Custom Electric Gardening Tools

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Suzhou Yuyuan Machinery Co., Ltd.
Suzhou Yuyuan Machinery Co., Ltd is China Custom Corded Gardening Tools Manufacturers and Cordless Gardening Tools Suppliers, founded in 2015 and located in Dongshan Town, Suzhou Cit, Suzhou Yuyuan Machinery Co., Ltd. is a professional R&D and manufacturing factory of garden power tools with a construction area of 15,000 square meters, which is dedicated to the production of electric grass trimmers, electric hedge trimmers, electric leaf blowers, nylon grass trimmer lines as well as other garden tool accessories and other products. At present, Yuyuan's products are positioned at the high end, covering professional, garden, home and other power tools category, co-operating with customers all over the world, our products are mainly exported to the United States, Germany, the United Kingdom, Australia, Japan, Spain, Italy, South Korea, Canada, Brazil and so on more than 120 countries, including the world's top five hundred companies more than 10, has become our important overseas suppliers. For now, Yuyuan has chosen to follow the path of independent innovation and refinement of technology, devoting itself to independent intellectual property research and development, acquiring 45 patents and being able to produce more than 800,000 machines annually. Nowadays, Yuyuan Machinery is exploring a positive development path to promote the change and progress of power tools. We offer OEM/ODM Electric Gardening Tools.
Certificate Of Honor
  • Rohs test report
  • ISO9001
  • EMC report
  • UKCA-leaf blower
  • GS-rasen trimmer
  • GS-grass trimmer
  • CE-leaf blower
  • CE-hedge trimmer
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How can manufacturers of corded and cordless electric gardening tools ensure the stability of electric gardening tool motors under long-term operation and reduce overheating and failure rates?

1. Motor design and material selection
High-efficiency motor design:
Consider the energy efficiency ratio of the motor during design and adopt advanced motor design technology, such as permanent magnet synchronous motor (PMSM) or brushless DC motor (BLDC), which usually have higher efficiency and lower heat generation.
Optimize the heat dissipation structure of the motor, such as adding heat sinks and using materials with good thermal conductivity to improve the heat dissipation efficiency of the motor.
Selection of high-quality materials:
Select high-temperature resistant and corrosion-resistant materials to make key components of the motor, such as bearings, windings and housings, to improve the durability and reliability of the motor.
Use high-quality insulation materials to prevent motor failures caused by insulation aging during long-term operation.
2. Control system and protection mechanism
Intelligent temperature control system:
Equipped with a temperature sensor to monitor the temperature of the motor in real time, and automatically reduce the motor speed or shut down when the temperature exceeds the set threshold to prevent the motor from overheating.
Combined with the temperature control algorithm, the intelligent temperature control of the motor is realized to ensure that the motor operates within the optimal operating temperature range.
Overload protection mechanism:
Design an overload protection circuit to automatically cut off the power supply or reduce the output power when the motor load is too large to prevent the motor from being damaged due to overload.
Set reasonable current and power limits to ensure that the motor operates within a safe working range.
3. Heat dissipation and ventilation design
Optimize heat dissipation design:
Strengthen the external heat dissipation design of the motor, such as increasing the heat dissipation area, setting up heat dissipation ducts, etc., to improve the heat dissipation efficiency of the motor.
Set a fan inside the motor or use natural convection to accelerate the air flow inside the motor and reduce the motor temperature.
Ventilation and dustproof design:
Set reasonable vents on the motor casing to ensure that the motor can get sufficient air circulation when working.
At the same time, take dust prevention measures, such as setting up dustproof nets or filters to prevent dust and other impurities from entering the motor to affect heat dissipation and performance.
4. Regular maintenance and care
Cleaning and inspection:
Regularly clean the outside and inside of the motor, remove dust and impurities, and keep the motor clean and ventilated.
Check whether the wiring, bearings, insulation and other components of the motor are intact. If damaged, they should be replaced in time.
Lubrication and tightening:
Regularly lubricate the motor's bearings and other moving parts to reduce friction and wear and reduce heat generation.
Check and tighten the various connecting parts of the motor to ensure that the motor is stable and reliable during operation.

How can corded and cordless power garden tool factories improve battery energy density and cycle life to extend the life of cordless power garden tools?

1. Improve battery energy density
Using high energy density materials:
Cathode material: Choose high-nickel ternary materials (such as NCA, NCM) or lithium-rich materials. These materials have high specific capacity and can significantly increase the energy density of the battery.
Anode materials: Explore the use of silicon-based anode materials, whose theoretical specific capacity is much higher than traditional graphite anodes, which will help further increase the energy density of the battery.
Optimize battery structure design:
By improving the internal structure of the battery, such as optimizing the design of the pole pieces and reducing the internal resistance of the battery, the energy utilization efficiency of the battery can be effectively improved.
Use advanced packaging technologies, such as pouch batteries or solid-state battery technology, to reduce battery size and weight while maintaining or improving energy density.
Improve the intelligence level of battery management system (BMS):
BMS can monitor the working status of the battery in real time, optimize the charging and discharging process of the battery, and avoid the impact of overcharging, over-discharging and other adverse factors on battery performance, thus improving the energy density of the battery to a certain extent.
2. Extend battery cycle life
Optimize battery material formula:
Choose positive and negative electrode materials with better stability and properly proportion the electrolyte to reduce side reactions during the battery charge and discharge process and extend the cycle life of the battery.
Using advanced thermal management technology:
An efficient heat dissipation system is added to the battery pack design to ensure that the battery maintains an appropriate temperature range during charging and discharging, and to avoid battery performance degradation caused by too high or too low temperatures.
Implement scientific charging and discharging strategies:
Develop scientific charging and discharging strategies through BMS, such as limiting charging current, avoiding deep discharge, etc., to reduce damage to the battery and extend the cycle life of the battery.
Strengthen battery maintenance and care:
Regularly inspect and maintain the battery, such as cleaning the battery surface, checking the battery connection cables, etc., to ensure that the battery is in good working condition.