EP0699517A1 - Feed pelleting press - Google Patents

Abstract

The fodder block press has the inlet chute (11) fitted to an outer fixed housing (5) with the end of the chute located on a fixed flange (9). The end of the fixed flange has a small spacing from a rotating flange (10) which forms part of a screen bolted to the rotating press (3). Additional seals (13) are mounted to the fixed flange to prevent any spills through the gap mixing with the prepared blocks. The additional seals are mounted on a sprung support and can be made of a variety of materials. The sealing lips can also be replaced by bristles. An effective seal is provided by jets of compressed air which are directed out of the gap.

Description

The invention relates to a cube press according to the preamble of the independent claim.

For the production of feed cubes in feed cube presses, the powdery and / or granular product processed into feed cubes in a press mold is transferred from a feed to the moving press mold, with a relative movement between the feed medium and the press mold, which gap between the feed medium and the Mold required.

This gap offers the risk that unprocessed product will pass through this gap and thus avoid processing, i.e. thereby unprocessed with the manufactured feed cubes, i.e. the finished product is mixed.

The disadvantage is not only that it is undesirable to have a fine fraction in the feed cubes, but the disadvantage is particularly important when the product is heated and the resulting heating of the product serves as the last passage in which For example, bacteria can be made inactive with the help of this warming. Salmonella are a particular danger.

The last-mentioned danger is particularly serious, since this can lead to a further risk of contamination of the finished cubes with still active Salmonella.

There is a particular risk of circumventing the feed cube manufacturing process if, for whatever reason, there is a negative pressure after the cube press, for example in the subsequent cooler, which causes an air flow through the gap mentioned. If it is too only a small percentage and rather a very fine portion of the product, which bypasses the manufacturing process through the gap, this is not acceptable in connection with the recontamination of the cubes.

A cube press is known from German Offenlegungsschrift 26 00 648, in which the said gap is provided with a minimal amount of play in order to prevent passage of the floury product supplied as far as possible.

In a further German patent application DE 31 21 613 A1, a labyrinth seal is provided in a certain sense between a stationary front plate and an inlet cylinder 5 attached to the press mold, in the form of an annular incision in the front plate 8, into which the inlet cylinder protrudes and thereby there is a deflection baffle for any fine product that may be bypassing the manufacturing processes in order to prevent circumvention as far as possible.

An invention of a European patent specification 0 039 961 B1 seeks to solve the problem in such a way that a powdery product not covered by the manufacturing process is sucked off through channels on both sides of the press mold.

The first two examples of the prior art only insufficiently prevent the passage of unprocessed product through the gap mentioned, while the latter prior art, this on a complex, i.e. expensive way solves.

The task was therefore to solve the problem in a simple manner without having to use additional, driven means.

The object is achieved by the features of the first two method claims and the feature of the first device claim.

The advantage of the invention is that no fine product, which is not processed, can mix with the finished feed cubes.

In the following, the invention is explained in more detail with the aid of drawings which only show execution routes.

Fig. 1

ein Querschnitt durch eine Würfelpresse, halbschematisch und mit einem erfindungsgemässen Mittel in den Ausschnitten A und B dargestellt;

Fig. 2

ein Schnitt durch die Würfelpresse von Fig. 1, entsprechend den Schnittlinien I - I;

Fig. 3

der Ausschnitt A von Fig. 1, vergrössert und detaillierter dargestellt;

Fig. 4

der Ausschnitt B von Fig. 1, vergrössert und detaillierter dargestellt;

Fig. 5, 6 und 8 bis 11,

je eine Variante des erfindungsgemässen Mittels in der Darstellung gemäss Ausschnitt B von Fig. 1;

Fig. 7

eine Draufsicht von Fig. 6, ausschnittweise, gemäss Pfeilrichtung III von Fig. 6.

It shows:

Fig. 1

a cross section through a cube press, shown semi-schematically and with an agent according to the invention in sections A and B;

Fig. 2

a section through the cube press of Figure 1, according to the section lines I - I;

Fig. 3

the section A of Figure 1, enlarged and shown in more detail.

Fig. 4

the section B of Figure 1, shown enlarged and in more detail.

5, 6 and 8 to 11,

a variant of the agent according to the invention in the representation according to section B of FIG. 1;

Fig. 7

6 shows a top view of FIG. 6, in sections, according to arrow direction III of FIG. 6.

1 shows a cube press 1, as is sold worldwide by the applicant, for example, under the name "feed cube press", with a press mold 2 (the mold holes are not shown), which is fastened to a press mold carrier 3 by means of screws 17. The mold carrier 3 is arranged to be rotatable and drivable about an axis of rotation 4.

The mold 2 is surrounded by a housing 5, which is connected to an outlet part 12 in the lower area of the figure, with a view of the figure, through which the cubes lifted from the mold in a manner known per se into the next functional stage of the Processing, e.g. into a cooler.

A floury and / or granular product to be processed into cubes is fed via a feed device 6 through a feed opening 7 into a press mold cover 8, in which - not shown here - distribution elements guide the product to be processed into the inside diameter of the press mold.

The feed device 6 comprises a feed pipe 11, which is cut obliquely in such a way that the feed pipe 11 lies against the housing 5 in the upper area, as seen in the figure, while the lower area covers an orifice ring 9 around the product via this orifice ring 9 to lead into the mold cover 8.

The muzzle ring 9 is attached to the housing 5 and is therefore stationary.

Said mold cover 8 is also attached to the mold 2, specifically by attaching a fastening ring, as part 20 of the mold cover 8, to the mold 2 by means of fastening tabs 16.

However, it could also be a correspondingly designed mold itself, in which the function of the mold cover mentioned is integrated in the mold (not shown).

The mold lid 8 further has an annular wall 10, which borders against the feed opening of the muzzle ring 9, while maintaining an intermediate gap 29 (FIG. 3).

In order to prevent - as mentioned earlier - floury and / or granular product from passing through this gap 29 and thereby avoiding the manufacturing process of the cubes, a ring seal 13 is provided in the area between the ring wall 10 and the muzzle ring 9, which ensures that that no unprocessed product can mix with the finished feed cubes.

FIG. 2 shows that it is a ring seal, which shows a section according to section lines I and shows a support ring 21, which can also be seen in FIG. 1. This support ring 21 serves to receive a sealing ring 14, which lies tightly against the ring wall 10 of the press mold cover 8. This sealing ring 14 is made of Teflon, for example, in order to have a favorable sliding friction coefficient, since the sealing ring 14 is stationary while the ring wall 10 rotates with the mold 2.

In the case of cube presses which do not have a mold cover, the sealing ring 14 can bear directly on the mold 2.

The support ring 21 is held, for example, by the four support springs shown centrally to the muzzle ring 9, each support spring 18 being received by a support screw 45.

The ring seal 13 can be seen in more detail in FIGS. 3 and 4, which show enlarged sections A and B of FIG. 1.

FIG. 3 shows that with an O-ring 22 as an elastic sealing element, a further seal is produced between the support ring 21 and the muzzle ring 9, so that no unprocessed product in the left area in this direction either, with a view of FIG. 3 seen, the support ring 21 can penetrate, thereby preventing the aforementioned unprocessed product from mixing with the finished cubes.

From Fig. 3 it can also be seen that the support ring 21 is fixedly connected to the support spring 18 and furthermore the support spring 18 is fixedly connected to a swivel bracket 26 which is pivotally arranged at a free end 19 of the support screw 45. The movement of the swivel bracket 26 in the axial direction of the support screw 45 is limited on the one hand by a thread 23 of the support screw 45 and on the other hand by a limiting bolt 27.

Furthermore, the support screw 45 is received by a threaded nut 24 which is firmly connected to the housing 5. This makes it possible to move the suspension spring 18 in a direction parallel to the axis of rotation 4 forwards and backwards, thereby changing or changing the contact pressure of the sealing ring on the ring wall 10. to adapt to the corresponding need. With this forward and backward movement of the support ring 21, the O-ring slides on the surface of the orifice ring 9, always in sealing contact with the ring wall 10.

To fix the position of the support screw 45 in the threaded nut 24, a locking nut 25 is provided.

FIG. 4 shows an enlarged section B of FIG. 1. Since the elements in FIGS. 1 and 3 are the same, no further explanation of the elements is given.

5, on the other hand, shows a variant of FIG. 4, in the region of the cutout B, in that the radial seal of the O-ring 22 and the axial seal of the sealing ring 14 of FIG. 4 are combined in one element with the sealing ring 14.1. In order to make this possible, the sealing ring 14.1 - as can be seen from FIG. 5 - with an angle α predetermined, from 3 to 85 degrees, preferably 5 to 20 °, with respect to the muzzle ring 9, is arranged obliquely and in such a way that one at the free end of the sealing ring 14.1 provided radius R covers the gap 29. The remaining elements correspond to the elements already described in FIGS. 1 to 4 and are not repeated again.

The latter also applies to FIG. 6, in which an annular brush 30 is provided instead of the ring seal 13 of FIGS. 1 to 4 or the ring seal 13.1 of FIG. 5, in such a way that the bristles 31 cover the space between the Fill the muzzle ring 9 and the ring wall 10 in the area of the gap 29. For this purpose, a bristle holder 32, which serves to receive the bristles 31, is fastened to the housing wall 5 by means of a clamping means 33.

In FIG. 7, FIG. 6 is shown in a top view according to arrow III, in which it can be seen that the ring wall 10 moves with the direction of movement Z relative to the stationary brush 30 and the bristles 31 bend accordingly.

FIG. 8 shows a combination of a ring brush 30.1, the bristles of which also lie against the ring wall 10, and whose bristle holder 32 is received in a support ring 21.1. The support ring 21.1 is - as previously described - held by the support springs 18.

Also, as described earlier, an O-ring 22 is provided, which takes over the seal between the orifice ring 9 and the support ring 21.1. The other elements correspond to the figures described so far and are not repeated again.

FIGS. 9 to 11 show a different means than FIGS. 1 to 8, in order to prevent that no unprocessed product can be mixed with the finished cubes, by generating an air flow 34 shown as an arrow through the gap 29 in the direction shown to prevent product from moving through the gap 29 in the opposite direction of the air flow 34.

9 shows a support ring 21.2 with a sealing ring 14, which — as previously described — bears against the ring wall 10, and with a lip seal 38 as an elastic one Sealing element which abuts the orifice ring 9 and is shaped such that air pressure in a compressed air space 39, which is delimited by the support ring 21.2, the sealing ring 14, the lip seal 38 and by the orifice ring 9 and the ring wall 10, pass through the gap 34 and this prevents unprocessed product from penetrating into the compressed air space 39 in the opposite direction.

A connection 35 for compressed air is used to receive a tube charged with compressed air in order to lead this compressed air into the compressed air space 39 via a connecting tube 36 and an injection opening 37.

In order to prevent product from entering the compressed air space 39 through the gap 29, only a very weak air flow is sufficient, i.e. an air flow at a relatively low speed as long as the product cannot enter the gap 29 due to gravity, otherwise the air speed must be greater than the floating speed of the unprocessed product.

FIG. 10 shows a variant compared to FIG. 9, in that an annular air tube 40 with an annular air outlet nozzle 41 is provided, which allows compressed air to pass through the gap 29 in the flow direction 34.

The air pipe 40 is fastened to the muzzle ring 9 by means of a fastening means 42 and receives the compressed air via the connection 35 and the connecting pipe 36 as well as the injection opening 37.1.

The other elements correspond to those described earlier and are not repeated.

The variant of FIG. 11 compared to FIG. 10 is that the air tube 40 is not arranged stationary, but is connected to the suspension springs 18 already described, so that the air tube 40 is always in contact with the gap 29 by means of a stop 44, even in the event of inaccuracies in terms of the width of the gap 29 due to manufacturing or operation, in order to avoid any flow losses due to eddy currents between the air outlet nozzle 41 and the gap 29 to obtain.

For the possibility of movement of the air tube 40, a bellows 43 is provided between the air tube 40 and the connection 35 as a connection to the tube 40.

Instead of the overpressure in the space designated as compressed air space 39, a vacuum can be generated in the space to the right of the gap 29, as seen in the figures, so that atmospheric air flows through the connection 35, the space 39 and through the gap 29 in the direction 34 is sucked.

Legend

1

Feed cube press

2nd

Mold (holes not shown)

3rd

Mold carrier

4th

Rotation axis of 3

5

casing

6

Infeed device

7

Infeed mouth

8th

Press lid

9

Muzzle ring

10th

Ring wall from 8

11

Feed pipe from 6

12th

Outlet part

13, 13.1, 13.2 and 13.3

Ring seal

14 and 14.1

Sealing ring

15

Attachment

16

Mounting tabs

17th

Screws

18th

Suspension spring

19th

free end of the support screw 45

20th

Fastening ring part

21, 21.1, 21.2

Support ring

22

O-ring

23

Thread of 45

24th

Threaded nut

25th

Locking nut

26

Swivel tab

27

Limiting pin

28

---

29

gap

30, 30.1

Ring brush

31, 31.1

Bristles

32, 32.1

Bristle holder

33

Clamping means

34

Air flow

35

Connection for compressed air

36

Connecting pipe

37, 37.1, 37.2

Injection opening

38

Lip seal

39

Compressed air room

40

Air pipe

41

Air outlet nozzle

42

Fasteners

43

Bellows tube

44

attack

45

Lifting screw

Claims (13)

Feed cube press (1) with a stationary feed device (6) for feeding a powdery and / or granular product to be compressed into cubes into a moving press mold (2), whereby between the feed device (1) and the press mold (2) or one there is an annular gap associated with the mold (2), characterized in that means are provided which prevent said product from mixing through the gap (29) with the cubes released from the mold. Feed cube press according to claim 1, characterized in that the said means are a seal (13 to 13.3; 14, 22; 38) pressed against the feed device (6) and also against the press mold (2) or against the press mold cover (8) . Feed cube press according to claim 2, characterized in that the seal (13 to 13.3; 14, 22; 38) is circular and seals the gap (29) over the entire circumference. Feed cube press according to claim 1, characterized in that the said means is a circular brush (30, Fig. 6) pressed against the feed device (6) as well as against the press mold (2) or against the press mold cover (8), which brush Gap covering all around. Feed cube press according to claim 1, characterized in that said means is a brush (30.1) and an elastic sealing element (22), one of the two elements against the mold (2) or against the mold cover (8) and the other against the Feed device (6) is pressed. Feed cube press according to claim 2 to 5, characterized in that the seal (13 to 13.3; 14, 22; 38) or the brush (30.1) is movable and pressed by means of power. Feed cube press according to claim 2 to 5, characterized in that the seal (22; 38) is pressed elastically and with a predetermined preload. Feed cube press according to claim 1, characterized in that the said means is an air jet (34) directed through the gap (29) and the product. Feed cube press according to claim 8, characterized in that the air jet (34) is directed in a circle through the entire circular gap (29). Feed cube press according to claim 9, characterized in that said air jet flows circularly through one or more nozzles (41) of an annular air tube (40) provided around the feeding device (6) through the gap (29). Feed cube press according to claim 10, characterized in that the air tube (40, Fig. 10) is arranged stationary. Feed cube press according to claim 10, characterized in that the air tube (40, Fig. 11) is movably arranged. Feed cube press according to claim 2, characterized in that the seal is attached to a circular support ring (21; 21.1, 21.2), with a sealing body (22, 14) directed against the feed device (6) and against the pressing mold or pressing mold cover (8) ; 38; 30.1).

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