Chinese medicine cell high-speed blender uses the high-frequency vibration of the cylinder, and the steel ball or steel bar medium in the cylinder impacts the material through inertial force, and the acceleration when the medium impacts the material can reach 10g- 15g, so it has the advantages of compact structure, small volume, light weight, low energy consumption, high yield, concentrated grinding granularity, simplified process, simple operation and convenient maintenance, and can be widely used in precious Chinese medicinal materials and ceramics. A high-speed mixer, a Chinese medicine cell, is characterized in that the underframe support tube elastically lifts the machine body through the support spring, and keeps the flexible connection distance between the driving motor and the vibrating body unchanged. The grinding cylinder is the working body of vibration grinding of the mill, which is used to contain worn media and abrasives. Vibration exciter is used to convert the rotating force of motor into periodic vibration of mill. The lining plate clings to the inner wall of the grinding cylinder to protect the grinding cylinder of the main engine during grinding. ? The working principle of the high-speed mixer for Chinese medicine cells is that a certain amount of grinding media, such as balls, rods or columns made of hard materials, is filled in a grinding drum (crushing chamber), and the grinding drum vibrates clockwise and counterclockwise under the action of external exciting force. The strong vibration of the grinding drum causes the medium in the grinding drum to throw. Under the action of this throwing motion, each medium produces a rotating motion in the same direction as the circumferential vibration. At the same time, the medium group also produces low-frequency revolution motion opposite to the circumferential vibration direction, which lasts for 3-5 weeks. Therefore, the media sometimes scatter and sometimes collide with each other, which produces positive impact force P and transverse shear force L to the material. Under the impact, compression and shearing of P force and L force, materials are ground and broken.