DE1293541B - Breaking tool for gyratory crusher - Google Patents

Description

The invention relates to a crushing tool for gyratory crusher with flat, tumbling crushing cone, consisting of a crushing cone chuck and a crushing ring chuck.

When shredding with final grain sizes of 5 to 25 mm, many uses made certain demands on the grain shape, so with Blast furnace-ready ore grains or grit or. High-grade chippings for road and concrete construction. For example, chippings are required for road construction, which do not contain more than 20 parts by weight of flaky and stuffy grains. Since the rocks used for road construction in particular are naturally broken or break them flat, must be a special one for the comminution by means of rotary crushers Breaking tool for the gyratory crusher can be provided.

In known gyratory crushers with a flat crushing cone, they correspond Crushing surfaces in the gap or calibration zone of the conical basic shape of the crushing ring and the crushing cone. These are smooth in the upper section of the crushing chamber or provided with radially aligned teeth. With this training of the breaking surfaces exists in addition to the advantages of a high specific throughput and a high The disadvantage of the degree of comminution is that the flaky and narrow-grained grains, which in one dimension not larger than the crushing gap width in the gap and calibration zone are dimensioned, pass through this zone to the discharge without further comminution. This results in very high grain proportions with material-dependent deviations flaky and / or square shape in the shredded end products.

In addition, it is a gyratory crusher with a steep crushing cone and a small one Known crushing stroke in which the crushing cone and the crushing jacket attached to the housing are dimensioned so that the narrowest cross-section of the remaining free crushing space lies at the lower edge of the crushing cone. Also are at the lower end of the crushing cone and of the crushing jacket extending concentrically to the cone axis, interlocking Arranged levels. The steps on the crushing cone and the crushing jacket are like this to each other arranged that during the pivoting movement of the crushing cone each edge of each Step moved towards the surface of the opposite step. The task of this training of the crushing tools is to hold up the material to be crushed between the individual stages and in the lower part of the crushing chamber in the area of the step arrangement a multiple Suspend shredding. The offset arrangement of the step profile of the crushing jacket compared to the profile of the crushing cone, however, has the consequence that as a result of the Over time, the surfaces of each step wear new additional breaking edges form. However, this reduces the respective step height. This for one Crusher with a steep crushing cone can be quite applicable training of the crushing cone however, rely on a gyratory crusher with a flat crushing cone to crush it due to the large breaking stroke is essentially based on the impact effect, not transferred. The application of such a profile to a gyratory crusher with a flat crushing cone would have the disadvantageous consequence that as a result of the change in the step profile the end grain size of the material to be crushed is reduced by wear. The invention The object is to provide a breaking tool that while maintaining the advantages of a rotary crusher with a flat crushing cone, namely high throughput in the production of large quantities of fine grain, an end product with a very high proportion produced on cubic grain, regardless of the natural composition of the respective feed item. The object is achieved according to the invention in one Breaking cone chuck and breaker ring chuck existing breaking tool solved in that the chucks interlocking in a known way in the outer part of their active surfaces, have concentric elevations and depressions, which in axial section a tooth or form a wave profile, with a tooth tip in each case in a special embodiment one chuck a tooth gap of the other chuck on a spherical shell, which the Has the pivot point of the tumbling movement of the crushing cone as the center, is opposite. This arrangement has the advantage that the dimensions of the profile on both parts of the breaking tool are essentially retained despite the wear, so that the grain size of the end product determined by the crushing gap for the whole The service life of the breaking tool is preserved.

In one embodiment of the invention it is proposed that the tooth profile to be designed so that the individual teeth have symmetrical flanks.

According to one embodiment of the invention, the concentric elevations and section having depressions a section with a conical surface parallel Subordinate training of the crushing cone and the crushing ring chuck, so without change the mode of operation and throughput a clean and even wear curve is guaranteed.

Another embodiment of the invention is that the on the crushing cone chuck and / or the crushing ring chuck arranged elevations and / or the flanks of which are provided with a coating made of hard material, wherein the order by welding, spraying or the like. Can be applied and with what it is achieved that a wear is primarily in that not with order provided part or section affects and the profile due to the greater wear resistance of the part or section provided with the order on the material to be shredded as well largely in the softer part or section that is predominantly exposed to wear is retained or continued.

About the same beneficial effect is obtained with another according to the invention Ausgestaltun & achieved according to either the crushing cone chuck or the crushing ring chuck consists of a harder material than the other part of the tool, whereby also a combination of the last two configurations is conceivable.

In the drawing, the invention is exemplified and schematic shown. It shows F i g. 1 a crushing cone and a crushing ring chuck in a functionally appropriate manner Position to each other as a section of a gyratory crusher in section, and F i g. 2 a gap or calibration zone formed by a crushing cone and a crushing ring chuck on average.

According to FIG. 1, a flat crushing cone 2 is arranged in a crushing ring chuck 1 with a pivot point 0 located approximately at the intersection of the vertical axis of the gyratory crusher and the extension of the conical surface. The crushing space 3 formed by the crushing ring chuck 1 and the crushing cone chuck 2 is widened in its passage cross-section downwards. For the crushing cone chuck 2, this results in a lifting or flapping movement that increases in the direction of its base.

Approximately in the last third of the crushing chamber 3 there is a gap or calibration zone 4 following the basic shape of crushing ring chuck 1 and crushing cone chuck 2, in which the crushing ring chuck 1 and the crushing cone chuck have an interlocking tooth profile made up of concentric elevations and depressions. The tooth tips 5 and the tooth gaps 6 lie opposite one another on a spherical shell, the center of which is at pivot point 0 . The elevations and depressions preferably have a symmetrical tooth or wave profile in axial section, ie their two concentrically running flanks 7 and 8 are approximately at the same angle to the conical surfaces of the breaker ring chuck 1 and of the breaker cone chuck 2.

The gap or calibration zone 4 is a section 9 with a conical surface parallel, smooth formation of the crushing cone chuck 2 and the crushing ring chuck 1 downstream.

According to FIG. 2 are the arrangement according to FIG. 1 corresponding to a breaker ring chuck 1 ', a crushing cone chuck 2', a crushing space 3 with a gap or calibration zone 4 therein concentric elevations and depressions with mutually identical flanks 7 'and 8 'and a section 9 with a conical surface-parallel formation.

The tooth tips 5 'of the elevations located on the crushing cone 2' and their flanks 7 'are made of a particularly wear-resistant and hard one Material existing order 10 and 11 provided.

Due to the described design of the gap or calibration zone 4 the effect is that the flaky and bourgeois part of the grain is broken even then, if the plates or skewers are thinner than the gap width of section 9. This a very high proportion with an approximately cubic grain shape can be achieved in the finished product. The gyratory crusher with its flat crushing cone and large stroke remains its own high Throughput obtained in that the free cross section of the gap or calibration zone 4 is set slightly larger than is the case with gyratory crushers with a conical surface parallel, flat formation of the crushing cone chuck is the case.

Through the section 9 with a conical surface parallel, planar training damage to the tooth profile formed from the elevations and depressions avoided and at the same time an easily accessible place for measuring the gap width created.

If the crushing cone chuck 2 consists of a harder material than the crushing ring chuck 1 or if the tooth tips 5 'of the elevations and / or their flanks 7' arranged on the crushing cone chuck 2 'are provided with an order 10 or 11 of wear-resistant, hard material, then the effect is Wear primarily affects the breaker ring chuck 1 or 1 ', which is made of a softer material. However, since the corresponding edges of both chucks face each other on a spherical shell, the original profile shape is retained even when worn. The section 9 prevents the elevations and depressions from reaching an area in which they would be exposed to damage.

The in F i g. The embodiment shown in FIG. 2 has the particular advantage that after the breaker ring chuck 1 'has been lifted off, the breaker cone chuck 2' is easily accessible and thus the order 10 or 11 can be renewed without difficulty.

Claims (1)

Claims: 1. Crushing tool for a gyratory crusher with a flat, tumbling crushing cone, consisting of a crushing cone chuck and a crushing ring chuck, characterized in that the chucks (1, 2) in a known manner in the outer part of their active surfaces have interlocking, concentric elevations and depressions, which in the Axial section form a tooth or wave profile, with one tooth head (5, 5 ') of a chuck of a tooth gap (6, 6') of the other chuck on a spherical shell, which is the pivot point (0) of the tumbling movement of the crushing cone as the center has, opposite. z. Breaking tool according to Claim 1, characterized in that the tooth profile has symmetrical flanks (7, 7 '; 8, 8'). 3. Crushing tool for gyratory crusher according to claim 1 or 2, characterized in that the concentric elevations and depressions having section (4) has a section (9) with a conical surface-parallel formation of the crushing cone chuck (2, 2 ') and the crushing ring chuck (1, 1') is subordinate. 4. Crushing tool for gyratory crusher according to claim 1, 2 or 3, characterized in that the tooth tips (5, 5 ') of the elevations and / or the tooth flanks ( 7 ', 8') are provided with an order (10, 11) made of hard material. 5. Crushing tool for gyratory crusher according to one of claims 1, 2 or 3, characterized in that either the crushing cone chuck (2, 2 ') or the crushing ring chuck (1, 1') consists of a harder material.