RU96109469A - MINERAL CRUSHERS - Google Patents

Claims (13)

1. A component or assembly characterizing the tip for installation in the rotor of a mineral crusher, where the tip is attached directly or through a holder to the rotor, forming a threshold-like edge that is located mainly across the direction of flow of the pieces of mineral going through the retained bottom layer of pieces of mineral where this stream passes over the edge and exits through the hole in the rotor, while the edge is characterized in that it has a shape, assembled or otherwise made so as to provide an area of increased flow to mineral accelerations with greater depth along the edge section and hold the bottom layer of bulk material, the surface of which in diameter corresponds to a threshold-like edge.  2. A part or assembly characterizing a tip according to claim 1, wherein said threshold-like edge has a V-shaped, U-shaped, or other sash shape.  3. A part or assembly characterizing a tip according to claim 1 or 2, wherein said edge is made of a single part.  4. A part or assembly characterizing the tip according to claim 2 or 3, wherein said V-shaped, U-shaped, or other wing-shaped edge includes a removable wearing section located at its bottom.  5. A tip-specific part or assembly as claimed in claim 1, wherein the tip is a assembly that includes a holder with holes or other means that facilitate assembly of the assembly in the rotor of the mineral crusher.  6. Characteristic tip piece or assembly according to any one of p. 1-5, where the part or assembly, as described here with or without reference to any of the attached drawings.  7. A mineral crusher having a rotor mounted to rotate about a vertical axis, where the parts or assembly characterizing the tip are connected to or form part of the holder, and the holder is connected to the rotor, and the tip forms a threshold-like edge for each bottom layer of retained pieces of mineral, which is located mainly transverse to the direction in which the mineral pieces are passed through it from the retained bottom layer, and the shape of the edge provides the surface formation of the retained bottom layer having a diameter zhelobopodobnuyu shape, which extends along most of the pieces of material ejected from the rotor.  8. The crusher for minerals according to claim 7, where the specified edge has a V-shaped, U-shaped or other sash shape.  9. The crusher for minerals according to claim 7, where there are several specified threshold parts or assemblies.  10. Crusher for minerals according to paragraphs. 7 and 9, where there are three of these threshold-like parts or assemblies.  11. A method of minimizing wear on the tip of a rotating mineral crusher for minerals, having a rotor, into which the material to be crushed is fed along its axis and then moves through the bottom layer of mineral pieces or several bottom layers held by a threshold-like part or assembly and then leaves the rotor, at least at least one annular or peripheral hole, where a significant part of the flow of pieces going through the retained bottom layer or layers of pieces through the tip has an increased depth, which is the result of ochtitelnoy V-shaped, U-shaped or other shapes valvular tip edges disposed transversely to the direction of flow going through the retentate edge bottom layer or layers, wherein the surface of the bottom layer retained in diameter corresponds to the shape of the tip.  12. A method and / or device suitable for known crushers for minerals and providing their improvement.  13. A method of minimizing wear in a rotary mineral crusher having a rotor into which the material to be crushed enters along its axis and then moves through the bottom layer of mineral pieces held by a threshold-like part or assembly and then exits the rotor through at least one ring or a peripheral hole, where a significant part of the flow of pieces of mineral flowing through the retained bottom layer or layers does not come into contact with surfaces parallel to the direction of flow located above and below the tip which results from the preferred V-shaped, U-shaped or other flap shape of the tip edge located across the direction of flow of the pieces through the specified retained bottom layer (s) of the pieces of mineral.