RU151572U1 - CONE CRUSHER - Google Patents

Abstract

1. A cone crusher containing a fixed cone connected to the bed, a movable cone mounted on the main shaft, which is mounted in an eccentric cup, in the upper part of which a bevel gear is installed, which engages with the drive gear, characterized in that on the lower part eccentric cup eccentric - with the displacement of the centers of rotation - a toothed cylindrical wheel is installed, which is in simultaneous engagement with the gear mounted on the bottom of the main shaft, and with the gear Fastening motionless on staniny.2 housing. A cone crusher according to claim 1, characterized in that a counterweight is mounted on the eccentric cup on the opposite side of the mounted gear gear to balance the mass of the gear. Cone crusher according to claim 1, characterized in that the forced rotation of the movable cone around its own axis is carried out in the opposite direction from the rotation of the eccentric cup. A cone crusher according to claim 1, characterized in that the rotational speed of the movable cone around its own axis is greater than the rotational speed of the eccentric cup.

Description

The utility model relates to the production of building materials and is intended to obtain crushed stone in the construction of roads and railways. Most widely used in the construction industry.

Known cone crusher for the production of crushed stone with an eccentric drive (Road cars Ch.I. Machines for paving. / K.A. Artemyev, T.V. Alekseeva, V.G. Belokrylov, etc. - M. Mechanical Engineering, 1982 - 396 s). This crusher has rigid kinematics and therefore can be adjusted to the optimum mode only by adjusting the size of the discharge gap.

However, the known device has the following disadvantage: design features do not allow to obtain with the help of such a crusher crushed stone with cubic particles in a volume of more than 65%. The cuboid shape determines the quality of the rubble.

The closest in technical essence is a cone crusher designed for medium and small crushing high-strength solid materials (RF Patent No. 91298 CL. B02C 2/02, 2006). To obtain the effect of crushing stone material in the crusher “under the rubble” (M. Kuleshov, New equipment “Dormash” - new opportunities / M. Kuleshov // Construction and road machines. -2008. - No. 10 - p. 2-3) it was decided to change the lining of the movable cone of the crusher so that the axial force is forced on the crushed stone. The working body of the cone crusher contains movable and fixed cones. A spiral-shaped protrusion is located on the movable cone, along its lateral surface, which allows forcing material to push down the crushing chamber (similar to a screw). In this case, the flaky grains present in the starting material form cubic crushed stone.

The disadvantage of the cone crusher selected as a prototype is that the rotation of the movable cone around its own axis occurs due to friction forces arising between the stone material and the surface of the movable cone in the crushing chamber, which does not ensure the constancy of rotation of the movable cone, and therefore does not contribute to the stable forced the advancement of the material in the crushing chamber, thereby reducing the percentage of output of cube-shaped crushed stone.

The technical task of the proposed utility model is to increase the productivity of increasing the yield percentage of crushed stone cubical shape.

The specified technical result is achieved by the fact that a cone crusher is proposed comprising a fixed cone connected to the bed, a movable cone mounted on the main shaft, which is mounted in an eccentric cup, in the upper part of which a bevel gear is installed, which engages with the drive gear, on the lower part of the eccentric cup, a spur gear is installed with a displacement of the center of rotation, which is simultaneously engaged with the gear mounted in the lower hour and the main shaft, and a gear attached fixedly to the frame housing, on the eccentric beaker on the opposite side of the fixed gear fixed to a counterweight for balancing the mass of the pinion.

The possibility of achieving a technical result is due to the fact that the rotation of the movable cone around its own axis is forced using a planetary gearbox. Torque to the movable cone is transmitted from the eccentric cup, to the lower end of which the spur gear (satellite) is eccentrically mounted, which is simultaneously engaged with the gear mounted in the lower part of the main shaft (sun gear) and with the gear fixed to the frame body (ring gear). In this case, the rotational speed of the movable cone around its own axis is greater than the rotational speed of the eccentric cup, and the rotation is carried out in opposite directions. In this case, the flaky grains present in the source material and formed during crushing are not only crushed and abraded, but also forced into the crushing chamber. Which leads to a high percentage of cube-shaped crushed stone.

The utility model is illustrated by drawings, where figure 1 shows a diagram of a cone crusher, figure 2 shows a drive for forcing rotation of a movable cone, figure 3 shows a movable cone.

The utility model comprises a fixed cone 1 supported by a bed 2. A movable cone 3 is mounted on the main shaft 4 and rests on the frame through a ball thrust 5. An eccentric cup 6 is mounted on the main shaft, which rests on the bed by means of sliding bearings. On the upper part of the eccentric cup, a bevel gear 7 is installed, which engages with the drive gear 8. On the lower part of the eccentric cup, a satellite 9 with sliding bearings is installed, which is simultaneously engaged with gear 10, mounted on the bottom of the main shaft (sun) and gear 11 (crown) fixed motionless on the frame body. A counterweight 12 is mounted on the eccentric cup on the opposite side of the installed satellite to balance the mass of the gear.

Cone crusher works as follows. Through the drive gear 8, the torque is transmitted to the bevel gear 7, rotating the eccentric cup 6, the rotation of which is translated into the gyration movements of the main shaft 4 with the movable cone 3. The rotation of the movable cone around its axis is as follows: the eccentric cup 6 rotates with the satellite 9, which runs around the stationary ring gear 11, receiving rotation around its own axis, and transfers it to the sun gear, which leads to the forced rotation of the movable cone around it B in the opposite direction of rotation of the eccentric glass. The frequency of rotation of the moving cone around its axis is determined by the ratio of the diameters of the gears of the planetary gearbox, and the ratio of diameters is selected so that the frequency of rotation of the moving cone around its own axis is greater than the speed of the eccentric cup.

The gyration movement allows crushing of material by crushing and abrasion in the space between the movable and fixed cones, and the rotation of the cone with a spiral notch around its own axis allows forcing material to push down the crushing chamber, which ensures a high percentage of the output of cube-shaped crushed stone.

Claims (4)

1. A cone crusher containing a fixed cone connected to the bed, a movable cone mounted on the main shaft, which is mounted in an eccentric cup, in the upper part of which a bevel gear is installed, which engages with the drive gear, characterized in that on the lower part eccentric cup eccentric - with the displacement of the centers of rotation - a toothed cylindrical wheel is installed, which is in simultaneous engagement with the gear mounted on the bottom of the main shaft, and with the gear Fastening motionless on the bed body. 2. The cone crusher according to claim 1, characterized in that on the eccentric cup on the opposite side of the mounted gear gear, a counterweight is fixed to balance the mass of the gear. 3. Cone crusher according to claim 1, characterized in that the forced rotation of the movable cone around its own axis is carried out in the opposite direction from the rotation of the eccentric cup. 4. The cone crusher according to claim 1, characterized in that the rotational speed of the movable cone around its own axis is greater than the rotational speed of the eccentric cup.

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