Leading Electric Bicycles Manufacturer in China
UCORE – HANIU – Electric Bikes
No more travel worries! Easy rides make life lighter!
High Rated E-BIKE - Lead Acid Battery for Adults
Ucore manufactures a range of electric vehicles, including electric bicycles, electric tricycles, electric motorcycles, and electric four-wheelers. Our electric bicycles come in various types and many colors can be selected, each designed to meet diverse daily needs. These vehicles provide exceptional convenience for personal travel and transportation, making them a popular choice for modern, eco-friendly mobility solutions.
Model No.: T 70
- Battery:48V/20Ab/60/72V
- Motor:1000W27H
- Controller:12 tube Huayu one-line communication plugging
Model No.: FXIANG
- Battery:48V/20AH/60V/20Ah
- Motor:500W20H
- Controller: 9-tube Huayu one-line controller
Model No.: MYZ
- Battery:48/60V/20AH, 48V-20AH
- Motor:18*1.6H Isha Shen machine
- Controller:Large 6 Tube Wireless Plug
Model No.: YIHU
- Battery:48V/20Ah/60V/20Ah
- Motor:800W24H
- Controller: 6-tube Yuen Long Wireless Plug Controller
Other E-Bikes For Adults
UCORE offers Electric Bicycles that are safe, stylish, environmentally friendly and convenient. With a variety of colors to choose from, vacuum tires, positive Xuanbo motor, and multiple modes of one-touch switching to meet a variety of travel modes.
Model No.: T 60
- Battery:60v20/60v32ah/72v20
- Motor:800W27H
- controller:12 Tube wireless plug
Model No.: DHJ
- Battery:48/60/72 Battery
- Motor: 21 single-wire small electric
- Controller:Nine-tube positive and negative wave module
Model No.: DANIU
- Battery:48v/60v32/72v2
- Motor: 1000W/27H
- Controller:12 Tube Wireless Plug Controller
Model No.: FYING
- Battery:48V/20Ab/60V/20Ah
- Motor:450W18H
- Controller:48V/60V large 6 tubes
Model No.: LKU
- Battery:48/60/7 Battery
- Motor:21 single-wire small motorcycle motors
- Controller:9 Tube Positive
Model No.:TKDS
- Battery:48/60/72V/20AH
- Motor:27*1.7H disc brake motor
- Controller:12 Tube Wireless Plug Controller
Model No.: XAMENG
- Battery:48V/12Ah Batteries
- Motor:14 inch 2.5 high efficiency
- Controller:48V6 Tube Sine Wave Controller
Model No.: XJLING
- Battery:48v12ah/20ah
- Motor:350W
- Controller:48v6 Tube Wireless Controller
Model No.: XYU
- Battery:48V/12Ah Batteries
- Motor:14 inch 2.5 high efficiency 16*1.6 motor
- Controller:48V 6 Tube Sine Wave Wireless Plug Controller
What Kind of Packages We can Offer?
UCORE-HANIU SUPER FACTORY provides flexible packages, including standard, customized, and bulk purchase options. Each package is designed to suit various business scales and industries, ensuring maximum efficiency and profitability.
Standard Packaging
Regular cardboard box with foam padding; each tricycle is partially disassembled to save space.
Advantages:
- Cost-effective and easy to transport.
- Provides good protection, suitable for short-distance or standard shipping.
Reinforced Packaging
Thickened cardboard with internal shockproof foam, reinforced with wooden or metal framing.
Advantages:
- High transportation safety, effectively preventing damage.
- Especially suitable for sea freight or long-distance transportation.
Knocked-Down (KD) Packaging
Tricycles are disassembled into parts, each individually protected.
Advantages:
- Saves transportation space and cost.
- Allows customers to assemble and rebrand according to their preferences.
Customized Packaging
Based on client requirements, including branding, slogans, materials, and dimensions.
Advantages:
- Enhances brand image, suitable for high-end markets.
- Packaging design aligns with the client’s market aesthetics and practical needs.
Start your free trail right away
Getting started is easy, contact UCORE and get a solution for your business.
What Are Motors, Controllers, and Batteries Impact on Electric Vehicle Performance?
The key lies in selecting and optimizing the core components of EVs—motors, controllers, and batteries. These components directly influence how the vehicle performs on the road.
Electric vehicle performance heavily depends on the quality and technology of these core parts. Understanding their roles can help consumers make informed choices and assist manufacturers in optimizing their products for better efficiency and satisfaction.
Let’s delve into each of these crucial components to see how they specifically affect the performance of electric vehicles.
How Does the Motor Affect Electric Vehicle Performance?
The motor is essentially the heart of an electric vehicle, responsible for converting electrical energy into mechanical motion. Its performance determines the vehicle’s power output, affecting speed, acceleration, and overall efficiency.
Different aspects of the motor influence various performance factors:
- Speed and Acceleration: A high-quality motor can provide quicker acceleration and higher top speeds.
- Torque: This determines how well the vehicle can handle inclines and carry heavy loads.
- Efficiency: A more efficient motor uses less energy to produce the same amount of power, extending the vehicle’s range.
There are different types of motors used in EVs, such as brushed and brushless motors. Brushless motors are more efficient and have a longer lifespan because they have fewer moving parts that can wear out. In contrast, brushed motors are simpler and less expensive but may require more maintenance and are less efficient.
Understanding these differences helps in selecting the right motor type for specific performance needs.
Why Is the Controller Crucial for Optimizing Performance?
The controller acts as the brain of an electric vehicle. It manages the flow of electricity from the battery to the motor, regulating speed, torque, and overall drivability.
Here’s how the controller impacts performance:
- Energy Management: A good controller efficiently manages power distribution, which can extend battery life and improve range.
- Driving Experience: It ensures smooth acceleration and deceleration, enhancing comfort and safety.
- Customization: Advanced controllers allow for different driving modes, such as sport or eco, giving drivers more control over performance.
Controllers also play a role in regenerative braking systems, which recover energy during braking and feed it back into the battery. This feature can significantly improve energy efficiency and extend the vehicle’s range.
How Do Batteries Influence Range and Power?
The battery is the energy source of an electric vehicle. Its capacity and chemical composition directly affect how far the vehicle can travel and how much power it can deliver.
Key factors include:
- Capacity: Measured in kilowatt-hours (kWh), a higher capacity battery stores more energy, leading to a longer driving range.
- Chemical Composition: Different battery types have varying energy densities and lifespans.
Common types of batteries in EVs are:
- Lithium-ion Batteries: These are widely used due to their high energy density and long life. They allow for longer ranges and better performance.
- Lead-acid Batteries: Cheaper but heavier and with lower energy density. They are typically used in older or low-cost models.
Choosing the right battery involves balancing cost, weight, and performance requirements. Advances in battery technology continue to improve the range and efficiency of electric vehicles.
What Is the Role of Component Integration in Enhancing Performance?
Integrating the motor, controller, and battery efficiently is essential for maximizing an electric vehicle’s performance. When these components work seamlessly together, the vehicle operates more smoothly and efficiently.
Benefits of effective integration include:
- Optimized Efficiency: Matching the components ensures that energy losses are minimized.
- Improved Reliability: Well-integrated systems are less prone to malfunctions.
- Enhanced Performance: The vehicle can achieve better acceleration, range, and overall responsiveness.
Industry leaders often showcase successful integration through case studies and best practices. For example, some manufacturers develop proprietary systems where the motor and controller are designed specifically to work with their batteries, resulting in superior performance.
Lithium Battery vs Lead-Acid Battery
Choosing between lithium and lead-acid batteries depends on your specific needs, budget, and performance requirements. This article compares both options in terms of efficiency, cost, and suitability to help you make the best choice.
Lithium Batteries
Lighter and More Efficient
Lithium batteries have become the mainstream choice for modern electric vehicles due to their lightweight and high energy efficiency.
With higher energy density and longer lifespan, lithium batteries are ideal for frequent use and long-distance travel. They offer superior performance but come with a higher initial cost.
Lithium batteries weigh only about one-third of lead-acid batteries, significantly reducing the overall weight of the tricycle and improving efficiency. They can endure over 1,500 charge cycles, providing longevity for users who rely on their vehicles daily. Despite the higher upfront investment, the long-term benefits often outweigh the costs.
Lead-Acid Batteries
An Economical Classic Choice
Lead-acid batteries remain widely used due to their affordability and reliable stability in various applications.
Durable and budget-friendly, lead-acid batteries are an ideal option for users with limited budgets. They offer reliable performance but are heavier and have a shorter lifespan compared to lithium batteries.
The low cost and simple maintenance of lead-acid batteries make them appealing for cost-conscious buyers. However, they have a lower energy density and typically last for 300-500 charge cycles. Their heavier weight can affect the tricycle’s speed and handling, making them more suitable for short-distance or less frequent use.
Which Battery Is More Environmentally Friendly?
Environmental impact is becoming a significant concern for many consumers when choosing battery types.
Lithium batteries have an edge in environmental friendliness but require proper recycling. Lead-acid batteries contain lead and must be disposed of carefully to prevent pollution.
The production process of lithium batteries is relatively more environmentally friendly, but they necessitate specialized recycling processes at the end of their life cycle. Lead-acid batteries have a high recycling rate, yet improper disposal can lead to serious environmental contamination due to their toxic lead content. Responsible handling of both battery types is essential to minimize ecological footprints.
Battery Choices for Different Usage Scenarios
For daily commuting, lithium batteries are preferable. For heavy-load transportation, lead-acid batteries may perform better due to their robustness and cost-effectiveness.
If you require a lightweight tricycle for long-distance travel or frequent use, lithium batteries offer the best performance despite the higher cost. Conversely, if your needs involve heavy loads or if budget constraints are paramount, lead-acid batteries provide a sturdy and economical solution. Assessing your specific requirements will guide you to the most suitable battery choice.
How to Extend Your Vehicle's Lifespan?
Electric tricycles have become a popular mode of transportation due to their convenience and eco-friendliness. As with any vehicle, regular maintenance is crucial to ensure safety and prolong the lifespan of your electric tricycle. This guide provides practical tips to help you keep your vehicle in top condition.
I. Basic Maintenance Knowledge
Checking the Battery
Proper battery care is essential for the performance of your electric tricycle. To extend battery life:
- Regular Charging: Charge the battery after each use, even if it’s not fully depleted.
- Avoid Overcharging: Disconnect the charger once the battery is fully charged to prevent damage.
- Temperature Awareness: Keep the battery away from extreme temperatures, both hot and cold.
- Clean Contacts: Ensure the battery terminals are clean and free of corrosion.
Tire Maintenance
Well-maintained tires improve safety and efficiency.
- Regular Inspections: Check tires weekly for signs of wear, cuts, or punctures.
- Proper Inflation: Maintain the recommended tire pressure to prevent flats and improve mileage.
- Alignment Checks: Ensure wheels are aligned correctly to avoid uneven tire wear.
Brake System
A reliable brake system is vital for your safety.
- Routine Checks: Test brakes before each ride to ensure they respond properly.
- Pad Inspection: Examine brake pads monthly for wear and replace them when necessary.
- Brake Fluid: If your tricycle uses hydraulic brakes, check the fluid levels and top up as needed.
II. Advanced Maintenance Tips
Cleaning the Vehicle
Regular cleaning prevents rust and keeps your tricycle looking new.
- Use Mild Detergents: Clean the frame and components with a soft cloth and mild soapy water.
- Avoid High-Pressure Washers: High pressure can force water into electrical components.
- Dry Thoroughly: After cleaning, dry all parts to prevent moisture-related issues.
Lubricating Key Components
Proper lubrication reduces friction and wear.
- Chain Lubrication: Apply bicycle-specific chain lubricant every month or after riding in wet conditions.
- Steering System: Lubricate the steering bearings and pivot points periodically.
- Avoid Over-Lubrication: Excess lubricant can attract dirt, so wipe off any excess after application.
Electrical System Check
Keeping the electrical system in good shape ensures reliability.
- Inspect Wiring: Look for frayed or loose wires and secure them.
- Test Lights: Regularly check all lights and replace bulbs or LEDs as needed.
- Secure Connections: Ensure all plugs and connectors are tight to prevent malfunctions.
III. Seasonal Maintenance
Summer Care
High temperatures can affect your tricycle’s performance.
- Battery Storage: Keep the tricycle in a shaded area to prevent battery overheating.
- Tire Pressure: Hot weather can increase tire pressure; check and adjust accordingly.
- Cooling Periods: Allow the motor to cool down after long rides to prevent overheating.
Winter Care
Keeping the electrical system in good shape ensures reliability.
- Inspect Wiring: Look for frayed or loose wires and secure them.
- Test Lights: Regularly check all lights and replace bulbs or LEDs as needed.
- Secure Connections: Ensure all plugs and connectors are tight to prevent malfunctions.
IV. Common Issues and Solutions
- Unusual Noises: If you hear strange sounds, check for loose parts or lack of lubrication.
- Battery Drain: Sudden decreases in battery life may indicate it’s time for a replacement.
- Reduced Speed: This could be due to low tire pressure or motor issues; inspect both areas.
- Brake Failure: If brakes feel spongy or unresponsive, check the brake pads and fluid immediately.
Regular maintenance is key to ensuring the safety and longevity of your electric tricycle. By following these guidelines, you can enjoy a reliable and efficient ride for years to come. Remember, proactive care not only extends your vehicle’s lifespan but also enhances your overall riding experience.
For more information or professional assistance, feel free to contact Anny at annyz@ucorebike.com. Visit our website at www.ucorebike.com for our latest products and services.