DE2365747C3 - Cast impact body - Google Patents

Description

The present invention is a separation from the parent application P 23 35 588. The subject of this parent patent is a process for the production of metallic composite castings whose wear-exposed zones are armored by hard material particles, the hard material particles in the casting mold close to the wear-exposed surface of the casting at a distance from one another fixed immovably and encapsulated with a cast material, which is characterized in that hard material particles with an individual surface size projected onto the adjacent wear zone between 0.1 cm ² and 10 cm ² , preferably 0.5 cm ² and 3 cm ² in such an amount and Arrangement be arranged on the mold surface depicting the wear zone of the casting so that its area proportion, projected onto this mold surface, is up to 40%.

The present invention relates to the application of the aforementioned method and relates to a cast impact body, in particular for prail mills, with wear protection on the leading impact edges and at least part of the adjoining outer surfaces by hard material grains immovably embedded therein adjacent wear zone have projected individual area sizes between 0.1 cm ² and 10 cm ² , preferably 0.5 cm ² and 3 cm ² and are arranged at a distance from one another in such a position on the wear zone surface of the casting that their area portion is projected onto this surface , 5-50%, preferably 10-40%.

The invention is shown in the figures as an example. It shows

A b b. 1: an impact bar for impact mills in plan A b b. 2: Section EF through A b b. 1

Fig. 3: Position "X" in A b b. 2, enlarged

Fig.4: a baffle bar with weaker attachment zones

A b b. 5: the section through the beater plate of a beater mill.

The application of the invention to impact bars of impact mills is shown schematically in A b b. 1,2,3,4. there 120 means a U-shaped, elongated blow bar with leading edges 121, 122 when new or 123, 124 after turning the blow bar. Inside the blow bar, each below the leading one Impact edge, angle pieces 125, 126 are arranged in front of the casting, on which hard material particles 127 are attached are such that the main stressed zones around the leading edges are superficial or scarce are protected under the surface by hard material particles. The reinforcement corresponds to that to be expected Wear form of the bar without reinforcement (I, Il in A b b. 3, 4). One can change the size or (and) density of the Hard material particles in the immediate vicinity of the leading edge, at 127a, increase and towards 1276 and 127c in accordance with the decreasing stress. The same effect is achieved when not just one but several layers of hard material are introduced near the leading edge (Fig.4), with at least some of the hard material particles can be attached to the same carrier. The advantage of this construction is that the The impact zone, which is mainly exposed to wear, is optimally protected by hard materials, while the The rest of the bar can be made from a less wear-resistant but tougher material. Through this it also enables the bar to be made strong and robust only in the vicinity of the striking edge, while the rear, only the fastening serving strip parts to be much less strong need, like in A b b. 4 shown. In this way, the service life, the break resistance, the degree of utilization and the profitability of the blow bar increases. At the same time, the Keep the edge longer and therefore the shape of the ground material more even.

A b b. 5 shows a beater plate 170, embodied according to the invention, of a beater wheel mill with a leading one Striking edge 17 *. which wears out the most. It is a angular support 172 made of perforated sheet metal provided with sufficient lateral distance on which one or several rows of hard material particles 173 are attached.

During operation, the regrind particles 174 strike the reinforced surfaces near the leading edge 171 and are immediately split up there due to the serrated design of the striking edge (because of the island-like arrangement of the hard material particles) without the leading striking edge being excessively worn.

The present invention allows a novel solution to the important problem of wear cast impact body. One achieves with moderate additional costs compared to today's usual designs a significant increase in service life. Reduction of the times of machine downtime, the conversion costs, Replacement part costs or regeneration costs; production runs more evenly; the operating costs are decreased

The present invention allows optimal interaction through suitable dimensioning the hard hard material body with the tougher base material to form a uniform composite body, which is able to cope with the contrary demands in the best possible way.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Cast impact body, in particular for prail mills, with the leading impact edges (121, 122 or 123, 124 or 171) and at least part of the adjoining outer surfaces (1276, 127c) caused by wear protection that is immovably embedded therein, characterized in that the hard material grains (127 , 173) have an individual surface size projected onto the adjacent wear zone between 0.1 cm ² and 10 cm ² , preferably 0.5 cm ² and 3 cm ² and are spaced apart in such a position on the wear zone surface of the casting that their Area proportion projected onto this surface is 5-50%, preferably 10-40%. 2. Impact body according to claim 1, characterized in that the hard material grains on angle pieces (125, 126 and 172) are mounted, which are adapted to the outer contours of the impactor are. 3. Impact body according to claim 1, characterized in that the hard material grains (127, 173) protrude slightly above the surface of the impactor. 4. Impact body according to claim 1, characterized in that the reinforcement takes place directly on the striking edges (127 a) with coarser hard material grains and (or) more densely than at some distance from the striking edges (at 127Z> and 127cjl 5. Impact body according to claim 1, characterized in that the reinforcement with hard material particles takes place within a space (128) by the adjacent to the striking edges Striking surfaces of the strip on the one hand and curves I-II of the wear on unreinforced strips on the other is formed. 6. Impact body according to claim 1 and 5, characterized in that the rear, only the Attachment serving parts of the blow bar compared to the reinforced parts of the same essential are kept weaker. 7. Impact body according to claim 1, characterized in that the hard material grains the reinforced and the unreinforced part of the impact body are detachably connected to one another.