SU759122A1 - Inertial cone crusher - Google Patents

Description

one

The invention relates to cone crushers of fine crushing, in particular to inertial crushers, which have a high reduction rate and are mainly intended for use in non-ferrous metallurgy in the preparation of ores for enrichment.

Most often, the pieces of ore coming from the quarries to the processing plant reach 1.5 m in size. More polished. the guilt of capital, operational and energy costs at the factory falls on the crushing and grinding (5 compartments. Therefore, improvements in crushing and grinding machines give the most significant return in the economic balance of the factories.20

The inertial cone crusher is capable of replacing the eccentric crusher and the partial rod mill, which is very laborious in 25 exploitation. In terms of their technological parameters, such crushers are the most useful machines of such designation known in world practice.

Since inertial crushers are isolated from the Foundation by elastic elements, the interaction of their crushing bodies is based on the third Newton law. The inner cone, which is the source of the crushing force, interacts with the outer cone and the body, which moves counter-phase to the inner one and has aiMnJiH-, tudu, inversely proportional to its mass and moment of inertia. The effect of using the crushing force teM is higher, the less the flexibility of the core, of the pus. Therefore, when designing inertial crushers, they tend to make their hulls most massive, mainly in the lower part, the most distant from the center of the spherical support of the inner horse and having the maximum moment of inertia.

Claims (2)

The number of such additions should include a one-shot crusher of the reference type, including i opnyc and the outer cone. basements on elastic shock absorbers to the supporting metal, and a spherical suspension placed internal cone, equipped with a vibrator and its drive 1. The crusher is distinguished by the installation thunderbolt, structural complexity and high metal content. The moment of inertia of its core is almost 10 times higher than that of the inner horse. This is achieved mainly by increasing the mass of the lower part of the iKOpnyca. Housing flexibility reduces tvhnol.ogicheskie indicators ma, tires. In its technical essence, the inertial, conical rotor for fine crushing, containing an elastically supported body on the foundation with an external cone and a spherical support of the internal cone, whose shaft is equipped with an unbalance driven wigrator connected by means of a coupling with a drive element, is closest to the invention. C2}. . The known shchilka has a small unit cell, it has an operating capacity and is distinguished by its structural simplicity. However, as in the previous con, structures, | its body is characterized by increased massiveness. 7th no less the hull pliability on, the shock absorber reduces the fraction & 1 of the Silurian investigator and the degree of crushing of Oole than on. The hull has an amplitude on ti & tx crushers up to 6 mm. Such amplitude requires special pneumatic shock absorbers, capable of maximally reducing dynamic nagas on the foundation. However, part of the load is still transferred to the foundations. The purpose of the invention: reducing the oscillation of the body hull oscillations. This goal is achieved by the fact that in an inertial conical swarm for small dodoblani containing a housing elastically supported on a foundation with an outer cone spherical ;. supporting the inner cone, on the shaft of which the unbalanced drive vibrator is mounted, connected by means of a coupling to the drive shaft, the vibrating vibratochal element is provided with an additional unbalance load placed opposite to the load of the drive vibrator, while the center weight of the additional unbalance load is located in and is affected by the action of the BIA I a cut of the control center of the vibrator forces, the inner cone and the body and at a distance from the center of the spherical support, determined from the relation G, UATR-M and m, respectively masses of additional unbalance load and vibrator; t and t are, respectively, the masses of the inner cone, and the hull / L and 1-, respectively, the distances of the centers of gravity of the mass of the additional unbalanced load and the mass of the bracer to the center of the spherical support of the inner cone; . r and r5 are the amplitudes of the centers of the body of the inner cone and the body; R n g are the distances of the centers of gravity of the additional unbalanced load and vibrator to the vertical axis of the crusher. The drawing shows the constructive scheme of the crusher crusher and the mutual placement of its elements that determine the dynamic parameters of the machine. | The upholstery includes a housing 2 mounted on elastic shock absorbers 1, provided with an outer cone 3 and a spherical support 4 for the inner cone 5, having a shaft 6 on which a drive vibrator with a weight 7 is placed. The vibrator is installed inside a TFNVD, made in a hollow cylinder 8 with a hub shaft, mounted using podishp-. Nick r hull 2 crusher. The drive is made with a vibrator, for example, a crankshaft-coolist mechanism 9. On the mtnHHjc e 8 a load 10 is fixed, which is opposite to the load of the 7th driver. The coordinates of its center of gravity relate to the axis of the crusher and the center of the spherical support correspond to the given equation. Dropshka has a drive from the electric motor 11 through an elastic lobe collar 12. During operation, 10 dabbing drive vibrator with a load 7, when rotated inside the cylinder 8, creates centrifugal force, causing the inner cone 5 to perform a green movement on the spherical support 4. In this case, the ore, falling into the gap between the cones, is subject to destruction. The inner cone 5, when deviating from the axis of the crushing unit, also creates a centrifugal force applied to its center of gravity. The magnitude of this force is expressed by joy, W is the angular rotational speed of the vibrator. The force of the cone is directed in the same direction as the force of the vibrator P, “m, .r Additional unbalance load 10 counterweight creates a force fn-AI.Ro) directed opposite to the force vibrator (Fj,) and the force generated by the crusher body (Fg), equal to Fg. I make inertial motion in opposite phase to the internal cone. The sum of these forces, reduced to the center of the spherical support, makes it possible to compose the equilibrium condition of the crusher, which is obtained from the equality Ots, that the weight of the counterweight and its placement, which determine the value of W, allows to increase this force and reduce the force Fg by reducing the mass of the hull. An additional increase in FJ minimizes the amplitudes of the body, making it less susceptible to the forces E and F. If (H sets the inner cone in motion, the counterweight causes the body to move in the opposite direction with a minimum lag in phase Due to this, cones similar to the action of crushing cheeks in a jaw crusher are achieved. In this case, the expended energy is used more fully, the efficiency of the crusher is increased and, as a result, its technological performance. Reactor cone crusher for fine crushing, containing a housing elastically supported on a foundation with an outer cone and a spherical support of the inner cone, on the shaft of which an unbalance drive vibrator is mounted, connected by means of a coupling to a {fyodom element. inside 20 25 -Q pr 40 out of reference with sh. and with the fact that, in order to reduce the amplitude of the hulls, the drive element of the brator is provided with an additional balanced load placed opposite to the load of the drive brator, while the center of the weight is full The unbalanced load is located in the plane of the resultant centrifugal forces, vibrator, morning cone and Kojinyca and at a distance from the center of the spherical bore, determined from the relation ni ,, tm, jeir2-ms8jra е М and mf - according to the mass of the additional debalanced load and vibrator; 2. 6, respectively, the masses of the inner cone and the housing L and ty — respectively, the distances of the centers of gravity of the mass of the additional unbalanced weight and the mass of the vibrator to the center of the spherical support of the inner cone ir and r are the amplitudes of the centers of gravity of the internal cone and housing) R and d distances of the centers of gravity of the additional unbalance load and vibrator to the vertical axis of the crusher. Sources of information that are all taken into account in the examination 1. S. Andreev. and others. Crushing, grinding and screening went shk kopakeykh. M., Gosgortekhizdat, 1966, 191, rice, 125. 2. Authors certificate of the USSR 571298, cl. B 02 C 2/04, 1972.