Description
other electric bicycle parts
electric bicycle motor
electric bicycle battery
Parameter | |
Frame | High strength aluminum alloy 6061, surface paint |
Forking forks | One forming front fork and rear fork |
Electric machinery | 11 “72V 10000W brushless toothed high speed motor |
Controller | 72V 70SAH*2 tube vector sinusoidal brushless controller (mini type) |
Battery | 72V 40AH-45AH module lithium battery (Tian energy 21700) |
Meter | LCD speed, temperature, power display and fault display |
GPS | Location and telecontrol alarm |
Braking system | After one disc, does not contain harmful substance, in compliance with international environmental requirements |
Brake handle | Forging brake of aluminum alloy with power breaking function |
Tyre | ZhengXin tire 11 inch |
Headlight | LED lenticular bright headlights and driving lights |
Maximum speed | 110km |
Extension mileage | 115-120km |
Motor | 5000watt per piece |
Wheel | 11inch |
Net weight and gross weight | 54kg/63kg |
Product size | L* w* h: 1300*560*1030 (mm) |
Packaging size | L* w* h: 1330*320*780 (mm) |
Title of this chapter: Self-balancing electric scooter
With the continuous development of technology, people’s demand for travel tools is also constantly escalating. Although traditional bicycles, electric vehicles and other means of transportation can meet basic travel needs, their flexibility and convenience on congested urban roads can no longer meet the pace of modern people’s lives. In this context, self-balancing electric scooters emerged as a new way of travel.
Self-balancing electric scooters, also known as unicycle electric scooters, smart electric balancing scooters, etc., are an electric vehicle with automatic balancing function. Its emergence not only brings great convenience to people’s travel, but also solves the problem of urban road congestion to a certain extent. So, how does a self-balancing electric scooter achieve automatic balancing? How does it work? This chapter will provide a detailed analysis of these issues.
First, let’s take a look at the components of a self-balancing electric scooter. A typical self-balancing electric scooter mainly consists of the following parts: wheels, motor, battery, controller, sensor and remote control (some models). Among them, the motor and battery are responsible for providing power to the scooter, and the controller is the core of the entire system, responsible for coordinating the work of various components. The sensor is used to detect the operating status of the scooter, such as speed, tilt angle, etc., so that the controller can adjust the operating status of the scooter based on this information to achieve automatic balancing.
So, how does a self-balancing electric scooter achieve automatic balancing? This is mainly achieved through sensors. Scooters are usually equipped with multiple sensors such as gyroscopes and accelerometers, which can detect the running status of the scooter in real time, such as speed, tilt angle, etc. When the scooter tilts, the sensors relay this information to the controller. Based on this information, the controller uses the driving force of the motor to adjust the running status of the scooter so that it always maintains a stable balance.
In addition to sensors, the controller of a self-balancing electric scooter also needs to have certain intelligent algorithms. By analyzing and processing the data collected by the sensors, the controller can achieve precise control of the scooter. For example, when a scooter encounters an obstacle while driving, the controller can adjust the driving force of the motor to quickly stop or change direction to avoid a collision. In addition, some advanced self-balancing electric scooters also have remote control functions. Users can control the movement of the scooter through the remote control, which greatly facilitates user use.
Of course, the safety of self-balancing electric scooters is also an issue that cannot be ignored. To ensure user safety, many self-balancing electric scooters are equipped with some safety precautions. For example, in order to prevent scooters from rolling over when driving at high speeds, many models adopt wide tire designs. In addition, in order to ensure that users can brake in time in an emergency, many self-balancing electric scooters are also equipped with safety equipment such as brake lights and horns.
When using a self-balancing electric scooter, users also need to pay attention to the following points:
1. Before use, users need to fully inspect the scooter to ensure that all components are in good working condition. Batteries and tires, in particular, require regular inspection and maintenance.
2. When using a scooter, users need to wear a helmet and other protective equipment to prevent accidents while driving.
3. Users should abide by traffic rules when driving and do not use scooters on sidewalks, driveways and other places that are not suitable for driving.
4. During driving, users should keep driving at a low speed, especially on crowded roads and corners. At the same time, users should also pay attention to their surroundings to avoid collisions with pedestrians or other vehicles.
In short, as an emerging travel tool, self-balancing electric scooters have gradually become more and more popular with more and more people due to their unique design and convenient performance. However, users still need to pay attention to safety issues during use to ensure the safety of themselves and others. Only in this way can self-balancing electric scooters better bring convenience to our daily travels.