RU136744U1 - CONE VIBRATION CRUSHER - Google Patents

Abstract

A cone vibratory crusher containing an outer cone that is resiliently mounted in the housing, carrying unbalanced vibrators and resiliently connected to the inner cone, characterized in that vibrators are additionally mounted on the inner cone, the vibrators of the outer and inner cones oscillating synchronously and in antiphase, and the elastic elements compress the inner cone to the outside with a given force.

Description

The utility model relates to the field of transport engineering, namely to cone vibration crushers of fine crushing. The most widely used utility model can be used in the construction and mining industries.

Known cone vibration crusher (patent RU No. 2401700 IPC B02C 2/06), comprising a housing with external and internal crushing cones, interconnected and with the housing by elastic elements, and there is a gap between the crushing cones, and an unbalanced vibrator is mounted on the inner cone. Crushing of the material occurs by vertical movement of the inner cone under the action of a vibrator.

The disadvantage of this analogue is the incomplete use of the inertial forces created by the vibrator, due to the fact that the lack of synchronization of the vibrating elements does not allow to create a stable vibro-shock load on the crushed material, and also part of the energy is spent on the deformation of the elastic elements.

The closest in design to the proposed technical solution is a vibration crusher (patent RU No. 2254929 IPC B02C 19/16), containing an outer cone elastically mounted in the housing, carrying unbalanced vibrators, resiliently connected to the inner cone and installed with a gap of a given value. Crushing of the material occurs by vertical movement of the outer cone under the action of a vibrator. Self-synchronization of the mutual oscillations of the cones occurs due to a specially selected combination of masses of the oscillating elements, the gap between the cones and the stiffness of the elastic elements.

The disadvantage of this analogue is the incompleteness of the use of inertial forces created by the vibrator, due to the fact that part of the energy is spent on the deformation of the elastic elements, preventing the convergence of the cones within the specified gap of a given value.

The purpose of the utility model is to increase the efficiency and reduce the energy intensity of the material grinding process.

The elimination of these disadvantages is achieved by the fact that in the proposed design of the cone vibratory crusher containing an outer cone elastically mounted in the housing, carrying unbalanced vibrators and elastically connected with the inner cone. Vibrators are additionally installed on the inner cone, and the vibrators of the outer and inner cones oscillate synchronously and in antiphase, and the elastic elements press the inner cone to the outer cone with a given force.

The essence of the utility model is illustrated by the drawing, where in FIG. 1 shows a structural diagram of a vibratory cone crusher.

The utility model consists of a housing 1, an outer cone 2 with unbalances 3, elastic elements (springs) 4 and 5, an inner cone 6 with unbalances 7.

The utility model works as follows: crushing the material is carried out by mutual vertical movement of the inner 6 and outer 2 cones under the action of vibrators 3 and 7. Since Because vibrators 3 and 7 oscillate in antiphase, when the cones move away from each other, potential energy accumulates in the compressed springs 4 and 5. At the same time, a portion of the source material enters the space between the cones. In the phase of convergence of the cones, they collide, and the impact energy is created due to the exciting force of the unbalances of the vibrators plus the energy of the compressed springs 4 and 5 accumulated in the previous phase (the phase of the cones' exit). The portion of material ground as a result of the impact is discharged from the inter-cone space in the next phase of the cones exit.

The technical result is the following:

- Improving the efficiency of the crusher due to a more complete use of the energy of the vibrators, namely, the accumulation of energy in the compressed springs during the phase of departure of the cones and the summation of the impact energy of the unbalances and compressed springs in the phase of convergence

- An increase in impact force due to the summation of the impact energy of unbalances and compressed springs in the approach phase.

- No energy loss to overcome the resistance force of the springs, creating an initial gap between the cones of analogues.

Claims (1)

A cone vibratory crusher containing an outer cone that is resiliently mounted in the housing, carrying unbalanced vibrators and resiliently connected to the inner cone, characterized in that vibrators are additionally mounted on the inner cone, the vibrators of the outer and inner cones oscillating synchronously and in antiphase, and the elastic elements compress the inner cone to the outside with a given force.

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