DE1507573B1 - Cone crusher - Google Patents

Description

The invention relates to a cone crusher for crushing of rocks, ores and other hard materials.

A distinction is made between two types of support for the crushing cone Groups of cone crushers, namely cone crushers with a top-hung one Cone axis and cone crusher whose cone axis or cone is supported at the lower end is. It is known that the support at the lower end with the help of a hydraulic Make device. This support has the disadvantage that the hydraulics is constantly under pressure during the crushing operation. The difficulties that arise here are difficult to control. On the other hand, this type of hydraulic Support on the advantage that the crushing gap very easily on different Gap widths can be adjusted and that the crushing cone when penetrating unbreakable Components can be lowered into the crushing gap in a simple manner, so that clearing of the crushing gap is possible.

Cone crusher with a cone axis suspended at the upper end show in generally a ball joint in which the axis is held. The axis supports from a nut and any intermediate layers on the ball. The mother must be turned to adjust the gap width. Since the mother here at least is loaded by the weight of the crushing cone, is such a gap adjustment not easy to do. In addition, the crushing cone can be lowered by twisting it the mother for the purpose of clearing the crushing gap hardly possible because when the Kegels very large forces occur, which a twisting of the nut is practically impossible do. Attempts have therefore already been made, also with the upper suspension of the crushing cone to provide hydraulic support. But because at the upper end of the crushing cone axis Far less space is available than under the crushing cone axis and thus less Cylinder diameter must be selected, the required pressures are very high, so that when the hydraulics are arranged at the upper end of the crushing cone axis even larger ones Difficulties arise than with an arrangement below the crushing cone.

The invention is based on the described disadvantages avoid and create a cone crusher that takes advantage of both types having. With a cone crusher, this task is carried out with a for the purpose of gap adjustment rotatable nut thereby suspended crushing cone axis solved that below the crushing cone axis or the crushing cone a lifting device is provided, which is designed as a hydraulic, double-acting piston-cylinder unit is. In the crusher according to the invention, the crushing cone axis is in itself as is known, suspended at the upper end via an adjusting nut. Also the gap width is adjusted by turning the nut. The one below the crushing cone axis However, the lifting device allows the crushing cone axis to be removed before the nut is rotated to lift a little so that the mother is relieved. The double-acting piston-cylinder unit is advantageous because the piston is retracted after lifting and thus from the Breaking cone axis or the breaking cone can be solved, so that the risk of damage during the crusher operation as a result of the tumbling movement of the crushing cone axis is avoided.

A bearing shell with a spherical shape is advantageous on the lifting device arranged curved bearing surface on which a pressure plate with a corresponding Way curved support surface lies. This is useful because the bearing surface the crushing cone axis or the crushing cone is different in each position has directed inclination. This inclination can be the pressure plate above the Adjust the lifting device so that damaging edge pressure is avoided.

In the drawing, an embodiment of the invention is shown, the further features and advantages of the invention can be seen, namely shows F i g. 1 shows a cone crusher according to the invention, partly in section, partly in view, F i g. 2 a section through the upper suspension of the crushing cone axis in a larger one Scale, fig. 3 shows a section through the lower mounting of the crushing cone axis hydraulic lifting device on a larger scale.

The cone crusher shown in the drawing has a crushing cone 3 arranged within a crushing jacket 1 , the axis 4 of which is held in a bearing 5 at its upper end. The bearing 5 is held by a cross member 6 which is supported on the crushing jacket 1 . At its lower end is the crushing cone axis 4, as shown in FIG. 3 can be seen in detail, held in a drive arrangement 7 .

Like F i g. 2 shows the bearing 5 consists of a bearing housing with a lower part 8, which is firmly connected to the cross member 6 , and an upper, removable part 9. In the lower part 8 , two outer bearing shells 10 and 11 are arranged, in which the inner Bearing ball 12 is held. The axle 4 is passed through the bearing ball. At its upper end, the axle is provided with a thread into which a nut 13 engages, which is supported on the bearing ball 12 via a multi-part pressure ring 14. By turning the nut, the crushing cone axis 4 and thus the crushing cone 3 can be raised or lowered.

From Fig. 3 shows that the lower end 15 of the crushing cone axis 4 is mounted in an eccentric bushing 16. The eccentric bushing is in turn held rotatably in the crusher housing 17. It is supported in the axial direction on a thrust bearing 18 . Immediately above this thrust bearing, it is firmly connected to a bevel ring gear 19 , in which a drive pinion 20 engages, which is driven via a shaft 21 by a motor (not shown). A seal 22 is provided between the crushing cone axis 4 and the crusher housing 17 , which seal prevents the penetration of dust into the bearing parts.

Under the end 15 of the crushing cone axis 4, a hydraulic cylinder 24 is fastened in the crusher housing by means of a support ring 23. The cylinder is provided with a lower oil supply 25 and an upper oil supply 26. A piston 27 that can be acted upon on both sides is held in the cylinder so as to be axially displaceable. The piston rod 28 carries at its upper end protruding from the cylinder a bearing shell 29, the upper bearing surface of which is curved in a spherically concave manner. A pressure plate 30 with a correspondingly convexly curved counter surface and a flat upper pressure surface lies on the bearing shell. When the hydraulic piston 27 is lifted, this pressure plate rests against the end face 32 located in a frustoconical recess 31 of the cone axis end 15. During operation of the crusher, due to the wobbling movement of the crushing cone axis, this surface assumes a different angular position and therefore has a different angular position at every standstill . The pressure plate 30 can adapt to these respective positions as a result of its spherical mounting, so that damaging edge pressures are avoided.

Should the gap width of the crusher, i.e. H. the width of the narrowest point 33 (Fig. 1), can be adjusted between the crushing cone and the crushing jacket 1, see above the crushing cone must be raised or lowered. This is done by twisting the Nut 13 at the upper end of the crushing cone axis 4. To make this easier, the The crushing cone axis 4 is raised by means of the hydraulic lifting device 24, 27 so that that the mother 13 is relieved. The mother can then be adjusted in a simple manner will. After the subsequent lowering of the crushing cone, the piston 27 is pushed through The supply of pressurized oil through line 26 is retracted to its lowest position, to release it from the end of the crushing cone axis 4. This is useful because otherwise the pressure plate 30 constantly on the end face during the operation of the crusher 32; would slide. Another constant sliding movement would be between the spherical ones Areas of the pressure plate 30 and the bearing shell 29 as a result of the constant changes in angular direction the surface 32 take place. Since these movements are on the other hand relatively small it is difficult to obtain adequate lubrication of the relevant surfaces secure, so that destruction of the storage areas would be feared.

The lifting device is also expediently activated if the crusher moves into the Crushing gap has become stuck or in normal operation, e.g. B. in the event of a power failure, blocked. In such cases, the upper nut 13 can generally not be loosened. she often has to be cut with the help of cutting torches in order to lower to enable the crushing cone. In contrast, it is according to the invention by means of a sufficiently strong hydraulic lifting device possible, the crushing cone to be lifted against the material located in the gap at least so far that the nut 13 relieved and a twisting of this nut and a lowering of the crushing cone possible is.

When using a multi-part pressure ring 14, after the discharge the individual segments can be removed and the cone can be turned without twisting the nut 13 are lowered by the height of the pressure ring. Afterwards or at the same time any foreign matter in the gap will loosen and possibly escape. In the case of a blockage with only crushed material, the lowering results in loosening take place, which enables or facilitates a start-up of the filled crusher. On the other hand, this loosening enables the crusher to be cleared out in emergencies very relieved, which is especially true in the event of a trapped, non-exiting Foreign body applies. The hydraulic device can also be used as an assembly and disassembly aid to be used.

Claims (3)

Claims: 1. Cone crusher with at the top of one of the Gap adjustment nut, suspended crushing cone axis, g e k e n n z e i c h n e t d u r c h one below the crushing cone axis (4) or the crushing cone (3) provided lifting device (24 to 28), as a hydraulic, double-acting Piston-cylinder unit is formed. 2. Cone crusher according to claim 1, characterized in that a bearing shell (29) with a spherically curved bearing surface is provided on the lifting device (24 to 28), on which a pressure plate (30) is arranged with a correspondingly curved counter surface. 3. Cone crusher according to claim 1 or 2, characterized in that between the nut (13) and the crushing cone bearing (10 to 12) exchangeable pressure bodies (14) are provided.