RU1827281C - Cone inertial crusher - Google Patents

Abstract

SUMMARY OF THE INVENTION: an inertial cone crusher comprises a housing 1 with an outer cone 2, an inner cone 3, and a drive. The drive is made in the form of an electromagnetic winding of the stator 9, creating a rotating magnetic field and covering part of the shaft 4 with a gap 10. The size of the gap 1 is greater than the maximum amplitude of the radial vibrations of the shaft 4. The shaft 4 can be equipped with an additional excitation winding 11. 1 h. P. f-ly, 1 ill. (L C 00 y VI th 00

Description

The invention relates to cone crushers for fine crushing and can be used for crushing various materials, in particular in the food industry.

The aim of the invention is to simplify the design and increase reliability.

The drawing shows a cone inertial drumsumble.

The inertial cone shobilka comprises a housing 1 with an outer cone 2. Inside the cone 2, an inner cone 3 is mounted, mounted on a shaft 4 connected to the drive. In the upper part of the crusher, near the inner cone 3, the shaft 4 is fixed in a spherical bearing 5 with a radial vibration absorber 6, and in the lower part - in a spherical bearing 7 with a shock absorber 8 of axial vibrations. The crusher drive is made in the form of an electromagnetic winding of the stator 9, creating an alternating magnetic field. The stator winding 9 is installed in the housing 1 and covers a part of the shaft 4 with a gap 10, the magnitude of which is greater than the maximum amplitude of the radial vibrations of the shaft 4. The shaft 4 is equipped with an additional excitation winding 11 located inside the electromagnetic winding of the stator 9 and an unbalance (not shown). For output of the finished product, the crusher is equipped with estrus 12.

Inertia cone crusher operates as follows.

When voltage is applied to the electromagnetic winding of the stator 9, a rotating magnetic field arises, transmitting rotation to the shaft 4. In the additional excitation winding 11, when it rotates together with the shaft 4, an electromotive force is generated, which is formed when the stator 9 and the conductors of the winding 11 are made short-circuited . As a result of this interaction, an electromagnetic moment acts on the conductors of the winding 11 to facilitate its rotation. The presence of unbalance provides gyrational rotation of the shaft 4 during its rotation. The crushed material falls between the cones 2 and 3, where it is crushed, and vibration of the cone 3 occurs due to the unevenness of the crushing forces and the effect of unbalance. To compensate for the vibrational forces in the radial direction, a radial vibration damper 6 is used, and in the axial direction, an axial vibration damper 8. To exclude the possibility of impact of the shaft 4 and the winding 11 on the stator winding 9, there is a gap 10 between the windings, the value of which is greater than the maximum amplitude of the radial vibrations of the shaft 4.

This design of the crusher significantly increases the reliability and simplifies the design of the crusher by simplifying the drive. If necessary, a cone can be used in the construction.

h with an upper suspension, except for the variant indicated in the drawing, and also capable of turning in bearings on the shaft 4 under the action of crushing forces. The finished product is removed from the crusher through estrus 12.

Technical and economic advantages of the proposed crusher are to simplify the design and increase the reliability of its operation by simplifying the design of the drive.

Claims (2)

1. A cone inertial crusher comprising a housing with an outer cone, in which an inner housing is mounted, mounted on a shaft connected to the drive; which is made in the form of an electromagnetic stator winding, creating a rotating magnetic field, characterized in that, in order to simplify the design and increase reliability, the electromagnetic the stator winding is installed in the housing and covers part of the shaft with a gap whose value is greater than the maximum amplitude of the radial oscillations of the shaft. 2. The crusher according to claim 1, characterized in that the shaft is provided with an additional an excitation coil located inside the electromagnetic stator winding.