Stock material or miscellaneous articles – Coated or structually defined flake – particle – cell – strand,... – Rod – strand – filament or fiber
Reexamination Certificate
1999-10-27
2002-01-22
Edwards, Newton (Department: 1774)
Stock material or miscellaneous articles
Coated or structually defined flake, particle, cell, strand,...
Rod, strand, filament or fiber
C428S395000
Reexamination Certificate
active
06340523
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to nylon 66 filament yarn.
High shrinkage thermoplastic filaments are typically wound onto cops with a protective twist suitable for the further processing. The disadvantage of winding onto cops is that the maximum winding speeds are only of the order of a few hundred metres per minute. A further disadvantage of winding onto cops is that the yarn capacity of a drawn cop is generally limited to about 4 kg of yarn. Economical yarn manufacture is no longer guaranteed after such a process. It would be desirable to wind high shrinkage yarns directly onto cylindrical bobbins. However, it has hitherto not been possible to wind thermoplastic polymer yarns possessing high hot air shrinkage. Such yarn has to be wound up under relatively high tension in order that an undesirable reduction in the hot air shrinkage may be prevented. This has serious disadvantages for the package build. The high yarn tension creates such high radial forces within the cross-wound package that, on the one hand, the package centres are deformed, so that the full package cannot be removed from the mandrel of the winding machine. A further disadvantage is, on the other hand, that unacceptable winding deformations are observed, which make it impossible to build full packages.
DE-A-34 37 943 discloses a process for producing nylon 66 filament yarn wherein an undrawn yarn of polyhexamethyleneadipamide having a relative viscosity of 60 to 100 in formic acid is drawn in one or two stages. The apparatus suitable for this purpose consists of a plurality of heated draw roll units. To improve the drawability of the yarn additional heat sources in the form of contact heaters are provided between the draw rolls. It is known that, in the melt-spinning process, at a winding speed of 4500 m/min and higher, the winding tension is so high that it is no longer possible to remove a paper centre from the winding machine. The problem is solved in this process by relaxing by about 10%. Nothing is said about the winding of the drawn yarn. The known yarns are wound up at speeds of not more than 20 m/min. The aim of the known process is the production of dimensionally stable filament yarns for tyre cord fabrics, possessing high strength, high elongation and low shrinkage, ideally below 5%. The drawing conditions and especially the winding conditions onto cheeses are optimized for these yarns.
Lately, however, airbag fabrics specifically are increasingly produced using yarns having high hot air shrinkage. It is true that such yarn types are easy to produce, but they are difficult to wind onto cheeses.
SUMMARY OF THE INVENTION
It is an object of the invention to produce high strength nylon 66 filament yarn having high shrinkage and make it available on a cheese.
It is a further object to improve not only the production speed but also the unit weight of the yarn packages and thus the economics of the drawing and winding process. Equipment for producing cylindrical packages permit production speeds of several thousand metres per minute.
The object is achieved according to the invention when, the nylon 66 filament yarn has a relative viscosity (RV) of ≧40, measured in 90% strength formic acid in accordance with ASTM 0789-81, a tenacity of at least 60 cN/tex, an elongation of 10-25% and a hot air shrinkage at 160° C. of 7-11%, and has been wound up as a cheese bearing a yarn mass of at least 6 kg. It has surprisingly been possible to wind such a high shrinkage polyamide yarn as 6 kg packages instead of the uneconomical cops having a maximum capacity of just 4 kg.
The nylon 66 filament yarn of the invention is suitable for industrial fabrics, especially airbag fabrics, which are to combine a high tenacity with a particularly high hot air shrinkage.
BACKGROUND OF THE INVENTION
FIG. 1
is a schematic representation of the process of the invention, and
FIG. 2
is a schematic representation of a variant of the process of the invention.
DESCRIPTION OF PREFERRED EMBODIMENTS
In
FIG. 1
, reference numeral
1
designates an undrawn nylon 66 LOY filament yarn. The filament yarn is passed by a delivery roll (not shown) to a first heated draw roll unit
2
. Between the delivery roll and the first draw roll unit
2
the undrawn filament yarn
1
is slightly elongated by about 3% in order that it may acquire a minimal tension. The yarn tension has to be chosen so as to ensure sufficient friction between the filament yarn
1
and the surface of draw roll unit
2
in order that the requisite resistance may be provided against the drawing force arising in the first drawing stage. A first drawing operation takes place between a second heated draw roll unit
3
at about 180° C. and the first draw roll unit
2
. The heated draw roll unit
3
is followed by a third draw roll unit
4
which has a surface temperature of 70° C. to 150° C. and provides a further, second drawing operation.
After drawing, the drawn filament yarn
5
is wound onto a cheese
6
. To reduce the yarn tension, the filament yarn is wound up at a speed which is set about 6% lower than the speed of unit
4
. This adjusts the winding tension to 0.13 cN/dtex, for example. All the draw roll units are multiply wrapped by filament yarn
1
in order, on the one hand, to ensure the necessary friction for drawing and, on the other, to ensure adequate heat transfer between the heated roll surfaces and filament yarn
1
.
FIG. 2
differs from
FIG. 1
in featuring an additional draw roll unit
7
. In the process of this variant, draw roll unit
7
is heated to 180° C., for example. In this case, the second drawing operation is carried out between draw roll units
3
and
7
, whereas the temperature of draw roll unit
4
is not changed compared with the arrangement in FIG.
1
. And the speed of draw roll unit
4
is at least as high as that of draw roll unit
7
.
The apparatus of
FIG. 1
is exemplary and not exclusively suitable for carrying out the process. An apparatus suitable for the process can also consist of godet duos instead of the draw roll units with separating rollers. Furthermore, further elements for the thermal treatment of the yarn such as block or radiative heaters, hot air or steam nozzles can be disposed between the units. It is further advantageous to subject the yarn which is to be wound up to an intermingling operation by means of an air jet or the like in order that its further processibility may be improved as a result.
This apparatus is not just suitable for one filament yarn; in the case of relatively fine yarns, for example at a linear density of 470 dtex or less, two or more filament yarns at a time can be drawn and wound up on an appropriately multiend winding machine.
The operating speed of this apparatus is within the range between 300 and 3000 m/min. The apparatus is thus significantly more productive than conventional draw-twist machines, which wind the yarn on cops. Furthermore, cheeses having a yarn mass of more than 10 kg can be produced. This requires significantly fewer manipulations than processing into cops of not more than 4 kg. The high operating speed restricts its utility not just to the drawing of already wound LOY filament yarn. In principle the apparatus is also suitable for use in an integrated spin-draw process.
High strength yarns of low hot air shrinkage are customarily relaxed before being wound up. Relaxation is generally accomplished by using an additional godet unit whose speed is lower than that of the last draw roll unit by a defined amount. However, it is also possible to effect the yarn shortening directly within the winding operation by winding up at a speed which is lower than that of the last draw godet.
To produce a high shrinkage yarn, the relaxation of the yarn has to be kept to a minimum, in contradistinction to the conventional technique. The problem is thus to provide a process for winding up a highly unrelaxed yarn. In theory this can be done by setting the winder speed equal to or just below that of the last godet unit. However, this entails very high yarn tensions under which it is
Berger Luzius
Fischer Klaus
Linz Hans
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