AT510414B1 - PELLETIER DEVICE - Google Patents

Abstract

A press for producing compacts has an outer ring (1) provided with apertures (3) and an inner ring (2) provided with perforations (4) in the outer ring (1) and connected to the outer ring (1 ) limits a press nip (9). The outer ring (1) is rotationally driven and rotatably supported only on one side by means of a first sleeve (12) and the inner ring (2) is eccentric to the rotation axis (7) in the first sleeve (12) on a non-rotating pin (23). the outer ring (1) stored.

Description

Austrian Patent Office AT510 414B1 2012-04-15

Description: The invention relates to a press for producing compacts having an outer ring provided with perforations and having an inner ring provided with apertures in the outer ring and defining a press nip with the outer ring, the outer ring being driven in rotation and is rotatably mounted only on one side by means of a first sleeve.

From JP 59-199198 A a generic press is known.

From AT 346 705 B a press is known, the arrangement of two apertured rings known from this disclosure offering the advantage of a high throughput of material to be compacted, since both through the inner and the outer ring compacts, e.g. Pellets to be pressed. Also, the press nip can be made advantageous because it has a slowly narrowing (small feed angle) press nip and the press nip can be made relatively long, which ensures a good collection of press material. The problem with such a construction, however, the storage of the inner and outer ring, since high pressing forces must be absorbed and also a sufficiently large space for the supply of the material to be pressed and the removal of the compacts must be present.

To achieve this object is proposed in a press of the type mentioned that the inner ring is mounted in the first sleeve on a non-rotating pin eccentric to the axis of rotation of the outer ring.

Since the outer ring is rotatably supported only on one side via a sleeve and the inner ring is mounted only in the sleeve, so only one side, the second side remains for the supply of the material to be pressed and the ejection of the compacts from the inner Ring free. Due to the bearing of the inner ring over the journal mounted in the sleeve, despite the one-sided bearing, a very compact construction with relatively low bending moments and resulting bearing forces is possible on the other side. By the non-rotating pin finally required by the different diameters of the inner and outer ring eccentric bearing of the inner ring in the outer ring is possible.

The eccentricity of the axis of rotation of the inner ring relative to that of the outer ring can be realized according to the invention according to two preferred embodiments, which can also be combined with each other if necessary.

In the first embodiment, the pin has a first portion with a first axis, which is mounted in the first sleeve, and a second portion with a second axis, on which the inner ring is rotatably mounted, wherein the first axis and the second axis are arranged eccentrically.

In the second embodiment, a second sleeve is not rotatably mounted in the first sleeve, which has a bore which is arranged eccentrically and in which the pin is not rotatably mounted.

When different materials are to be processed, it is advantageous if the size of the press nip is adjustable. In addition, it can be compensated for wear of the rings, which may also require a post-processing of the pressing surfaces.

In both embodiments mentioned above, this is possible. In the first embodiment, by turning the pin and in the second embodiment by twisting the second inner sleeve.

Depending on how large the difference in diameter between the outer diameter of the inner ring and the inner diameter of the outer ring, a different sized eccentricity of the axes of rotation of the outer ring and the inner ring is required. Therefore, a combination of the first and the second embodiment is advantageous, in which a portion of the eccentricity is generated with the aid of the pin and the other portion of the eccentricity with the aid of the second sleeve , The pin can not be rotatably mounted and displaceable only in the radial direction, wherein the adjustment of the size of the press nip can be accomplished only by turning the second sleeve.

The second sleeve and / or the pin can according to the invention by an angular range, which is preferably between 0 ° and 180 °, be rotated. This allows maximum adjustability of the size of the press nip.

Further preferred embodiments of the invention are the subject of the remaining dependent claims.

Further features and advantages of the invention will become apparent from the following description of a preferred embodiment of the invention with reference to the accompanying drawings. 1 shows a schematic view of an embodiment of the invention in the axial direction, FIG. 2 shows a section through the press of FIG. 1 along the line II-II, [0018] FIG. 3 shows a section through FIG Figure 1 shows the press of Figure 1 taken along the line III-III; and Figure 4 shows a detail of the rings with their apertures.

In the accompanying drawings, an embodiment of a press according to the invention is schematically shown, which has an outer ring 1 and only a single inner ring 2, both apertures 3, 4, through which material can be pressed to process into compacts is. The outer ring 1 rotates about a fixed axis 7 and the inner ring 2 about an axis 8, which may be rigid, but in a preferred embodiment of the invention is adjustable.

Between the two rings 1, 2, a press nip 9 is formed, in which the material is drawn by the rotation of the two rings 1, 2 in the direction of the arrow 10. As the press nip decreases visibly in the direction of the arrow 10, the material is compressed between the two rings 1, 2 and then forced through the apertures 3, 4, whereby compacts, e.g. Pellets are produced with a cross-sectional shape corresponding to the shape of the openings 3, 4.

The outer ring 1 is connected via a disc 11 with a first sleeve 12 which is rotatably supported by bearings 13, 14 in a machine frame 15. In particular, the disk 11 and the sleeve 12 may also be made of one part. On the sleeve 12, a gear 16 is fixed, which is driven by a drive, not shown, via a chain, another gear or other drive means. Instead of the gear 16, a pulley or other drive means may be arranged on the sleeve 12. A direct drive by means of a motor is possible. Via the gear 16, the sleeve 12 and the disc 11 thus the outer ring 1 is driven in the direction of the arrow 10. The inner ring 2 is not driven separately in the illustrated embodiment, but also rotated by the material located in the press nip 9. A separate drive would be theoretically possible.

Within the outer sleeve 12, a further inner sleeve 19 is rotatably supported via bearings 17, 18, the bore 20 is arranged eccentrically with respect to its outer periphery 21. The axis 22 of the bore 20 is thus eccentric or parallel to the axis of rotation 7 of the outer sleeve 12th

In the bore 20, a pin 23 is rotatably mounted, which has a first portion 24 which is received in the bore 20, and a second portion 25, on which a carrier 26 in the form of a disc with a flange 27 freely rotating is mounted, on which the inner ring 2 is fixed.

The axis 8 of the second portion 25 of the pin 23 is eccentric to the axis 22 of its first portion 24. The pin 23, a lever 28 is attached, via which a free Austrian Patent Office AT510 414B1 2012-04-15

Rotation of the pin 23 is prevented. At the second, inner sleeve 19, a lever 29 is also secured with the free rotation of the sleeve 19 is prevented. However, due to the eccentricity of the bore 20, the position of the pin 23 or its axis 8 can be changed with respect to the axis of rotation 7 of the outer ring 1 by selectively rotating the sleeve 19 by means of, for example, hydraulically or manually driven lever 29 At the same time, the position of the second portion 25 of the pin 23 rotatably mounted inner ring 2 is changed to the position of the outer ring 1, whereby the size of the press nip 9 can be changed. The pin 23 is held in its orientation during this adjustment by its lever 28, but can be moved in the direction of the lever 28, since the lever 28 forms a guide in the radial direction for the pin 23.

Since in the illustrated embodiment, the pin 23 by its two eccentric axes 8 and 22 increases the eccentricity of the inner ring 2 in the outer ring 1, it would be theoretically conceivable that the eccentricity of the inner ring 2 in the outer ring and thus the size of Pressing gap 9 is additionally adjusted by turning the pin 23 via the lever 28. Theoretically, it would also be possible to arrange the bore 20 in the sleeve 19 centrally in the outer sleeve 12 or to store the pin 23 directly in the outer sleeve 12 and thus completely dispense with the inner sleeve 19, whereby the eccentricity of the axis of rotation 8 of inner ring 2 to the axis of rotation 7 of the outer ring 1 and thus the size of the press nip 9 could be adjusted or changed only by turning the pin 23.

Furthermore, it would theoretically also be possible not to perform the pin 23 with two eccentric axes 8 and 22 but to arrange the two sections 24 and 25 coaxial, whereby the eccentricity of the axis of rotation 8 of the inner ring 2 to the axis of rotation 7 of the outer ring 1 only could be adjusted or changed by the eccentricity of the inner sleeve 19.

In Fig. 1, two extreme positions of the inner ring are exemplified, with a position in which the press nip 2 approaches zero, is designated by the 2, and the other extreme position, which are set, for example, for assembly or maintenance purposes can, with 2 'is designated. Between these two extreme positions, all desired operating and assembly or maintenance positions are infinitely adjustable.

The inner sleeve 19 and / or optionally the pin 23, if this is to be rotated, can be rotated by means of the levers 28 and 29 by a certain angle, which can be between 0 ° and 180 °, whereby the maximum adjustment could be used. In practice, the angle of rotation of the inner sleeve 19 and / or the pin 23 but could also be less than 180 °, if a not so large adjustment of the press nip 9 is desired.

2 and 3 it can be seen that the storage of the rings 1 and 2 opposite side (in Fig. 2 and 3, the right side) is substantially free and a surrounding the rings 1, 2 housing 30th is closed on this side only by a cover 31, which is shown only in Fig. 2, which has a feed opening at a suitable location to supply material to be pressed between the two rings 1 and 2. Furthermore, a discharge opening for compacts is provided in the lid 31, through which the compacts, which were pressed through the openings 4 in the inner ring 2 into the interior of the ring 2, can be removed therefrom. Finally, a further discharge opening is provided in the housing 30 at the bottom, through which the compacts, which were pressed through the openings 3 in the outer ring 1, can be removed.

Between the openings 3, 4 are webs 5, 6, wherein the apertures 3, 4 and the webs 5, 6 of the two rings 1, 2 are arranged so that they are seen in the direction of the axes 7, 8 against each other are offset, that the openings 4 of the inner ring 2 are exactly opposite the webs 5 of the outer ring 1 and the openings 3 of the outer ring 1 are exactly opposite the webs 6 of the inner ring 2. In this way it can be avoided that the webs 5, 6 come to lie exactly above one another, which improves the efficiency of the press according to the invention. 3.5

Claims (10)

Austrian Patent Office AT510 414B1 2012-04-15 1. Press for the production of compacts with an outer, with perforations (3) provided with ring (1) and with a in the outer ring (1), with perforations (4) provided inner ring (2), which defines a press nip (9) with the outer ring (1), wherein the outer ring (1) is rotationally driven and rotatably supported only on one side by means of a first sleeve (12), characterized in that the inner ring (1) 2) in the first sleeve (12) on a non-rotating pin (23) eccentrically to the axis of rotation (7) of the outer ring (1) is mounted. 2. Press according to claim 1, characterized in that the pin (23) has a first portion (24) with a first axis (22) which is mounted in the first sleeve (12) and a second portion (25) with a second axis (8) on which the inner ring (2) is rotatably mounted, and that the first axis (22) and the second axis (8) are arranged eccentrically. 3. Press according to claim 1 or 2, characterized in that in the first sleeve (12) a second sleeve (19) is not rotatably mounted, which has a bore (20), which is arranged eccentrically and in which the pin (23 ) is not rotatably mounted. 4. Press according to claim 3, characterized in that the second sleeve (19) by an angular range, which is preferably between 0 ° and 180 °, is rotatable. 5. Press according to claim 4, characterized in that the second sleeve (19) has an adjusting drive, which is for example a manually or hydraulically actuated lever (29). 6. Press according to one of claims 2 to 5, characterized in that the pin (23) by an angular range, which is preferably between 0 ° and 180 °, rotatable. 7. Press according to one of claims 3 to 5, characterized in that the pin (23) is not rotatably mounted but displaceable in the radial direction. 8. Press according to one of claims 1 to 7, characterized by a on the first sleeve (19) arranged gear (16) as a drive for the first sleeve (12). 9. Press according to one of claims 1 to 8, characterized in that the openings (3, 4) of the inner and outer rings (1, 2) in the axial direction (7, 8) are offset from each other. 10. Press according to claim 9, characterized in that between the openings (3, 4) webs (5, 6) are arranged and that the openings (3, 4) of a ring (1, 2) just above the webs (5, 6) of the other ring (2, 1) lie. 1 sheet of drawings 4/5