DE102006033028A1 - Extruder-gear pump combination, especially for forming tire tread strips, includes cooling channel switchable between higher and lower temperature supplies of coolant - Google Patents

Abstract

The The invention relates to an extruder-gear pump combination, with an extruder to which a gear pump (10) is connected, characterized in that the extruder and / or the gear pump (10) a cooling channel (18) as part of a cooling device (50) and that a switch for the cooling device (50) provided is, with which the temperature of the coolant in the cooling channel (18) between a higher and a lower temperature is switchable.

Description

The The invention relates to an extruder-gear pump combination, according to the preamble of claim 1.

An extruder-gear pump combination has been known for a long time. An example of such a solution is from the DE 38 33 777 A1 seen. In such a solution, the subsidized by the extruder, usually thermoplastic mass of a gear pump is supplied, which operates as a volumetric conveyor and thus allows accurate metering.

The viscosity the subsidized Mass usually hangs strongly from the temperature, especially with thermoplastic materials. Therefore, the right temperature of the combination of extruder and dental pump important. To achieve this, are mostly heating coils and possibly cooling channels provided, said document exemplifies the use of Cooling channels in the area of the extruder shows.

Furthermore, it has also been proposed to provide a cooling passage in gear pumps, which extends in the circumferential direction around a gear pump. The cooling of plain bearings can thereby also be done in different graded manner. An example of such a solution is from the DE 100 31 470 seen.

Finally, the axial cooling of the rotors of a gear pump in combination with a kneading extruder is known, including on the DE 42 11 516 C1 to refer. However, this solution has the disadvantage that the process space or process space itself can be influenced only to a slight extent by the cooling.

Extruder gear pump combinations are also for the extrusion of treads for tires used. This can especially in the so-called winding technology also a small quantity of tires economically to be edited. A thinner Strip out for this suitable material is extruded and placed on the tire in places wound up, where the application is desired. Although this takes much longer, as if the tread in a train, so with a turn the carcass, is applied. Nevertheless, this procedure is included Small series like to use.

The Winding technology, however, requires that the extruder and thus the Combination of extruder and gear pump stopped for tire change must become. If now only the supply of the extrudate stopped and the extruder screw is stopped, the cooling causes that to be extruded material in a relatively short time comparatively strong chilled and then practically to the "blockage" of the extruder or especially the gear pump leads. This is understandable establish undesirable, so it is also suggested to use the extruder at low speed continue to run, which, however, to an undesirably high Consumption of the tread material leads.

In contrast, lies The invention is based on the object, an extruder-gear pump combination according to the generic term to provide an improved adaptation to different applications the combination allows.

These The object is achieved by claim 1 solved. Advantageous developments emerge from the subclaims.

It is according to the invention provided, the cooling channel the cooling device over a Switch with coolant to apply different temperature. If the extruder and thus the gear pump is stopped, for example in the Wrap break, is a shorthand coolant of higher temperature through the Passed cooling channels. As a result, the extrudate remains well tempered, without overheating and the extruder can then be restarted immediately be when the next one Carcass to be wound.

With this surprising simple measure the problems with the blockage of the extruder are immediately solvable, and additional Extrudate is not consumed. Rather, it turns out surprisingly that even the ejected after a stoppage wrap of good quality is, so that immediately after winding can be started the extruder was restarted.

Particularly according to the invention Cheap It is when the extruder switches the switch at its start and at his stop automatically pressed. A motor stop of the extruder and the gear pump then effected automatically a switch to coolant with higher Temperature and a restart then automatically leads to the supply of coolant with lower temperature.

In this case, two operating states, namely the warmer and the colder cooling liquid, are basically to be understood as switchover and switching. However, this should not be ruled out that a variety of other operating conditions is also covered. For example, a coolant temperature control can be installed, which operates in dependence on the speed of the extruder and the coolant temperature lowers when the extruder and the gear pump are running faster. In this respect, an inventive switch could also be referred to as a continuously variable changeover switch.

Especially Cheap it is more advantageous in accordance with the invention Embodiment, when the leadership of the Cooling channels at the local cooling requirements is adjusted. In this context, it is advantageous if at narrow flow cross sections a greater distance is maintained by the procedure room. The cooling channel then cools this narrow flow section correspondingly less, so that the material flowing there is a greater temperature and thus has an improved flowability. Surprised shows that a short-term and localized temperature increase is not leads to degradation, while a temperature increase throughout the extruder, for example by 5 ° the material properties critical can influence.

Particularly according to the invention Cheap It is that, especially with the bottlenecks, such as nozzles, transitions and Like., The temperature even when the extruder and the Gear pump is not lowered too much. Just there, it tends to strongly cooled Extrudate namely for plug formation, which according to the invention can just be avoided.

In further advantageous embodiment of the invention, it is provided to record the temperature of the extrudate and in dependence hereof the temperature of the coolant to influence. For example, when switched off or slow-running Extruder and correspondingly reduced heating of the extruder as well the cooling the gear pump can be reduced by adding to a coolant higher Temperature used becomes.

It is possible, too, the control of the heating of the extruder with the control with the Control of cooling to combine the gear pump. This allows optimal temperature control independently of Operating condition of the extruder in combination with the gear pump guarantee.

Further Details, advantages and features will be apparent from the following Description of two embodiments the invention with reference to the drawing.

It demonstrate:

1 a perspective view of a gear pump of a gear pump extruder combination according to the invention in one embodiment;

2 a section through a gear pump disc, corresponding to the line AA 3 ;

3 a side view of the gear pump disk according to 2 ;

4 a modified embodiment of a gear pump disc, in the sectional view according to 2 ; and

5 a schematic view of a cooling circuit according to the invention for an extruder-gear pump combination.

Out 1 is a gear pump 10 for an extruder gear pump combination having a cooling passage. The gear pump 10 is designed as a two-disc gear pump, the two discs 12 and 14 out 1 can be seen. The gear pump has in a conventional manner four evenly distributed outlet openings 16 for the extrudate. It is a cooling channel 18 provided, in the illustrated embodiment, a connecting pipe 20 between the first extruder disk 14 and the second extruder disk 12 having. The first extruder disk 14 also carries an input port 22 for the coolant in the cooling channel 18 to flow, and the second disc 12 has an output terminal 24 for the coolant on.

With This connection results in a serial flow through the Gear pump discs by the coolant, it being understood that instead of a parallel flow without further possible is.

The location of the respective cooling channel is off 2 making a cut through a gear pump disk 12 shows, visible.

The cooling channel 18 runs substantially in the circumferential direction of the disc 12 However, particularly shaped constrictions are provided. For cooling the gears provided in the corresponding recesses 26 and 28 is the cooling channel 18 brought very close to this. The material thickness is there, for example, in the area of the smallest distance 30 only 5 mm.

According to the invention, it is particularly favorable that the corresponding distance 34 between flow channels 36 and the cooling channel 18 significantly larger than the distance 30 is and can be for example 12 mm. The flow channels 36 form bottlenecks for the extrudate, so that it is favorable that the extrudate is locally a little warmer and therefore flows better.

It is understood that this embodiment with a substantially cloverleaf-shaped cooling channel 18 merely by way of example, and a possibility of flow optimization of the extrudate represents.

Out 3 can be seen as the input terminal 38 the disc 12 and the output terminal 24 are realized.

Out 4 is a further embodiment of a cooling channel according to the invention 18 seen. There are the distances 34 and 30 each substantially the same, so that there is a uniform cooling.

Out 5 it can be seen how the switching according to the invention can take place. The gear pump 10 has the cooling channel 18 on, the part of a cooler 50 is. The cooling device 50 has a switch 52 on that between a primary cooling circuit 54 and a secondary cooling ice skating 56 can switch. A symbolically represented pump 58 ensures the coolant circulation.

The primary cooling circuit 54 has no heat exchanger, while the secondary cooling circuit with a heat exchanger 60 is provided. As a result, cooling of the coolant is ensured. In contrast, the primary cooling circuit is practically a kind of short circuit and thus does not cool or almost not.

Accordingly, when the extruder and the gear pump are turned off 10 the switch 52 placed in the position in which the primary cooling circuit is active while working with the gear pump 10 is switched to the position in which the secondary cooling circuit is active.

Claims (11)

Extruder-gear pump combination, with an extruder to which a gear pump is connected, characterized in that the extruder and / or the gear pump ( 10 ) a cooling channel ( 18 ) as part of a cooling device ( 50 ), and that a switch for the cooling device ( 50 ) is provided, with which the temperature of the coolant in the cooling channel ( 18 ) is switchable between a higher and a lower temperature. Extruder-gear pump combination according to claim 1, characterized in that the cooling channel ( 18 ) through the gear pump ( 10 ) is guided and in particular at narrow Strömungsquerschnit th of the material to be extruded a greater distance ( 34 ) of the flow cross-section. Extruder-gear pump combination according to claim 1, characterized in that the gear pump ( 10 ) of a plurality of discs, in particular of two discs ( 12 . 14 ) is constructed, which the cooling channel ( 18 ), and that the cooling channel ( 18 ) outside the process room. Extruder-gear pump combination according to one of the preceding claims, characterized in that the cooling channel ( 18 ) in a disc of a gear pump ( 10 ) is guided substantially in the manner of a cloverleaf and extends arcuately around process spaces around. Extruder-gear pump combination according to one of the preceding claims, characterized in that the distance ( 30 ) of the cooling channel ( 18 ) to the process space less than half the distance ( 34 ) to a flow channel ( 36 ) which is in the gear pump ( 10 ) is trained. Extruder-gear pump combination according to one of the preceding claims, characterized in that the switch for the cooling channel ( 18 ) is a changeover valve that, in particular outside the extruder and in particular outside the gear pump ( 10 ) is arranged. Extruder-gear pump combination according to one of the preceding claims, characterized in that the changeover switch to the cooling liquid at a higher temperature, when the extruder and / or the gear pump ( 10 ) and switches to low-temperature coolant when the gear pump ( 10 ) and / or the extruder is working. Extruder gear pump combination for one of the preceding claims, characterized in that the combination of a tread for tires produced in winding technology. Extruder gear pump combination according to one of previous claims, characterized in that the switch has a thermostat, the switching depending on the internal temperature in the process chamber makes. Extruder-gear pump combination according to one of the preceding claims, characterized in that the switch between a secondary cooling circuit ( 54 ) and a primary cooling circuit ( 56 ), wherein the primary cooling circuit ( 54 ) in particular as a short circuit for the gear pump cooling channel ( 18 ) is trained. Extruder-gear pump combination according to one of the preceding claims, characterized in that a temperature sensor is provided for the switch, which measures the temperature in the process space and that the temperature sensor at the same time for controlling the speed of the Extruder gear pump combination is used.