RU2008090C1 - Disintegrator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: disintegrator has body with disintegrating members disposed within body. Disintegrating members are formed as end toothed gears mounted one within the other. Outer side surface of smaller integrating member teeth and inner side surface of large integrating member teeth are provided with cutting edge. Disintegrating members are positioned so as to provide for contacting engagement between their cutting edges and rotation with different speeds of rotation by one drive. EFFECT: increased efficiency and enhanced reliability in operation. 2 dwg

Description

 The invention relates to the field of engineering, and more particularly to devices for grinding homogeneous and dissimilar materials.

 Known disintegrator [1], containing a housing located inside it disintegrating element.

 The disadvantage of the analogue is the low reliability, since it is not possible to grind bulky materials.

 The closest to the invention in terms of technical nature and the achieved result is a disintegrator [2], containing a supply and receiving hopper mounted on the housing, grinding elements located inside the housing and made in the form of gear end wheels installed one in the other.

 The disadvantage of the prototype is also the low reliability and low purity of the process, which is caused by the possible jamming of grinding elements and the presence in the crushed mass of wear products of the teeth of the end wheels, and the wear products cannot be removed from the friction zone and localize them.

 The basis of the invention is to improve the reliability of the disintegrator while increasing the purity of the technological process of grinding dissimilar or homogeneous materials.

 This problem is solved by the fact that cutting edges are made on the outer side surface of the teeth of the smaller grinding element, cutting edges are also made on the inner side surface of the teeth of the larger grinding element, the grinding elements are installed with the possibility of contact interaction between the cutting edges and rotation with different speeds from one drive.

 The introduction into the device of the disintegrator of grinding elements in the form of gear end wheels installed one in the other, with corresponding cutting edges and a magnetic separator ensures reliable grinding (cutting) of dissimilar or homogeneous materials and trapping of magnetic wear particles of the cutting edges of grinding elements, which allows to increase reliability the work of the disintegrator while increasing the purity of the technological process of crushing dissimilar or homogeneous materials.

 A comparative analysis of the inventive disintegrator with the prototype shows that the proposed technical solution meets the criterion of "novelty."

 Comparison of the proposed solutions not only with the prototype, but also with other technical solutions in this technical field allows us to conclude that the invention meets the criterion of "significant differences".

 In FIG. 1 shows a longitudinal section of a disintegrator; in FIG. 2 is a section AA in FIG. 1.

 The disintegrator includes a supply 1 and a receiving 2 hoppers mounted on the housing 3, grinding elements 4, 5, made in the form of gear end wheels 6, 7, installed one in the other. The cutting edges 10 are made on the outer side surface 8 of the teeth 9 (Fig. 2) of the smaller grinding element 4. The cutting edges 13 are also made on the inner side surface of the 11 teeth 12 of the larger grinding element 5. The grinding elements 4, 5 are mounted in the housing 3 on the shafts 14 , 15 in supports 16, 17 with the possibility of contact interaction between the cutting edges 10, 13 and rotation at different speeds from one drive 18. Between the housing 3 and the receiving hopper 2 there is a magnetic separator 19 made in the form of ring grooves 20, inside of which scheny permanent magnets 21.

 The disintegrator works as follows.

 When the gear end wheels 6, 7 rotate at different speeds, the cutting edges 10, 13 of the teeth 9, 12 move relative to each other, as a result of which the milled material is cut by the cutting edges 10, 13. The cutting edges 10, 13 work in this case as " scissors ", as they have the possibility of contact interaction. Part of the material that did not have time to cut, falls down the housing 3, and then with the help of the wheel 7 rises up and again is in the "scissors" between the cutting edges 10, 13. The crushed material passes through the magnetic separator 19 into the receiving hopper 2, and the wear particles the cutting edges 10, 13 settle in the annular grooves 20 on the magnets 21.

 The use of the proposed disintegrator can improve the reliability of work from jamming and increase the purity of the technological process of grinding of dissimilar or homogeneous materials. (56) Copyright certificate of the USSR N 863716, cl. C 23 C 13/00, 1981.

 Disintegrator. Prospect of the Krasnoyarsk Institute of Space Technology. - Ing. Center "Wave Processes and Technologies", 1991.

Claims (1)

 A DISINTEGRATOR comprising a housing with feeding and receiving hoppers, grinding elements located inside the housing in the form of gear end rings mounted in each other, a drive, characterized in that on the outer side surface of the teeth of the smaller grinding element and on the inner side surface of the teeth of the larger grinding element cutting edges, while the grinding elements are installed with the possibility of contact interaction of their cutting edges and rotation with different speeds, and between the housing and mnym hopper magnetic separator mounted.

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