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Energy storage flywheel balance driving type scooter

A technology of flywheel balance and scooter, which is applied in rider driving, vehicle parts, transportation and packaging, etc., and can solve problems such as poor driving balance performance, complex structure, and large rotational resistance

Inactive Publication Date: 2021-04-23
苏州诺雅电动车有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Ordinary scooters can slide about 5-10 meters at a time, and can only be used as toys, and it is difficult to use them as a means of transportation.
There are also scooters in the market that are driven by pedal chains, which have the disadvantages of complex structure and high cost.
[0004] There are electric-driven scooters on the market, which install hub motors on the wheels. The motors are wire-wound motors with silicon steel sheets. This kind of motor has a biting torque, the iron core has eddy current loss, and the rotation resistance is large, making the skateboard The car loses its original sliding function and cannot slide without resistance
[0005] Due to the characteristics of the product, scooters usually use very small wheels, only 6-8 inches. The disadvantages are that the driving balance is poor, the control is difficult, and it is not as stable as a big-wheeled bicycle.

Method used

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  • Energy storage flywheel balance driving type scooter
  • Energy storage flywheel balance driving type scooter
  • Energy storage flywheel balance driving type scooter

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0042] Such as figure 1 It is a view with one front wheel removed, and the present invention is a balance-driven scooter with an energy storage flywheel (4), which adopts a double front wheel parallel manner.

[0043] Such as Figure 1-3 The middle of the legs of the front fork (5) is hollowed out, and the energy storage flywheel (4) is installed on the hollowed out position of the legs of the front fork (5). The fork legs are connected to the front wheel shaft, and two front wheels are respectively installed at the two ends of the shaft.

[0044] Preferably, the front wheel of the scooter is a single-arm front fork (5), and the flywheel (4) is installed on the leg line of the front fork (5). The front fork (5) is a hollow structure with a flywheel (4) placed in the middle. The pinion (3) on the flywheel (4) goes through the fork leg and meshes with the front rim (1).

[0045] Further, holes are opened on the legs of the front fork (5) toward the wheel shaft left and right...

Embodiment 2

[0057] Such as Figure 4 , the present invention adopts a front wheel scheme, and a flywheel (4) is installed on the position of the front fork leg on the side of the scooter front wheel. Flywheel (4) frame connects front axle. Flywheel (4) frame connects front fork (5). A front wheel is installed in the middle of the fork legs.

[0058] The pinion (3) is fixed on the flywheel (4). The inside of the front wheel rim (1) is provided with a large ring gear, the ring gear is an internal tooth type, and the flywheel (4) meshes with the internal tooth gear (2) on the wheel rim (1) through the pinion (3).

[0059] The flywheel (4) is the disc motor (7), which is fixed on the front axle; the disc motor (7) is fixed on the front fork.

[0060] The motor armature (73) wire is connected to the handlebar to realize the manual switch wire controlled electromagnetic braking. The armature line of the motor is connected to the vehicle frame (8) to realize the electromagnetic braking cont...

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PUM

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Abstract

The invention discloses an energy storage flywheel balance driving type scooter. A flywheel of the energy storage flywheel balance driving type scooter is installed on a front fork of the scooter. A large inner gear ring is arranged on the rim. A pinion is fixed on the flywheel and is meshed with the two front wheel rims. When the scooter slides, the rim drives the flywheel to rotate at a high speed to store energy so as to prolong the running distance of the scooter, and the running distance is about 20-50m which is several times that of a traditional scooter. The inertia of high-speed rotation of the flywheel generates a gyroscopic effect, so that the direction of the scooter is stable. The flywheel is replaced by a rotor of the disc type permanent magnet coreless motor, and the armature stator is only provided with a coil, so that the flywheel has the characteristic of no resistance in rotation and is absolutely matched with the scooter. Due to the application of the disc type permanent magnet coreless motor, resistance-free sliding is achieved, power-assisted sliding is also achieved, the continuous sliding function of the scooter is achieved under the condition that a battery and a power source are not used, and short-distance riding instead of walking is achieved.

Description

technical field [0001] The invention relates to a scooter in which human pedaling is converted into driving force. Background technique [0002] At present, the scooter on the market relies on manpower to move forward, and uses the thrust sliding mode produced by pedaling. The sliding principle mainly relies on the speed of stepping and pedaling. [0003] Ordinary scooters can slide about 5-10 meters at a time, so they can only be used as toys, and it is difficult to use them as a means of transportation. The scooter that also has in the market is to add pedal chain drive mode, has complex structure, the disadvantages such as high cost. [0004] There are electric-driven scooters on the market, which install wheel hub motors on the wheels. The motors are wire-wound motors with silicon steel sheets. This kind of motor has a biting torque, the iron core has eddy current loss, and the rotation resistance is large, making the skateboard The car has lost its original sliding fu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B62M1/10B62M6/40
CPCB62M1/10B62M6/40
Inventor 崔晓宏
Owner 苏州诺雅电动车有限公司
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