SU1417915A1 - Eccentric assembly of cone-type crusher - Google Patents

Abstract

The invention relates to the construction of eccentric knots of cone crushers used for crushing ores and non-metallic materials. The purpose of the invention is to increase the productivity of the crusher and stabilize the crushing mode by reducing the radial clearance between the conical sleeve and the shaft of the moving cone. The eccentric node includes a conical sleeve 3, along which along the height of its forming grooves

Description

f.

with

6, located symmetrically on both sides of the axis of symmetry of the eccentric 2, passing through the points b and b, respectively, of the smallest and greatest wall thickness of the eccentric 2, and the axis of the inner bore of the eccentric is perpendicular to it and 6 of the grooves. work cone | 1kilki idle and under load due to the small radial

The gap a in the conical friction pair eccentric 2 is constantly pressed against the cylindrical sleeve 1 with the entire surface. The amount needed to cool the eccentric 2 is passed through the grooves 6. The dimensions of the grooves 6 are selected taking into account the volume compensation for passing the required amount of oil with a reduced radial clearance a. 1 il. /

: one

The invention relates to the designs of eccentric nodes of cone crushers of fine and medium crushing, used for crushing ores and nehru; of materials.

. The aim of the invention is to increase the productivity of the crusher and stabilize the crushing mode by reducing the radial clearance between the conical sleeve and the shaft of the moving-Go cone.

The drawing shows an eccentric node cone crusher fine or medium crushing with the combination of the cross section of the crushing chamber, a transverse section.

The eccentric assembly contains a cylindrical sleeve 1 in which an eccentric 2 with an internal bore for a conical sleeve 3 connecting the shaft 4 of the moving cone 5 with the eccentric 2 is placed. The shaft of the moving cone forms a rotational conical pair with the conical sleeve.

radial clearance a. I

In the conical sleeve 3 along the generatrix along its entire height grooves 6 are made with a width equal to the radius of the conical sleeve 3 and a depth equal to, for example, 1 / 2-1 / 3 of its wall thickness. The grooves 6 are symmetrically located on both sides of the 0 -Of axis, through the points b and b, respectively, the smallest and greatest wall thickness of the eccentric, and the axis of the internal bore of the eccentric is perpendicular to eii and is the axis of symmetry of the grooves 6.

Cone crusher with eccentric node works as follows.

The fixed 7 and movable 5 cones form a crushing chamber 8 with

a discharge slot, which has a profile opening phase c and a profile approaching phase d. The movable cone 5 through the shaft 4, inserted into the conical sleeve 5. of the eccentric 2, receives an oscillatory motion from the drive

When working crusher at idle and under load due to the small radial clearance in the conical

P

a pair of friction, eccentric 2 is almost constantly pressed against the cylindrical sleeve 1 with the entire surface. The amount of lubricant needed to cool the eccentric 2 is passed through the grooves 6. The dimensions of the grooves 6 are selected taking into account the volume compensation for passing the required amount of oil with a reduced radial clearance a.

When the size of the grooves 6 is smaller along the radius of shaft 4 of the movable cone 5 and the thickness is less than 1 / 2-1 / 3 of the wall thickness of the conical sleeve 3, the amount of oil necessary for forming a layer of lubricant and for cooling is not allowed "

With grooves 6 of a size larger than the indicated values, and with a different arrangement of them with respect to the axis passing through the extreme points of the thin

and the thick sides of the cam not

the necessary strength of the conical sleeve 3 is provided.

The size of the gap is determined by the result- 40 course only from the conditions of formation

necessary layer of lubrication. Due to the small gap in the conical friction pair, the operating conditions of the cone crusher become statically determinate and the size of the gap unloading when the crusher operates at idle and under load becomes comparable due to the stabilization of the eccentricity e in the plane of the discharge gap of the moving cone 5, which leads to increase crusher productivity and stabilize crushing mode.

Thus, an eccentric node of cone crushers of medium and fine crushing, as compared to the known ones, improves the crusher's productivity by 10% and stabilizes the crushing mode by reducing the radial clearance in the conical friction pair and providing a statically definable mode of operation of the crusher.

Claims (1)

Claims Eccentric cone crusher of medium or fine crushing, comprising a cylindrical sleeve in which an eccentric is placed with an internal bore for the taper sleeve of the moving cone shaft, characterized in that., In order to improve the crusher's performance and stabilize the crushing mode by reducing the radial clearance between the conical sleeve and the shaft of the movable cone, the conical sleeve is made with grooves located along the inner surface forming it and equidistant from and symmetry of the eccentric passing through the lowest and highest points of the eccentric wall thickness, wherein pazoz symmetry axis coincides with the axis of the internal bore of the eccentric and the latter is perpendicular to the axis of symmetry.