RU2008091C1 - Disintegrator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: disintegrator has body with disintegrating members formed as end wheels, which are positioned one within the other. At least one small-diameter wheel with individual electric engine is mounted in large-diameter wheel of disintegrator. All electric engines may be driven for subsequent or simultaneous operation. EFFECT: simplified construction 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 productivity, since it is not possible to grind a large number of materials at the same time.

 The closest to the invention in terms of technical nature and the achieved result is a disintegrator [2], comprising a feed and a receiving hopper mounted on the housing, grinding elements located inside the housing and made in the form of gear end wheels, one of which is larger and the other is smaller in diameter, set in each other.

 The disadvantage of the prototype is also low productivity, since the number of contacting gear pairs is the one where the disintegration process takes place.

 The present invention is based on the task of increasing the performance of the disintegrator.

 This problem is solved in that the disintegrator is equipped with at least one additional gear end wheel of a smaller diameter, also installed in a wheel of a larger diameter, each gear end wheel of a smaller diameter is connected to an electric motor, the number of which is equal to the number of wheels of a smaller diameter, all electric motors are connected with the possibility of alternating or simultaneous operation.

 The introduction into the device of the disintegrator of additional gear end wheels of a smaller diameter associated with a large end wheel, as well as additional electric motors, provides an increase in the number of cutting edges, as well as a change in the power supplied to the device, due to the inclusion of one, two or all electric motors, which allows to achieve increased disintegrator performance.

 A comparable 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 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 contains a supply 1 and a receiving 2 hoppers mounted on the housing 3, grinding elements located inside the housing 3 and made in the form of gear end wheels 4-8. Gear end wheel 4 has a larger diameter and wheels, 8 is smaller. Wheels 5-8 are connected to electric motors 9, the number of which is equal to the number of wheels 5-8 of smaller diameter.

 All electric motors 9 are connected with the possibility of alternating or simultaneous operation. Between the housing 3 and the receiving hopper 2 is installed a magnetic separator 10 with holes 11, in the grooves 12 of which are placed permanent magnets 13.

 The disintegrator works as follows.

 When the motor 9 rotates, the gear end wheels 4-8 begin to rotate. The material prepared for grinding, from the feed hopper 1 enters the gears 4-8, where it is crushed. Insufficiently crushed material (large fractions) does not pass through the holes 11 of the separator 10 and again enters the gears in order to grind the material to the required dispersion.

 To grind sufficiently hard materials, a second, third, fourth electric motor 9 is connected, thereby increasing the performance of the disintegrator. The crushed material passes through a magnetic separator 10 into the receiving hopper 2, and the wear particles of the gears 4-8 create in the grooves 12 of the holes 11 on the magnets 13.

 The use of the proposed device disintegrator can improve its performance through the use of additional end gears with additional electric motors. (56) 1. USSR Copyright Certificate N 863716, cl. C 23 C 13/00, 1981.

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

Claims (1)

 A DISINTEGRATOR, comprising a housing with supply and receiving hoppers, in which grinding elements are located in the form of end wheels installed in each other, electric drives, characterized in that the disintegrator is equipped with at least one smaller diameter gear wheel with an individual electric motor, with this electric motors have the ability to alternate or simultaneous operation.

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