EP1413357A1 - Milling tool for vortex mill - Google Patents

Abstract

The grinding gear has an abrasion plate with a grinding edge and which is detachably fastened so that it can be fastened in several alignments, and consequently another edge functions as a grinding edge. The abrasion plate is detachably fastened on an angle bracket so that it can be orientated in several positions, whereby the respective edge of the abrasion plate functions as the grinding edge. The abrasion plate by the insertion of a disc spring is clamped against the angle bracket by means of a pan head screw.

Description

The invention relates to a grinding tool for an eddy current mill, the grinding tool having a wear plate and being attachable to the edge of a tool carrier ring of a rotor.

The eddy current mill is usually composed of a stator and a rotor, the rotor in turn being composed of a main rotor, which is essentially the hub of the rotor, and one or more tool carrier rings which are seated on support rings of the main rotor. The grinding tools are attached to the outer edge of the tool carrier rings. Each grinding tool can be an angle, which is fastened with its first leg to the tool carrier ring, while the second leg projects from it at an angle of 90 ° and lies in an axial plane of the rotor or in a plane parallel to it. The outer edge of the wear plate is the grinding edge and the grinding tools are arranged on the circumference of the rotor so that the grinding edges move along the inner wall of the stator, the grinding track, at a short distance, the grinding gap. The grinding gap forms the grinding zone.

The rotor and the stator usually expand conically downwards and the grinding tools are arranged in a plurality of rings which are staggered along the axis of the rotor. The grinding track on the inner wall of the stator can be axially corrugated.

In order to withstand the high centrifugal forces, the grinding tools are extremely robust. The grinding edges of the wear plates run parallel to the inner wall of the stator. In order to achieve a good grinding effect, it is important that the grinding edges are sharp. In operation, they are exposed to high wear and tear shown that a rounding with a radius of 1 mm can reduce the grinding effect by more than 50%.

The wear plates are made of hard metal. Conventionally, the wear plates are glued or soldered to the angle and the angles are completely replaced when the grinding edge is worn.

The invention is based on the object of reducing the costs arising from the wear of the grinding tools.

According to the invention, this object is achieved in that the wear plate is detachably fastened so that it can be fastened in several orientations and in each case a different edge acts as the grinding edge.

The wear plate can be releasably clamped to the second leg of the bracket, so that it can be aligned in several positions and a different side acts as a grinding edge. The wear plate can e.g. be tensioned against the second leg of the angle by inserting a Belleville washer using a cylinder screw.

The plate is preferably diamond-shaped, so that all eight edges can be used as grinding edges. The attachment is conveniently carried out in the middle, e.g. by a cylinder screw that is passed through a central hole in the wear plate.

The wear plate can also be square. The four edges of one side of the wear plate can then be used as a grinding edge by simple rotation through 90 ° and the four edges of the other side can be turned by turning the plate.

The wear plate is arranged so that the grinding edge currently in use is parallel to the inner wall of the stator, so that the grinding gap has a uniform width.

The wear plate is preferably made of hard metal. The fact that all eight edges can be used as grinding edges one after the other then improves the economy particularly.

Fig. 1

eine Wirbelstrommühle im Schnitt;

Fig. 2

den Rotor und den Stator der Wirbelstrommühle;

Fig. 3

einen Abschnitt des Werkzeugträgerringes mit mehreren Mahlwerkzeugen in einer perspektivischen Darstellung;

Fig. 4

einen Abschnitt des Werkzeugträgerringes mit mehreren Mahlwerkzeugen von der Seite und

Fig. 5

den Werkzeugträgerring mit mehreren Mahlwerkzeugen im Schnitt nach 5-5 von Fig. 4.

An embodiment of the invention is explained below with reference to the drawing. Show it:

Fig. 1

an eddy current mill in section;

Fig. 2

the eddy current mill rotor and stator;

Fig. 3

a portion of the tool carrier ring with several grinding tools in a perspective view;

Fig. 4

a section of the tool carrier ring with several grinding tools from the side and

Fig. 5

the tool carrier ring with several grinding tools on average according to 5-5 of FIG. 4.

The eddy current mill, as shown in FIG. 1, has a frame 10 which carries a drive motor 12 arranged with a vertical axis as well as a rotor 14 and a stator 16, which are likewise arranged with a vertical axis. The drive motor 12 drives the rotor 14 via a belt drive 18. The rotor shaft 20 is mounted with a vertical axis in a bearing housing 21 and this is mounted on a receiving housing 23. The rotor shaft 20 ends at the top in a pin 22 protruding from the bearing 21, on which the rotor 14 is arranged in a rotationally fixed manner.

As shown in FIG. 2, the rotor 14 is composed of a two-shell rotor core with an inner shell 26 and an outer shell 28, an upper and a lower tool carrier ring 30, 32 and grinding tools 34. The inner shell 26 sits rotationally fixed on the pin 22 of the rotor shaft 20 and is connected to the outer shell 28 at the lower end by means of an annular web plate 36 and at the upper end by means of a cover plate 38. The upper and lower tool carrier rings 30, 32 are each supported by support rings 40 which protrude from the outer shell 28. An intermediate plate 42 is arranged between the two support rings 40 and the rotor 14 is closed at the bottom by a base plate 44.

Grinding tools 34 are attached to the top and bottom of the tool carrier rings 30, 32 (FIGS. 3 to 5). The grinding tools 34 each have an angle 46 with a first leg 48 and with a second leg 50 projecting perpendicularly therefrom. The first leg 48 is clamped on the tool carrier ring 30, 32 by means of a first cylinder barrier 52 such that the second leg 50 lies in an axial plane. The alignment of the angle 46 is secured by a roll pin 53 between the second leg 50 and the tool carrier ring 30. A wear plate 54 is clamped against the second leg 50 by means of a second cylinder screw 56 and a plate spring 57. For this purpose, the wear plate 54 has a central bore 58. The wear plate 54 is diamond-shaped, so that one edge, the grinding edge 60, is aligned parallel to the inner side wall 62 (FIG. 2) of the stator 16, while the adjoining edges run horizontally and at right angles to the rotor axis. The lower edge of the wear plate 54 is seated on the tool carrier ring 30, 32, as a result of which the wear plate 54 is inevitably aligned during assembly.

A large number of such grinding tools 34 are arranged at the same angular distance on the top and bottom of each tool carrier ring 30, 32. The wear plates 54 are made of hard metal and have a thickness of approximately 4 mm. The edge surfaces 64 are each at right angles to the main plane of the wear plates 54. The edges between the edge surfaces 64 and both sides of the wear plates 54 are all sharp when new. If the grinding edge 60 has become blunt in use, the wear plate 54 is mounted rotated through the second cylinder screw 56 by 180 °, so that the opposite edge is now used as the grinding edge 60. If this edge has also become blunt, the wear plate 54 is turned over and first one and then the other intermediate edge of the opposite side of the wear plate 54 is used. The four remaining edges can then be used in the same way by mounting the wear plate 54 on the other side of the tool carrier ring 30, 32.

The wear plate 54 can also be square. The four edges on one side of the wear plate 54 can then be used one after the other by turning through 90 ° as the grinding edge 60. By turning the wear plate 54, the four edges on the opposite side of the wear plate 54 can then be used as the grinding edge 60.

LIST OF REFERENCE NUMBERS

10

frame

12

drive motor

14

rotor

16

stator

18

belt drive

20

rotor shaft

21

bearing housing

22

spigot

23

receiving housing

26

inner shell / hub

28

outer shell

30

upper tool carrier ring

32

lower tool carrier ring

34

grinding tools

36

web plate

38

cover

40

supporting rings

42

intermediate plate

44

baseplate

46

angle

48

first leg

50

second leg

52

first cylinder screw

53

dowel pin

54

wear plate

56

second cheese head screw

57

Belleville spring

58

drilling

60

Mahlkante

62

Side wall

64

edge surfaces

Claims (6)

Grinding tool (34) for an eddy current mill with a rotor (14) which rotates at high speed in a stator (16), the grinding tool (34) having a wear plate (54) with a grinding edge (60) and a number of these grinding tools (34) can be fastened on the circumference of the rotor (14), characterized in that the wear plate (54) is detachably fastened so that it can be fastened in several orientations and in each case a different edge acts as a grinding edge (60). Grinding tool (34) according to claim 1, wherein the wear plate is releasably clamped at an angle so that it can be aligned in several positions, and wherein one of the edges of the wear plate acts as a grinding edge. Grinding tool (34) according to claim 2, wherein the wear plate is tensioned against the angle by inserting a disc spring by means of a cylinder screw. Grinding tool (34) according to one of claims 1 to 3, wherein the wear plate is diamond-shaped and is fastened in the center. Grinding tool (34) according to claim 4, wherein the wear plate is square. Grinding tool (34) according to one of claims 1 to 5, wherein it consists of hard metal.

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