Agitating – Stirrer within stationary mixing chamber – Rotatable stirrer
Reexamination Certificate
2001-11-05
2004-04-13
Soohoo, Tony G. (Department: 1723)
Agitating
Stirrer within stationary mixing chamber
Rotatable stirrer
C366S315000, C366S186000, C241S178000, C241S186500, C425S202000
Reexamination Certificate
active
06719454
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a device for preparing plastic material, in particular, thermoplastic material, which comprises a receptacle for the material to be treated, in which tools are provided to act onto the material which rotate about a vertical axis and are driven by a shaft passing through the bottom of the receptacle, the tools being supported by a support disc, and further comprising, for discharging the material from the receptacle, a screw, the housing of which communicates with a discharge opening of the receptacle, the discharge opening being below the path of rotation of the tools and lower than the support disc, and additional moving tools being provided below the support disc within the receptacle for conveying the material into the discharge opening. Furthermore, the invention relates to a method for preparing such plastic material.
Devices of this kind and similar ones are known, e.g. from AT 396,900 B or AT E 128,898 T. In the first-mentioned known construction, preponed to the receptacle which communicates with the screw housing is a further receptacle wherein further tools are provided which act onto the material introduced. Both receptacles are interconnected by a short piece of pipe which can be shut by a valve so that the receptacle communicating with the screw housing may be set under vacuum.
In the second-mentioned known construction, the receptacle is subdivided into two chambers lying one above the other which communicate with each other by one channel only. A further screw is arranged within this channel and conveys the material, after being treated by the tools provided in the upper chamber, down into the lower chamber from which the material is discharged by the first-mentioned screw.
The disadvantage of great constructive expenditure is characteristic for both known devices. In the case of the first-mentioned construction, there is, moreover, the drawback that a relative high percentage of plastic particles, passing the device, will reach the second receptacle on the shortest way, without any pre-treatment, i.e. without comminution, pre-heating, drying, pre-compacting and so on, and will pass from there again on the shortest way to the plastifying screw. This proportion of plastic material, being either not treated or poorly treated, will form inhomogeneous nests of plastic material in the screw and is detrimental to the quality of the plastified material. Therefore, if one wants to obtain a final product, be it granulated material or be it an object extruded into a mold, in a desired uniform quality, the screw, that discharges the poorly prepared material from the receptacle, has to bring the whole material conveyed by it up to the desired quality and temperature at the screw's outlet in order to be able to extrude the material with the desired homogeneity. This outlet temperature has to be maintained relative high in order to ensure that all plastic particles are sufficiently plastified. This, in turn, involves an increased expenditure of energy and, moreover, the risk that thermal damages of the plastic material (reduction of the length of molecular chains) is to be feared due to the relative high outlet temperature. Furthermore, both known construction have the disadvantage not to allow a continuous operation. Moreover, the second-mentioned construction has the drawback that the plastic material in its plastified state is subjected to oxidizing reactions.
SUMMARY OF THE INVENTION
It is an object of the invention to improve a device of the type described at the outset so that as to avoid that freshly introduced material reaches the discharging screw without being sufficiently treated, on the one hand, and to simplify substantially both the device and its operation on the other hand. As a consequence, it is striven for reducing the expenditure of energy necessary for obtaining a homogeneous, good quality of the material conveyed by the screw. The invention solves this problem in that the upper inner space portion of the receptacle, which exists above the support disc, communicates with a lower inner space portion of the receptacle, being below the support disc in the same receptacle, via a free annular gap between the outer circumference of the support disc and the lateral wall of the receptacle, in which lower portion the additional moving tools and the discharge opening are located, a proportion of the material in the upper inner space portion reaching the lower inner space portion through the annular gap. Thus, the intake opening of the discharge screw formed by the discharge opening is neither at the level of the tools supported by the support disc nor a short distance above it, but below. Through the necessary free gap between the circumference of the support disc and the inner wall of the receptacle, part of the plastic material, that is caused to move around by the stop effect of the tools supported by the support disc and revolving in the upper inner space, reaches the region below the support disc, thus the lower portion of the inner space, where this material is treated again by the additional tools existing there and is finally introduced into the discharge opening of the receptacle and, thus, into the screw housing. Thus, the zone, where predominantly comminution and drying or pre-heating of the material is effected, is separated from that zone where the material is pressed into the screw housing. In this manner, an equilibrium will adapt itself after a short period of operation between the volume of material discharged by the screw below the support disc and the flow of material which enters the space below the support disc through the annular gap. The consequence is that the space below the support disc, that is substantially filled with material to be discharged by the screw and revolves in form of a mixing spout, provides a certain resistance to discharging the material so that only an insignificant proportion of the material freshly introduced into the receptacle, if at all, may immediately pass down into the region below the rotating support disc. This contributes to ensure a sufficient dwelling time of the material within the receptacle, particularly in the region above the support disc. In this way, the temperature of the material introduced into the discharge opening of the receptacle is homogenized, because substantially all plastic particles in the receptacle are sufficiently pre-treated. The approximately constant temperature of the material entering the screw housing has as a consequence that inhomogeneous plastic nests within the housing of the extruder screw are eliminated to a wide extent, thus enabling to make the screw's length shorter than in known constructions, because the screw needs to work less to bring the plastic material surely up to a uniform plastifying temperature. The constant entering temperature of the plastic material into the screw housing causes, furthermore, a uniform pre-compaction of the material within the screw housing which is favorable for the conditions at the extruder opening, particularly as to a uniform throughput through the extruder and a uniform quality of material at the outlet of the extruder. The shortened screw length results in energy savings and in a reduced treatment temperature in the extruder, as compared with known constructions, because the average temperature at which the material enters the screw housing is more uniform than in the known constructions. Thus, the treated plastic material, when seen over the whole treatment procedure, has to be brought up to a less elevated temperature according to the subject of the invention in comparison with known constructions in order to be sure to achieve a sufficient plastification. This reduction of the top temperatures has as a consequence the above-mentioned savings of energy and, moreover, avoids thermally damaging the material to be treated.
As may be seen, the device according to the invention may be operated either continuously or in batches, thus being more universal in application than
Bacher Helmut
Schulz Helmuth
Wendelin Georg
Soohoo Tony G.
Townsend and Townsend / and Crew LLP
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