The granulation mechanism of the prior art biomass pellet maker generally includes a cutting mechanism. However, when the cutting mechanism of the current cutting mechanism cuts the finished product, the cutting mechanism cuts the product longitudinally, and cuts by the longitudinal cutting method. When the mechanism cuts the finished product, there is a disadvantage that the cutting efficiency is low, which greatly affects the production efficiency of the biomass particles.
In view of the above problems, the technical problem to be solved by the biomass pellet molding machine is to provide a granulation mechanism for a biomass pellet molding machine capable of improving the cutting efficiency of biomass pellets.
The granulation mechanism of the novel biomass pellet molding machine, wherein a cushion is embedded between the tail of the blade and the first card slot; thus, the vibration damping effect can be exerted on the blade and the blade can be prevented from coming out The first card slot. By providing a rotating shaft in the molding cavity, a plurality of blades for cutting the extruded raw material are connected to the outer peripheral wall of the rotating shaft, and one end of the forming cavity is provided with a motor for driving the rotating shaft, and when the motor drives the rotating shaft to rotate, the setting is set. The blade on the outer peripheral wall of the rotating shaft is rotated circumferentially to realize the cutting of the raw material after extrusion molding, and the utility model adopts the method of rotary cutting to cut off the raw material after extrusion molding, and the cutting mechanism adopting the longitudinal cutting mode. In comparison, the cutting efficiency of the raw materials is greatly improved, thereby improving the production efficiency of the biomass particles.
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