Measuring and testing – Sheet – woven fabric or fiber – Filament
Reexamination Certificate
2000-05-03
2001-11-13
Noori, Max (Department: 2855)
Measuring and testing
Sheet, woven fabric or fiber
Filament
Reexamination Certificate
active
06314805
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to the monitoring of the properties of a textile yarn on formation after spinning, in particular those properties relating to the morphological aspects that affect the perceived quality of the spun yarn.
BACKGROUND OF THE INVENTION
To date a number of on-line monitoring methods have evaluated quality in partially oriented yarns (POY) or fully drawn yarns (FDY) yarn spinning processes. One such method is that of the on-line measurement of the denier regularity. Another method is that of tension measurement between the spinneret and the first godet. Although in many processes there may be a reasonably stable tension in this zone with a minimum of disturbing factors, nevertheless in more and more processes oil dispersing air jets are fitted in this zone, creating a source of significant tension variations and disturbance. The main component of force in this zone is a variable air drag on the filaments prior to them being formed into a yarn at the first contact point—the oil applicator guide, but there are other influences that reduce the value of this tension measurement as indicative of the morphological aspects of the spun yarn. These include the friction of the filament bundle with the oil and guide surfaces, the effect of the air jets if fitted and the draw force of the yarn. As an alternative method, the yarn tension may be measured in other zones, for example between the first and second godet and between the second godet and the take-up, but these arrangements have also failed to provide methods of obtaining useful information due to the large tension variations in these areas. Between the godets it is usual to fit air jets which cause substantial tension variations. After the godets the tension is cyclically variable because of the change in yarn length due to the traversing of the yarn as it is forwarded onto the package, the tension variation frequency being twice that of the traverse. Typically a 0.5 to 1.0% yarn path length change occurs during the winding process. In addition, to prevent patterning during the winding process, the traversing of the yarn is usually subjected to a periodic disturbance, which causes a variation in the change of yarn path length. Because of the above described problems, to date none of the above described methods has been commercially successful.
It is now well known that a key parameter indicative of the quality of POY and FDY is the “draw force”. This is the tensile force at which the extension of the yarn increases considerably for substantially no increase in that force. The draw force, to which the initial modulus of the POY or FDY is directly related, is a very small factor influencing the tension in the yarn in the zone prior to the first godet, and is swamped by the accepted variations from the other sources. As a consequence, it has been effectively impossible to obtain useful information about draw force from a tension measurement in this zone. Hence to date, such a measurement has been made under laboratory conditions as a routine quality control test, but in such a way that only a very small sample from a small percentage of the packages produced can be tested in practice. In consequence there has been a requirement for a method of monitoring this parameter, or a closely related parameter, on-line so that the quality of 100% of all yarn produced can be evaluated.
SUMMARY OF THE INVENTION
The invention provides a method of monitoring on-line the initial modulus of a spun and at least partially drawn textile yarn, comprising forwarding the yarn from a forwarding point to a package, winding the yarn on the package whilst traversing the yarn adjacent the package, and continuously measuring the short term variation in yarn tension due to the change in yarn path length between the forwarding point and the package.
The method may comprise determining the amplitude of the tension variations in the yarn, and may comprise calculating the initial modulus of the yarn from that amplitude. The yarn may be traversed at a predetermined traversing frequency, in which case the tension may be measured using a tension sensor having a natural frequency response above the traversing frequency. The sensor frequency response may be substantially six times the traversing frequency, and may be in the range 15 to 75 cycles/sec, for example substantially 450 Hz. The signals from the sensor may be sampled at frequency in the range 1000 to 5000 Hz, and may be sampled using a distributed electronics to provide sampled data. The signals from the sensor may be subjected to noise filtering.
The speed of traversing of the yarn may be periodically disturbed, in which case the speed variation may be cycled over a fixed time period or alternatively over a variable time period. The frequency of the traverse may be monitored, and may be averaged over the time cycle of the disturbance.
The sampled data may be compared with predetermined limits, and in the event that the data is of a magnitude at least equal to a limit, an alarm may be initiated. The alarm may be initiated at the location of measuring the yarn tension, or at a computer remote from the location of measuring the yarn tension.
REFERENCES:
patent: 4195345 (1980-03-01), Artzt et al.
patent: 4880175 (1989-11-01), Yamauchi et al.
patent: 5164710 (1992-11-01), Anderegg et al.
patent: 5577676 (1996-11-01), Berger et al.
patent: 5954289 (1999-09-01), Hermanns et al.
Merlin Partnership
Noori Max
Schwegman Lundberg Woessner & Kluth P.A.
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