The invention provides an efficient breakage-proof material storage bin which is simple in structure, low in nutlet crushing possibility and high in product quality. The efficient breakage-proof material storage bin comprises a material component, a stock bin component and a discharging component which are arranged from the top to the bottom in sequence, wherein the stock bin component comprises a bin body and a plurality of buffering mesh belt components; an inlet is formed in the top surface of the bin body; an outlet is formed in the bottom surface of the bin body; the buffering mesh belt components are uniformly distributed in the bin body; each buffering mesh belt component comprises a mesh belt body and a plurality of round support pipes; the round support pipes are connected with one another in the bin body in S-shaped manner, so as to ensure that the mesh belt bodies are wound on the round support pipes in an S-shaped manner. During work, a material falls onto the mesh belt bodies from a rotary distributor, and is sufficiently buffered due to the elasticity of the mesh belt bodies, that is, the falling speed of the material is controlled, and impact force generated by falling down of the material is absorbed by the mesh belt bodies. Therefore, the nutlet crushing possibility is greatly reduced. The efficient breakage-proof material storage bin is convenient in processing, low in cost, and high in reliability.