DE1253561B - Rotary crusher with crushing cone axis suspended at the upper end - Google Patents

Description

Rotary crusher with the crushing cone axis suspended at the upper end Invention relates to a gyratory crusher with at the top of a that Axle end comprehensive adjusting nut suspended crushing cone axis and with a hydraulic lifting device provided between the nut and the bearing and lowering the axis.

In a known gyratory crusher of the above type is with the help of hydraulic lifting and lowering device adjusted the width of the crushing gap. In addition, the hydraulic device that occurs during operation is also used here Breaking pressure added. Maintaining a constant gap width in the crusher however, this hydraulic lifting and lowering device is in operation during operation very difficult, since leaks in the hydraulic system can hardly be avoided, especially the main part of the hydraulic system is located at the upper end of the crushing cone axis and executes a tumbling movement with it, while the supply line for the pressure oil is fixed and has multiple joints to balance the movements to enable. Since these joints in particular are subject to high wear during operation are subject, there is a risk of leakage, especially at these points the hydraulics.

The invention is therefore based on the object of providing a device create through which these disadvantages are avoided. This is what makes this job solved that in addition removable between the nut and bearing, the hydraulic device Relief mechanical support elements are provided in emergency operation. To this Way is achieved that the crushing cone axis during the operation of the crusher not supported by the hydraulics, but by the rigid support elements. The hydraulics serves only for brief lifting and lowering of the crushing cone during the standstill of the crusher or if the crushing cone is blocked when the crusher is blocked must be lowered. During operation, however, the hydraulic system is relieved, and the crushing cone axis rests on the rigid support elements, so that for a perfect Compliance with the predetermined gap width of the crusher is ensured. Also needs the hydraulics to a pressurized oil source only when the crusher is at a standstill to be connected, so that the difficulty of balancing different movements does not exist.

A jaw crusher is known which has auxiliary hydraulics is equipped, which is used to adjust the crushing gap. This hydraulics however, it is arranged on the stationary crushing frame of the crusher and does not do anything the movements of the jaw. When transferring this known principle on a gyratory crusher, the hydraulics would have to be on the stationary one here too Support parts of the crusher. However, there is the crushing cone axis in a gyratory crusher performs a tumbling motion in relation to the stationary parts of the crusher, this principle is not applicable to a gyratory crusher.

In the following, the invention is explained in more detail using exemplary embodiments shown in the drawing, from which further details can be found. It shows F i g. 1 shows a longitudinal section through a gyratory crusher according to the invention, FIG. 2 shows a section through the axle suspension of the crusher on a larger scale, FIG. 3 the intermediate ring with hydraulic cylinders in plan, F i g. 4 shows another embodiment of the intermediate ring with a hydraulic ring cylinder.

The in F i g. 1 has a crushing cone which consists of two parts 1 and 2 arranged one above the other. The axis 3 of the crushing cone hangs in an upper self-aligning bearing 4, which is described in more detail below. With its lower end, the crushing cone axis 3 is mounted in an eccentric bushing 4 ', which is set in revolutions via a toothed ring 5 and a corresponding drive pinion 6.

The crushing cone 1, 2 is surrounded by a crushing ring 7, which is lined on the inside with a crushing chuck consisting of two rings 8, 9. The crushing ring 7 is clamped with the aid of anchor bolts 10 between the crushing frame 11 and a head ring 12, which carries crossbars 14 which hold the housing 13 of the upper axle bearing 4. A funnel 15 for the crushed material is placed on the head ring 12. Like F i g. 2 shows, the spherical upper self-aligning bearing 4 for the crushing cone axis is provided in the bearing housing 13. This bearing consists of two outer bearing shells 16, 17 in which the inner bearing ball 18 is pivotably held. The bearing ball 18 has an inner bore in which the crushing cone axis 3 can be raised and lowered. The cone axis 3 is connected to the bearing ball 18 via a groove 19 and tongue 20, so that although an axial displacement of the cone axis against the bearing ball 18 is possible, the bearing ball is entrained when the axis rotates.

The head end 21 of the cone axis is provided with a thread on the outside. An adjusting nut 22 is screwed onto the thread. This adjusting nut is supported on the inner bearing ball 18 via a support ring 23 and an intermediate ring 24. By turning the adjusting nut 22 against the cone axis 3 , this axis and thus the cone can be raised and lowered, so that different widths of the crushing gap, d. H. of the gap between the lower area of the breaker ring and the corresponding area of the breaker cone.

Like F i g. As shown in FIGS. 2 and 3 , the intermediate ring 24 has a number of axial hydraulic cylinders 25 . A piston 26 is guided in each cylinder. The pistons can be pressed under the adjusting nut 22 by introducing pressurized oil into the cylinder 25 and raise it. In order to ensure that the cylinders 25 are evenly acted upon by pressurized oil, the cylinders are at their lowest point in connection with a common channel 27 which, via an opening 28 with a connector 29, is connected to a hydraulic pressure source, e.g. B. an oil pump can be connected.

The above-mentioned support ring 23, which is provided between the adjusting nut 22 and the intermediate ring 24, consists of two ring segments which can be connected to one another with the aid of flanges 30 and corresponding screws 31. By loosening the screws 31 , the support ring 23 can be dismantled and removed after the nut 22 has been raised with the aid of the hydraulic device 25, 26 .

Device of the gyratory crusher according to the invention during operation, d. H. with filled crushing gap between the cone and crushing jacket, to a standstill, which z. B. by overload due to hard crushed material or by penetration of non-crushable parts, such as iron parts od. In such cases, the crushing cone often jams. In the crusher according to the invention, the hydraulics of the crushing cone suspension is then connected to a hydraulic pressure source, and the pistons 26 are guided slightly upwards at high pressure so that they the nut 22 and thus crushing axis and crushing cone against the resistance of the material in the crushing space Raise it so far that the support ring 23 can be removed after it has been broken down into segments. The crushing cone is then lowered by releasing pressure oil from the cylinders 25 so that the crushing gap widens. If uncrushable parts have penetrated the crushing gap, they will now fall out. In any case, however, it is possible to start the crusher in the lowered position of the crushing cone. After the crushing chamber has been emptied, the crushing cone is raised again with the aid of the hydraulic system and the support ring 23 is inserted.

The adjustment of the gap width of the crusher, i.e. H. the height adjustment of the crushing cone is done either in a known manner by turning the adjusting nut 22 relative to the crushing cone axis 3 or by inserting higher or flatter support rings between the adjusting nut and intermediate ring or by inserting additional spacer rings. To insert or replace support and spacer rings, the adjusting nut 22 is lifted in the manner described above by means of the hydraulics 25, 26.

Like F i g. 4 shows, a continuous annular axial hydraulic cylinder 32 can finally be provided in the intermediate ring 24 ′ instead of a plurality of hydraulic cylinders. The associated piston 33 is naturally also annular in this case.

As described above, the hydraulic system is normally relieved during operation of the crusher, since the crushing cone is then supported by the support rings 23 . The hydraulics therefore need not absorb vertical or horizontal forces during operation, so that difficulties due to insufficient sealing, leakage losses and the like, as are known in hydraulic adjustment devices that are loaded during operation, cannot occur.

Claims (2)

Claims: 1. Rotary crusher with a crusher cone axis suspended from an adjusting nut encompassing the axis end at the upper end and with a hydraulic device provided between the nut and the bearing for raising and lowering the axis, characterized in that additionally between the nut (22) and the bearing ( 18) removable mechanical support elements (23) are provided which relieve the hydraulic device (25, 26 or 32, 33) during normal operation. 2. A gyratory crusher according to claim 1, characterized in that a support ring (23) consisting of at least two segments is provided as the support element. 3. Rotary crusher according to claim 1 or 2, characterized in that the hydraulic device consists of an intermediate ring (24) which has the hydraulic cylinder or cylinders (25 or 32). 4. A gyratory crusher according to claim 3, characterized in that, when a plurality of hydraulic cylinders (25) are arranged, a channel (27) connecting the cylinders is provided to which a hydraulic pressure source can be connected. Documents considered: German Auslegeschrift No. 1177 909; USA. Pat. No. 2,799,456.