DD209999A1 - COOLING PAN FOR HIGH POLYMER STRENGTH - Google Patents

Abstract

Cooling trough for Hochpolymerenstraenge that emerge from the Giesskopf in the production of granules, which aims to achieve a uniform tempered, granulierfaehigen strand on short tub length and fulfills the task, with faster, the material nichtschaedigender Abkuehlung the gieskopfopfseitige Kuehl end with minimal To make force expenditure abrueckbar. The task is solved by a stationaeren and a sliding part of the cooling pan, the latter is pushed in the ready state during piecing under the stationary Kuehlwanne and is pressed back to catch the Stragege, wherein the distance of the Kuehlwasserspiegels of the casting head simultaneously reduced to 10 to 20mm. A connecting channel between the two cooling-tub parts, on which the overflowing cooling water flows at an increased speed, causes a special cooling effect over a short distance. The solution according to the invention can be used in all granulation sections between casting heads for polymeric melts and granulators.

Description

Title of the invention

Cooling trough for high polymer strands

Field of application of the invention

The invention is in the G _e Biet chemical fiber production in the granule production as a precursor of Kstrud erspi nne na ·

Characteristic of the known technical solutions

In manmade fiber plants, some of the high-modu- lated polymers in granular form are sent for further processing. For this purpose, a band or strand casting head is connected to the polycondensation or polymerization, from which these intermediates in the thickness of on average 2 - 5 tnm plastic emerge * Their temperature is only slightly below the substance-specific melt temperature. To prevent thermo-xidätiven damage, the strands are removed from the influence of atmospheric oxygen as soon as possible by immersion in a water bath and at the same time cooled down so far that granulation ait cutting knives is possible. The Teaiperaturabsenkung takes place in cooling tubs with lengths up to 15 m and different Querschnittsabinnungen * depending on dissipated heat

- 2 - nr mc <OQ0 * n

the supply is on. Cooling water amounts dimensioned while maintaining the uniform water level, See also H · Klare: "Synthetisohe lasers, made of polyamides", Akademie-Verlag Berlin 1963, page 77.

Lifting of the above-mentioned general type of cooling bath in water of a water pond, other, more specific embodiments are known, the requirements in the direction of the spatial arrangement, the cooling rate, or the! TransportMöglichkeit to the next processing stage, which usually represents as Granuliereinrichtung fulfill. If difficulties arise due to spatial limitations for the erection of a longer cooling trough, this circumstance can be taken into account with the solution according to DE 2'45725O, in which short, deep "water tanks are provided, in which cast strands or tapes are led to the tank bottom A disadvantage here is that deep wells with high water levels have an uncontrollable course of the coolant flows, so that the cooling process, which should follow a material-dependent cooling curve, is made unstable fast running through the cooling does not ensure complete by cooling of the strand to the core "cutting beards are the granulation '' ren inevitable. They are a major cause of undesired attrition. Terrible cooled strands give a for bonding and. agglomeration tending Granules forming in the sump 3rück. Sin very slow cooling requires on the other hand long cooling sections, which are rarely to implement in existing plants. Long tubs restrict transport and escape routes.

Furthermore, care must be taken that cooling strands are not subjected to oxidative influence. For this reason, the pouring nozzles should also be arranged only 10-20 mm from the boiling water surface in order to keep the path through the free atmosphere as short as possible.

Object of the invention

The invention is directed to a device which supplies material-cooled, granulated strands or ribbons with the aid of a powerful cooling trough and at the same time reduces waste quantities due to start-up processes.

Explanation of the essence of the invention

The object of the invention was to remove the strand emerging from the casting head in time from the influence of the atmospheric oxygen, to ensure a material-dependent cooling rate to the cooling water over the shortest possible distance.

The object is achieved in that the cooling section has a casting head facing horizontally sliding cooling trough, which is arranged lower to a trough height than a single or multi-part stationary cooling trough, the schie bbare Kühlvranne ladder Ver ^, tical lowered, in the horizontal is movable about its cooling tub length and provided at the transition between the two cooling pan parts with a connecting channel.

This makes it possible to make by the movement of the retractable cooling trough not only the casting head for a short time and without effort, but also to bring the water level to the desired distance from the casting head, which should be practically 10 to 20 snm. This distance reduction yields a still permissible temperature reduction,

At the transition point from the stationary cooling trough to the sliding cooling trough and _i if the stationary cooling trough is again subdivided, a cooling section with increased cooling water speed is arranged in each case in Fora a connecting trough, the raid edge 0.5 cm to

1.0 cm below the water level of the higher cooling trough »To determine the height of the water level, discharge valves are installed on the front wall (outflow side), which open into the lower cooling trough. In the usual way, the stationary cooling trough at the outlet of the strands has an inclined plane, covered with absorbent material, which strips and removes moisture adhering to the strands or the film.

If now the casting head are to be spun, the sliding cooling trough is to be moved away from the casting head by means of hydraulics and pushed under the stationary cooling trough part. The water depth η at the falling edge are regulated by means of the drain valves. The casting head is opened and. so spun on the BIeGh until continuously faultless strands leave the pouring nozzle » Έιιη is the sliding cooling pan to move under the pouring head and. in the last phase of movement to the pouring head to the distance 10 mm to 20 mm zoom in order to reduce the attack surface for the aerosols largely. The incident strands are fed into the extraction unit and then granulated. During the movement of the strands through the cooling water, in particular, polyesters show two phases. In a first, a surface prone to sticking, in the second a bonding at separation points in cross section. While the state in the first phase is influenced by guide elements (rollers, combs) of the strands, the state in the second phase can only be remedied by longer cooling sections, which essentially result from the low thermal conductivity in the direction of the strand core. In order to reduce this, especially the latter, cooling tub length, Hungarians are inserted on the line run length according to the invention Hungarian connecting the relative speed of the cooling water, based on the strand, on da3 1.8 to 2.5 times and thus increase the cooling effect. Preferably, the temperature curve over the cooling path becomes a

Stes time through the guide via a connecting channel, in which a particularly intense heat dissipation from the surface and starting from the surface near the cross-section takes place, where the strand has a Qberflächentemperatur of about 90 ⁰ C. This coincides with the end of the sliding cooling pan. Ia second, the stationary part of the cooling trough, the Verbindungsrin & e set there, where about 90% of the cross section are cooled to temperatures that prevent sticking at separation points and after the intensive cooling on the connecting channel with high certainty an agglomeration of particles, especially an undesirable bridging in the collecting container d.es subsequently produced granules, is no longer expected.

Further advantages of the device can be found in

- The fact that waste material is avoided by the short-term retraction of the sliding cooling trough in the operating position after piecing

- The ability to eliminate occurring by a partial displacement of the sliding cooling pan during operation disturbances on individual nozzle bores and to supply the nozzle plate with lubricants.

The device according to the invention will be explained in more detail by way of example

 In addition shows

Pig. 1 - the schematic diagram of the cooling trough arrangement.

Under a pouring head 1 with line nozzles. for 10 to 20 strands 14 is a 4 m long, 120 mm and 600 mm wide sliding cooling trough 2 on roller blocks 5 with carrying roller *! 5a arranged. On the long sides of the sliding cooling trough. 2

Aufgleitkeile 7 are arranged on the. Support rollers 5a rest in operating position. At the bottom, the aoohable cooling sump 2, the thrust forces of a pneumatic working cylinder are articulated, which is supported on a roller block «

The water level 3 is set ax 100 to 110 mm, so as to ensure that no strata flows can form, At the bottom of the cooling bath deflection rollers 4 for guiding the individual strands 14 are attached. At the end of scbiebbaren cooling pan 4 is followed by a stationary cooling trough 10 in strand direction, the. higher and. height adjustable by means of height-adjustable nozzles over a length of 9 m horizontally. For the same cross-sectional dimensions, the water level is also 100 to 110 mm. At the strand outlet, a water scraper is attached. Here incoming cooling water is used to maintain the water level, which depends on the height of the raid Ba of the connecting channel 3 and the passage of Regulierventils 9, the latter is, adjusted in the form that is present at the raid edge 1.5 to 2 cm of cooling water and in laminar Flow passes through the connecting channel while the strand is being fed in the opposite direction. The Kühlwasseraienge effective on this route increases to 1.8 times compared to the routes in both Kühlwannenabschnitten. The time of the action of this faster cooling flow is set so that the polyester strand 14 with reaching the raid edge 3a has lost the material-typical tendency for gluing the surfaces at 90 ⁰ C. The cooling of the core of the strands is finally in the stationary part of the cooling trough 10, Hach passing the stationary cooling trough 10 run the strands 14 via a water scraper for collection s device of Granula sector. - And now have a sittlere temperature in cross section of about 80 ⁰ C, so that the tendency for the granulate particles to stick together is lost »

Claims (2)

- 1 - invention claim 1. cooling trough for Hochpolymerenstränge _} which is installed between the casting head and the granulator, inlet and outlet devices for cooling water and strands, characterized in that the two- or multi-part cooling section as a sliding in the horizontal direction and at the same time lowerable cooling trough (2 ), which is connected to a hydraulic cylinder (12), and as at least one, higher than the sliding cooling trough (2) located stationary cooling trough (10), which rests on height-adjustable nozzle (11) is arranged, all the cooling pan parts with each other a connecting channel (S) whose raid edge is 0.5 cm to 2.0 cm below the Y state (3) of the stationary cooling trough (10) is bridged, 2. Cooling trough for high polymer strand according to item 1, characterized in that the siit connected to a hydraulic cylinder sliding cooling trough (2) on support rollers (5a) of roller blocks (5) resting Aufgleitkeile (7) has, with its largest vertical dimension on the with - - te the support roller (5a) is in the working position of the sliding ti 'cooling trough and while the water level of the sliding cooling trough (2) has a distance of less than 2 csn from the nozzle plate of the casting head (1), For this 1 Selie drawings