Agitating – Rubber or heavy plastic working – With specified discharge means
Reexamination Certificate
2000-09-01
2003-01-07
Soohoo, Tony G. (Department: 1723)
Agitating
Rubber or heavy plastic working
With specified discharge means
C366S091000, C366S100000, C425S205000, C425S207000, C425S209000
Reexamination Certificate
active
06502977
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an extruder plant for processing rubber mixtures or thermoplastics which includes a feed zone, a plasticizing zone and a pressure build-up zone. The extruder plant is equipped with a worm extruder and with a gearwheel extruder connected to the worm extruder downstream in the extruding direction and to which an extruding die for shaping the extrudate is capable of being connected.
2. Description of the Related Art
Rubber mixtures for the production of rubber products or thermoplastics are processed predominantly by worm extruders which typically comprise 1-worm or 2-worm extruders. Such extruders usually have three zones arranged in succession, the three zones comprising a feed zone for the supply of material, a plasticizing zone connected to the feed zone for converting the material supplied into the plastic state under the action of pressure and heat, and a pressure build-up zone which applies the necessary pressure for conveying the plasticized material through the extruding die used in each case for shaping the product.
Experience has shown that a worm assembly is not particularly suited for generating high static pressures because it has relatively low pump efficiency. Accordingly, the drive energy supplied in the pressure build-up zone is converted predominantly into heat and therefore often has to be discharged by cooling devices to avoid product damage due to overheating. This is undesirable in view of both the plant outlay and also the operational outlay.
A gearwheel pump has about three times as high a pump efficiency for the static pressure build-up compared to a worm gear. Appropriate extruder plants are known (for example in German reference DE 41 11 217 C1) which combine with one another the good properties of the worm extruder as a plasticizing device and the particular suitability of the gearwheel pump for generating high static pressures. In such plants, the outlet of the worm extruder is connected directly to the inlet of a gearwheel pump such that high extrusion pressures is generated with high efficiency. At the same time, there is the particular advantage that the extrusion pressure fluctuation (pulsation), which can often be detected in a worm extruder and is unfavorable for the product quality, is compensated as far as possible. One disadvantage of these plants, however, is the high plant outlay required for the worm extruder and the gearwheel pump.
It is also known to use a gearwheel pump itself as an assembly for plasticizing rubber mixtures. These plants dispense completely with a worm extruder. Such pump assemblies are therefore also designated as gearwheel extruders. It is important in these plants that the toothed spaces in the region of the conveying zone of the gearwheel extruder are always filled as completely as possible with the material to be processed to avoid air inclusions in the extrudate. The raw material must therefore be conveyed at a particular admission pressure uniformly into the gusset region of the gearwheels on the inlet side of the gearwheel extruder. For this purpose, for example, German reference DE 196 52 924 A1 discloses the use of so-called feed rollers which each consist of a pair of rollers running in opposite directions. The raw material is introduced through the nip of the rollers in the form of material strips, so that it is picked up by the rollers and fed under admission pressure into the gearwheel extruder.
However, the operation of feed rollers of this type presents extraordinary problems. More specifically, the operation of these feed rollers requires a very high degree of uniformity with regard to the supply of the raw material in the form of feed strips. The feed strips must have a constant cross section along the longitudinal direction, that is to say a constant thickness and width, so that neither temporary “overfeeding” nor “underfeeding” occurs with the feed rollers rotating at a constant rotational speed. Underfeeding leads to undesirable air inclusions, while overfeeding causes operating faults at the feed rollers because the excess material leads to the rollers being wound around and smeared with raw material and to the feed strip breaking off. The feed rollers must therefore be monitored in a particular way during operation which requires an undesirably high outlay in terms of personnel involved for this purpose.
SUMMARY OF THE INVENTION
The object of the present invention is to provice an extruder plant which avoids the disadvantages of the prior art along with a low outlay in operational and structural terms and allows particularly reliable operation with as uniform an extrusion pressure as possible.
This object is achieved according to an embodiment of the present invention by an extruder plant for processing rubber mixtures and thermoplastics including a feed zone, a plasticizing zone and a pressure build-up zone, comprising, a short extruder comprising a worm extruder having a reduced length and including only said feed zone of said extruder plant, and a gear-wheel extruder connected downstream of said worm extruder in an extruding direction and forming said plasticizing zone and pressure build-up zones, said gearwheel extruder having a downstream end connectable to an extruding die.
According to the present invention, a a worm extruder is connected to a gearwheel extruder in a series connection such that the gearwheel extruder simultaneously plasticizes the material and generates the static pressure while the worm extruder merely supplies the material. The worm extruder in the present invention is restricted in its overall length merely to the feed zone of a conventional worm extruder. That is, the worm extruder does not itself have any plasticizing zone. This type of extruder, which is designated hereafter as a short extruder, requires only a low structural outlay because the short extruder is not equipped with heating or cooling equipment.
The short extruder is a highly robust material draw-in assembly which can be fed with any desired physical embodiments of the raw material to be supplied. Accordingly, any type of raw material may be supplied including strip-like materials, the uniformity of which is no longer of any importance, granulates and even so-called puppets (rolls produced from strip-like material and having a diameter of, for example, 100 mm). The extruder plant according to the present invention may be used for processing high-viscosity materials such as, for example, rubber mixtures and thermoplastics. Furthermore, the inventive extruder plant is extremely simple to control and regulate.
To further reduce plant outlay, the short extruder and the gearwheel extruder may be driven by a common motor. In principle, the motor may comprise any desired type of motor but it is preferably designed as an electric motor. This simplification of the drive is readily possible because experience has revealed that the ratio of the necessary rotational speeds of the two extruders remains substantially constant for most materials over a wide range of rotational speeds. There are very few materials for which it is necessary to adapt the rotational speeds to optimal values at which the rotational speed ratio changes. Experience has shown that the range of variation is approximately from 1:1 to 1:0.9.
Two separate gears are respectively used for driving the gearwheel extruder and the short extruder. One of the two gears is connected to the common drive motor via a coupling and has a first output shaft for driving one of the two gears for one of the extruders and a second output shaft for power transmission that is drive-coupled to the drive shaft of the other of the two gears. In a preferred embodiment, the gear of the worm extruder is directly connected to the drive motor via a coupling. A drive coupling may be used to connect the two gears to one another. The drive coupling may comprise a belt mechanism which preferably comprises a toothed-belt to avoid slip but which may also comprise a V-belt. If required, the rota
Atecs Mannesmann AG
Cohen & Pontani, Lieberman & Pavane
Soohoo Tony G.
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