Agitating – Rubber or heavy plastic working – With specified feed means
Reexamination Certificate
1999-05-27
2003-02-25
Cooley, Charles E. (Department: 1723)
Agitating
Rubber or heavy plastic working
With specified feed means
C366S155100, C366S301000, C366S603000
Reexamination Certificate
active
06523988
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an apparatus for processing foodstuff or feedstuffs that includes a conditioning device formed by a mixing chamber coupled to and arranged over a retention chamber. Each of these chambers include a rotor shaft that extend lengthwise into the chambers, and each of the rotor shafts are provided with tools that are arranged around the rotor shafts.
2. Discussion of Background Information
A preconditioner for an extruder is known from U.S. Pat. No. 4,752,139. The preconditioner consists of a large and small chamber, which each exhibit a separate mixing shaft with beaters. The mixing shaft in the small chamber is faster than the other mixing shaft, so that the product remains in the large chamber a relatively longer time. According to U.S. Pat. No. 4,752,139, the product first passes into the small chamber, where it is thoroughly mixed, then proceeds to the large chamber, and then back to the small chamber, from which the product passes to an extruder. Since both chambers serve as mixing chambers, the actual retention time for various parts of the processed material is difficult to determine in advance, i.e., some parts will be processed for a longer time, while other parts will be processed for only a short time.
U.S. Pat. No. 5,460,448 also discloses a preconditioner with intermeshing mixing chambers. The mixing tools situated on the shafts in the respective chambers are arranged in such a way as to convey first in one and then the other direction, which achieves a good mixing result, but results in a poor setting of the retention time. As in U.S. Pat. No. 4,752,139, mixing takes place primarily in the central area between the- chambers. Similarly, the preconditioner according to U.S. Pat. No. 5,161,888 has two interconnected mixing chambers.
A device of the type discused above is described, for example, in the form of a preconditioning device in U.S. Pat. No. 4,001,452. In this publication, a preconditioning device is used in combination with an extrusion device (in the most general of terms), namely a feed cube press. Of course, the area of application is not limited to this kind of extrusion device. Rather, applications exist anywhere that foodstuffs or feedstuffs, in particular foodstuffs with a high percentage of flour, e.g., in seed and cereal grains, in the form of flakes, etc., are to be processed into an end product. These ingredients are first mixed with water and treated with steam before being processed further.
The known device consists of two chambers. One chamber accommodates a shaft with mixing tools, while the downstream chamber serves as a retention chamber, and therefore contains only one screw conveyor. As a result of this task allocation, the ingredients are first thoroughly mixed, and then allowed to interact for a prolonged time in the retention zone. The disadvantage to this arrangement is that using just one screw conveyor supplies the downstream extrusion device in batches, since it has been shown that the material is subjected to slippage relative to the screw conveyor. In this case, material first accumulates in front of the outlet end of the screw conveyor before surging out of the device. However, the downstream device is comprised of an extruder (in the narrower sense of the word), and the result is that the extruder receives an irregular supply, i.e., cannot be operated to full capacity. In addition, the discharge of material from the retention zone in batches results in an uneven treatment of the material.
In principle, this is also the case with respect to U.S. Pat. No. 4,161,139, in which a first mixing chamber is set up. However, this mixing chamber then divides the material into two retention chambers, which are large relative to the mixing chamber and situated next to each other at the same distance, with one screw conveyor each. Since the mixing chamber is small, only a very small portion of the mixed material makes it into each retention chamber. Evidently, the objective here was to balance out the amounts conveyed, hoping that the surging amounts of conveyed material would not always exit at the same time, thereby allowing the quantity conveyed to even out overall. Even if this had been the goal, it was a statistical miscalculation, since while the quantity conveyed might well have been evened out in some instances, the surging material could in other cases also have been simultaneously conveyed into the next device, compounding the non-uniform distribution even more. The known device also makes no sense in terms of the desired preconditioning, since little room is set aside for mixing, so that in part only insufficiently mixed material is present in the two separate retention chambers.
As evident, then, the disparate requirements of a short, yet thorough mixing, a sufficiently uniform retention time and an as uniform as possible continued transport of the preconditioned material can only be satisfied with difficulty. Another problem is that hygiene conditions must always be ensured during the manufacture of foodstuffs and feedstuffs. However, these conditions are only possible in the known devices by repeatedly turning off the machine during relatively time-consuming cleaning procedures. This results in down times that are practically unacceptable today.
SUMMARY OF THE INVENTION
Hence, the invention relates to a device of the kind mentioned at the outset that additionally includes a second shaft provided within the retention chamber, such that the second shaft is provided with tools arranged around the second shaft, and the second shaft and the rotor shaft of the retention chamber are arranged so that their respective tools intermesh.
As in U.S. Pat. No. 4,161,139, the mixing chamber is situated above the retention chamber, which exhibits two shafts.
However, the basic difference is that two separate retention chambers are not provided. Rather, the tools on both shafts intermesh for conveyance purposes. As a result of the fact that two shafts now interact during conveyance in the manner known for double screw extruders, the respective downstream device, e.g. an extruder, is uniformly supplied and can be operated at full capacity, thereby raising overall production. Moreover, the uniform conveyance leads to a more uniform preconditioning, which produces a uniform taste, in particular in foodstuffs.
However, the fact that the tools on the shaft intermesh has another advantageous effect which is, specifically reflected in a continuous self-cleaning of the tools. In this manner hygiene problems can be preluded more easily and down times can be reduced for cleaning purposes. The additional feature that the tools are intended for conveyance is also what ensures the desired relatively uniform retention time.
In particular a balanced ratio between mixing and retention time can be realized, and this feature can be achieved, e.g., if necessary, with paddles to exert a certain mixing effect in addition to the conveying action.
The present invention is directed to an apparatus for processing foodstuffs or feedstuffs. The apparatus includes a conditioning device including a mixing chamber and a retention chamber. The mixing chamber is coupled to and arranged over the retention chamber. Each of the mixing and retention chambers includes a rotor shaft arranged to extend lengthwise into the chamber, and each rotor shaft includes tools arranged around the shaft. The retention chamber further includes a second shaft and tools arranged around the second shaft, and the tools of the rotor shaft of the retention chamber and of the second shaft are arranged to intermesh.
According to another feature of the present invention, the tools of the retention chamber can include conveyor paddles.
In accordance with another feature of the invention, an extruder can be coupled downstream, relative to a direction of movement of the foodstuffs or feedstuffs, from the conditioning device. The extruder can include two screw conveyors, which can be two intermeshing screw conveyors.
Accordi
Berdais Karl-Heinz
Meyer Markus
Rutishauser Stefan
Buhler AG
Cooley Charles E.
Greenblum & Bernstein P.L.C.
Sorkin David
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