of the activating elements is attached to a surface of the activating disk, a switch placed on the other side of the sprocket, the activating disk serving to activate the switch, so that when the pedal arm rotates, the sprocket will rotate together with the pedal arm, and when the projections of moving one end of the boundary openings to the other, the thick part of the activation will move elements from the deep end of the slides to the shallow end thereof, so that the activation disk is pushed out to activate the switch. 2. Starting device for an auxiliary power source for an electrically driven bicycle according to claim 1, wherein the drive disc is integral with the pedal arm. 3. Starting device for an auxiliary power source for an electrically driven bicycle according to claim 1, wherein a bearing is arranged between the axial tube of the drive disc and the central opening of the sprocket. A starting device for an auxiliary power source for an electrically driven bicycle according to claim 1, wherein the switch is a proximity switch. 1028627