HT1800 Rear Rotating Handle 20V Cordless Hedge Trimmer's Motor Technology Innovation

Ordinary motor windings often have many impurities and high resistance, which causes a large amount of electrical energy to be converted into heat energy and lost when current passes through. Using high-purity copper as the winding material effectively solves this problem. Copper has excellent conductivity. In a high-purity state, the interference of impurities on conductivity is almost eliminated, and the current can flow smoothly in the winding, greatly reducing resistance. After the power loss is reduced, more electrical energy is converted into mechanical energy, providing sufficient power for the trimmer. When trimming hard branches, this motor can output strong torque, drive the blade to penetrate quickly, and complete the cutting in an instant. The whole process is smooth and unobstructed, and will not stagnate due to insufficient power. ​
The machining and assembly accuracy of the motor rotor and stator directly affects its operating state. If the machining accuracy is insufficient, the gap between the rotor and stator is uneven and the position is deviated after assembly, and the motor will generate strong vibration and harsh noise when running. Through precision machining, the dimensional accuracy of the rotor and stator reaches the micron standard, and each component strictly meets the design requirements. The assembly process uses high-precision equipment and rigorous processes to ensure that the gap between the rotor and the stator is uniform and the force is balanced when the motor is running. In this way, the running stability of the motor is significantly improved, the vibration amplitude is greatly reduced, and the noise is also controlled at an extremely low level. Gardeners use the HT1800 rear rotating handle 20V cordless hedge trimmer for a long time, and their hands will not feel uncomfortable due to vibration, nor do they need to endure noisy noise interference, and their work concentration and efficiency can be effectively improved. ​
During pruning operations, the load changes frequently. When encountering branches of different thicknesses, or the temperature of the motor rises after long-term operation, the load will change. In the face of such situations, traditional motors are difficult to adjust their working status in real time, while the motor drive system equipped with advanced electronic control technology has intelligent adjustment capabilities. The system continuously monitors the motor operating parameters and keenly captures load change signals. When the load of thick and hard branches increases, the electronic control technology responds immediately and quickly increases the motor speed and torque. At this time, the motor power is enhanced, the blade cutting speed is accelerated, and the force is increased, easily coping with the challenge of thick branches. When the load is reduced, the system will promptly reduce the motor speed and torque to avoid unnecessary energy consumption and extend the battery life. This intelligent adjustment allows the trimmer to maintain the best working condition, whether it is dealing with soft new branches or hard old branches, and achieve efficient and precise trimming. ​
In urban parks, hedges are rich in shape and require high precision in trimming. It is necessary to keep the overall shape of the hedges regular and to handle the details of the corners. High-purity copper windings ensure stable and efficient power supply to the motor, providing a power basis for precise trimming; precision-machined and assembled rotors and stators ensure smooth operation of the motor to avoid vibration affecting trimming accuracy; electronic control technology automatically adjusts the working state of the motor according to the density and hardness of the hedge branches, so that the blades always cut at the appropriate speed and force, and finally present a hedge landscape with smooth lines and beautiful shapes. ​
The pruning work in the tea garden is intensive and lasts for a long time. When pruning tea trees, we should not only consider efficiency, but also pay attention to the quality of pruning to facilitate the subsequent growth of tea trees. High-purity copper windings reduce power loss, improve motor efficiency, and keep the motor powerful even under long-term high-intensity work; low vibration and low noise characteristics reduce equipment wear and extend motor service life; electronic control technology automatically adjusts motor speed and torque according to the characteristics of branches in different growth stages of tea trees, saving energy while ensuring pruning effects, reducing the number of battery replacements, and greatly improving tea garden pruning efficiency. ​
Technological development is endless, and technicians continue to explore and innovate to further optimize motor performance. For high-purity copper windings, research is conducted on adding special coatings to the surface of copper materials to enhance their antioxidant properties, slow down the rate of resistance increase due to oxidation, and ensure long-term and efficient operation of the motor. In terms of rotor and stator processing, new processing materials and processes are introduced to try to break through the existing precision limits and make the motor run more smoothly. For electronic control technology, algorithms are continuously optimized to improve the system's monitoring sensitivity and adjustment accuracy for load changes, so that the motor can adapt to various complex working conditions faster and more accurately. ​