DE3145424A1 - Conical crusher with compensation of the inertia forces and gap adjustment - Google Patents

Abstract

The invention relates to a conical crusher with compensation of the inertia forces and device for crushing gap adjustment, which is suitable for use in mobile and semi mobile crushing systems. In addition to a compact design with the most accurate possible compensation of the inertia forces, an improved availability of the crusher is also to be achieved. In addition, the crusher is to be constructed in such a way that it is possible to quickly change the crushing gap width. The solution according to the invention provides for a conical crusher with a drive shaft which is provided with a recess on one side in which additional masses are arranged and cavities in which media of different densities are contained, on which drive shaft two eccentric bushings and a pressure nut are also mounted. By virtue of the arrangement and design of the crusher elements, the crusher only requires relatively small movement frames, can be easily transported and is particularly suitable for mobile crushing systems.

Description

Title-of the invention

Cone crusher with compensation of inertia forces and gap adjustment Range of application of the invention The invention relates to a cone crusher with compensation the food force and device for adjusting the gap, which is suitable for mobile and semi-mobile crushing plants, small relocation frames required and easily transportable is.

Characteristic of the known technical solutions with cone crusher Mass balancing and gap adjustment are previously known in various embodiments. A well-known crusher of this type, WP 82 040, compensates for part of the occurring Mass forces due to the fact that a countermass synchronously in the hollow crushing cone axis and the planes of action of the tensile forces from the crushing cone axis and mass balancing are the same. However, these internals are difficult to access and mechanically complex and their functionality cannot be checked without considerable expenditure will. The entire crushing cone must be removed to rectify any malfunctions will.

A major disadvantage of the known crusher is that only one approximate compensation of the inertia forces takes place and readjustments after assembly or if the crusher tools continue to wear out. There with the hollowing out of the crushing cone axis, a reduction in the moment of resistance is connected, such crushers are only for relatively low crushing pressures suitable.

The crushing gap is adjusted by the known crushers manual turning of the pressure nut located at the upper end of the crushing lever axis. To do this, additional work-outs and a greater investment of time are necessary.

Kegerbreaker are also known with a hydraulic device between. Adjustment of the crushing gap width by axial displacement of the crushing cone, IE-AS 12 88 410, and lifting and lowering of the crushing cone axis. I, ie the crushing cone axis is with connected to a working memory with a compressible pressure medium for automatic Enlargement of the crushing gap width in the event of overloads or the occurrence of unbreakable ones Body and is equipped to restore the working position. Although these Solution compared to known constructions a convenient and quick assembly cier Device for hydraulic support for setting the crushing gap side enables the disadvantage remains that the seals over time or when overloaded and shocks are prone to leakage. All previously known solutions, that were or are equipped with hydraulic crushing splitting devices to record this general disadvantage.

OBJECT OF THE INVENTION The aim of the invention is to provide a device develop, which makes it possible to use cone crusher on mobile and semi-mobile crushing plants to use with economic advantages. In addition to a compact design, a Material savings can be achieved. Availability is by reducing downtime when adjusting and adjusting the gap width.

Statement of the essence of the invention The invention has the task of to create a cone crusher whose drive shaft is designed so that the when Operation of the crusher occurring inertia forces are compensated and at the same time a mechanical gap adjustment is possible.

According to the invention, the object is achieved in that a cone crusher with pre-crushing space and low overall height, suitable for mobile and semi-mobile crushing plants, was created, which is provided with a hollow crushing cone, in the cavity a drive shaft provided with a one-sided, geometrically shaped indentation, attached to the axially displaceable eccentric bushings and additional masses as well as cavities are arranged, which are filled with media of different densities, arranged is.

Zs belongs to the invention that in the lower part of the drive shaft a threaded pin is attached, on which a pressure nut is arranged, which the The crushing cone is supported vertically and used to change the crushing gap width.

Functionally, the invention is so that in the hollow Breaking cone a drive shaft is arranged at its upper and lower end centrally mounted in the crusher housing, with eccentric bushes for the crushing movement of the crusher is equipped and geometrically designed in such a way that its overall focus does not lie on its axis of rotation. The generated when the drive shaft rotates Mass forces act through a corresponding radial arrangement of the eccentric bushes counteracts the inertial forces generated by the eccentric movement of the crushing cone. The choice of the geometric dimensions and the balancing weights make a far-reaching one Compensation possible before assembly. A finer tuning is given by that in the cavities of the drive shaft media of different densities and amounts filled will. During the idling of the crusher, the content of the cavities can be changed that only a minimum of residual force is present. This yes vote can thus compensate for the remaining shares from the rough vote after the Lion Days and also those resulting from the progressive wear and tear of the Brecherx tools and The additional inertia forces generated by the gap adjustment compensate. ie gap adjustment takes place in that the pressure nut arranged at the lower end of the drive shaft, the lower, vertically and horizontally intercepting the crushing cone supported, raised or lowered by rotation. The relative rotational movement between Pressure nut and Drive shaft is generated in that after the mechanical blocking of the pressure nut against the crusher housing the drive shaft is turned slowly via the main drive or a power take-off. Depending on the direction of rotation the crushing cone is raised or lowered.

Embodiment 3 Example The invention is intended to be closer to the embodiment example are explained, FIG. 1 shows a vertical cross-sectional view of the crusher Figure 2 is a plan view of the crusher.

The crusher housing consists of a lower part 1 on which the middle Brecbergehäuseteil 2 and the upper crusher housing part 3 arranged screwed are. The top end is formed by the head carrier 4. The bearing of the drive shaft 5 takes place centrally on one side in the head carrier 4 and on the other side in the lower part 1. On the drive shaft 5 is the upper eccentric bushing 6 and diie lower eccentric bushing 7 attached so that they move axially but not let it spin. In the example this is done by Sai3 springs 8. The geometric The shape of the drive shaft 5, represented by the indentation 9 on one side, lies their center of gravity is no longer on the axis of rotation. Another change in the situation the center of gravity can be done by the additional masses 10, 11 on and / or are fixed in the drive shaft 5. The drive shaft 5 is via a gear 12, which is attached to the upper end of the same and a countershaft 13 driven. In the drive shaft 5 there are oil spaces 14, which are connected via a supply line 15 Oil or another medium. On the one at the bottom of the drive shaft 5 in front of the threaded pin 16 is the pressure nut 17. In the operating state it is so connected to the drive shaft 5 that it rotates with her. Should the The crushing gap width is changed, so the pressure nut 17 is controlled by a locking device 18 blocked in the rotary movement with respect to the crusher housing. By turning the Drive shaft 5 raises or lowers the Lrucknut 17 the crushing cone 19th

Due to the geometric dimensions of the upper and lower eccentric bushes 6, 7, the axis of the crushing cone 19 is at an angle 4 to the drive shaft 5. Both axes intersect at a point 20 above the crushing space 21. Offset If the drive shaft 5 is rotated, the one that characterizes a cone crusher is produced Tumbling movement of the crushing cone 19. The head carrier 4 can optionally be designed so that by the formation of the support ribs 22 of the upper bracket of the drive shaft 5 a pouring funnel 23 is formed. The supply of the drive shaft bearings 24, 25 with lubricants takes place over the in the upper and lower bearing journals 26, 27 arranged supply lines 28. The lubricant supply of the eccentric bushes 6, 7 takes place via the head carrier 4. The head plate 29 reseals the sliding surfaces outside. the lower bearings are surrounded by a lubricant pan 30, from which the collected lubricant can be derived via the drain 31.

List of the reference numbers used 1 - lower part 2 - crusher housing part, middle 3 - crusher housing part, upper 4 - head carrier 5 - drive shaft 6 - eccentric bushing, upper 7 - eccentric bushing, lower 8 - feather key 9 - indentation 10 - additional dimensions 11 - additional masses 12 - gear 13 - back gear 14 - cavities 15 - supply line 16 - Threaded pin 17 - pressure nut 18 - locking device 1-9 - breaking cone 20 - intersection 21 - crushing space 22 - support ribs 23 - pouring hopper 24 - drive shaft bearing 25 - drive shaft bearing 26 - upper bearing @ apfen 27 - lower bearing journal 28 - Feed lines 29 - top plate 33 - lubricant pan 31 - drain

Claims (4)

Invention claims 1. Cone breaker with compensation of the inertia forces and Gap adjustment with pre-crushing space and low overall height with a hollow crushing cone and drive shaft arranged therein, characterized in that on the geometrically shaped drive shaft (5), which is provided with cavities (14), an upper and a lower eccentric bushing (6, 7) are attached and a pressure nut (17) on the is arranged in the lower part designed as a threaded pin (i6). 2. Cone crusher with compensation of inertia forces and gap adjustment according to point 1, characterized in that the drive shaft (5) with a one-sided indentation (9) is provided, in which additional masses (10) are arranged. 3. Cone crusher with compensation of inertia forces and gap adjustment according to point 1, characterized in that the cavities (14) with media of different Dense and ivenge are filled. 4. Cone crusher with compensation of inertia forces and gap adjustment according to item 1, characterized in that when changing the crushing gap width The rotary movement of the pressure nut (17) is blocked by a locking device (18) is.