SU845835A1 - Cone inertia crusher - Google Patents

Description

The invention relates to cone crushers of fine crushing, the crushing force in which is created by the centrifugal force of the rotors rotating can be used in the mining industry instead of eccentric crushers of fine crushing and rod drum mills.

Known inertial cone crusher, comprising a frame with an outer cone and placed inside a spherical bearing inner cone with a shaft on which a rocker is mounted by a hinge with two unbalance samosinhronizirovannymi vi- _t bratorami D1Nedostatkami at the ends of the crushers are structural complexity, low reliability and low technological parameters of that due to the high weight of the hammer ₂ (inner cone with a yoke, unbalance and drive), which leads to a disadvantage for Stabil Noah and the break-crushing balance of centrifugal force on the weight of the hammer and the unbalance. For stabilization of the crushing process without collision of the cones, it is necessary that the centrifugal force of the unbalances exceed the center> · * beige sip of the inner cone and with the Mars connected to it, which cannot be achieved without compromising the reliability of the unbalanced nodes.

The closest in technical essence to the invention is a cone inertial crusher with an outer cone and a crushing cone with a shaft located inside it on a spherical suspension, n? which is equipped with a drive unbalanced vibrator [2].

This crusher is less complicated, it’s known units, the best ratio of centrifugal si con cone and unbalance, however it is not able to replace the stage of fine crushing and the first stage of grinding at the same degree of crushing. This reduces its merits and limits its distribution.

The purpose of the invention is to increase the degree of crushing of the crusher.

This goal is achieved by the fact that a cone inertial crusher containing a bed with an external cone and a crushing cone with a shaft placed inside it on a spherical suspension, on which an unbalanced vibrator equipped with 16 drives is installed, is equipped with additional grinding bodies made in the form of rollers, mounted on the surface of the debate · of the vibrator and in contact with the inner surface of the bed. · This allows the material crushed in the crushing chamber to become larger than the core product non-mill. 20

The drawing shows a structural diagram of the proposed crusher, a longitudinal section.

The crusher includes a bed 1 with an outer cone 2 and a crushing cone 4 mounted on a spherical suspension 3 inside it 25 and mounted on a shaft 5 of which an unbalanced vibrator 7 is equipped with a drive 6. The bed 1 on the inner surface is lined with a casing 8 made of wear-resistant steel. A carrier 10 is fixed to the outer cylindrical surface of the unbalance 7 by means of hinges 9, at the ends of which grinding rollers 11 are mounted that can be rotated 35 and are in contact with the shell 8.

When the unbalance 7 rotates, a centrifugal force is created, causing the cone 4 to oscillate up to around the axis of the crusher and destroy the material entering the cavity between the cones. Simultaneously with the unbalance 7, the carrier 10 is rotated, the rollers 1 1 of which begin to run in along the 45 rim 8, pressing against it with a force proportional to their mass and square angular velocity. The material crushed by the cone 4 is crushed by the rollers 11.

By changing the number of revolutions, the static moment of unbalance and the mass of the rollers, it is possible to adjust the degree of grinding depending on the needs of the process.

By reducing capital, operating and energy costs, as well as increasing productivity (due to the supply of ball mills with a finer product), an enrichment plant with a capacity of about 10 million tons of ore per year can be estimated at up to 0.5 million. rub.

Claims (2)

: .1 The invention relates to fine crushing cone crushers, the crushing force in which is created by the centrifugal force of the rotating rotors can be used in the ore-dressing industry instead of eccentric crushers and rod drum mills. A cone inertial crusher is known, comprising a frame with an outer cone and an inner cone with a shaft placed inside it on a spherical support, on which a rocker arm with two self-synchronized debalances vibrators at the ends of fl. The disadvantages of this crusher are design complexity, low reliability and low technological performance, which is explained by the large hammer weight I (internal cone together with rocker, unbalance and drive), which leads to unprofitable crushing and crushing balance of centrifugal forces from the mass hammer and unbalance. To stabilize the crushing process without the impact of the cones, it is necessary that the centrifugal force of the unbalance exceeds the centrifugal force of the inner cone and the mars connected to it, which cannot be achieved without compromising the reliability of the unbalance units. The closest to the technical essence of the invention is a cone inertial crusher with an external cone and placed inside it on a spherical suspension with a crusher cone with a shaft, on which is mounted a drive-balanced unbalance vibrator 2. This crusher is less complex, known aggregates The best ratio of centrifugal cone si and unbalance, however, it is not capable, in terms of the degree of crushing, to replace at the same time with cr crush and the first grinding stage. This reduces its value and limits its distribution. The purpose of the invention is to increase the degree of crushing crusher. This goal is achieved by the fact that a cone inertial crusher containing a bed with an external cone and placed inside it on a spherical suspension with a crushing cone with a shaft on which is mounted an unbalanced vibrator equipped with a drive, is equipped with additional grinding units made in the form of rollers mounted on the surface of the debuglane vibrator and in contact with the inner surface of the bed. This allows the material crushed in the crushing chamber to be crushed to the size of the rod product Yelnya. Tsy., The drawing shows a structural diagram of the proposed crusher, a longitudinal section. The crusher includes a bed 1 with an outer cone 2 and a crushing cone 4 placed on it on a spherical suspension 3, on the shaft 5 of which there is an unbalanced vibrator 7 equipped with a drive 6 installed. The bed 1 on the inner surface is lined with a shell 8 made of wear-resistant steel. The carrier 10 is fixed to the outer cylindrical surface of the unbalance 7 with the help of hinges 9, at the ends of which grinding rollers 11 contacting the shell 8 are rotatably mounted. and destroy the material entering the cavity between the cones. Simultaneously with unbalance 7, rotation of carrier 10, rollers And which begin to run around shell 8, is pressed, pressed against it with a force proportional to their mass and the square of the angular velocity. The material crushed by a cone 4 is crushed by rollers 11 , the degree of grinding can be adjusted depending on the needs of the process. By reducing capital, operating, and energy costs, as well as increasing productivity (due to the feeding of ball mills with a smaller product), a concentrator with a production capacity of about 10 million tons of ore per year can be obtained by preliminary calculations to 0, 5 million rubles A cone inertial crusher comprising a stand with an outer cone and a crusher cone mounted on a spherical suspension inside it with a shaft on which a disbalanced vibrator equipped with a drive is mounted, characterized in that, in order to understand the degree of crushing, it is equipped with additional grinding bodies , made in the form of rollers, mounted on the surface of the unbalance vibrator and in contact with the internal surface of the bed. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 184125, cl. B 02 C 2/04, 1962. 2. Andreev S., E. Crushing, grinding and screening of minerals. Osgortehizdat, 1966, p., 191, rice, 125.