Cooling system for filament bundles

Details Cooling system for filament bundles Cooling system for filament bundles

2001-09-11

2003-11-25

Davis, Robert (Department: 1722)

Plastic article or earthenware shaping or treating: apparatus

Continuous filament forming or film casting means with...

C425S072200, C425S378200, C425S382200, C425S094000, C425SDIG001

Reexamination Certificate

active

06652255

ABSTRACT:

CROSS REFERENCE TO RELATED APPLICATIONS
This application is a national stage of PCT/EP00/03067 filed Apr. 6, 2000 and is based upon German national application 199 15 762.6 of Apr. 8, 1999 under the International Convention.
FIELD OF THE INVENTION
The present invention relates to a cooling system for filament bundles, which are spun from polymer melt by at least two spinneret units arranged one beside the other and are drawn off by a draw-off system with a speed of ≧1000 m/min, the filament bundles being cooled by an equidirectional air stream.
BACKGROUND OF THE INVENTION
Polymer melt-spinning processes, in which a plurality of filament bundles are simultaneously spun, prestretched, cooled, lubricated and spooled after possible further working steps, are known. In conventional spinning plants, the freshly spun, soft polymer filaments are cooled by cross-flow blowing shortly after their exit from the spinneret unit. Until solidification, the speed of the filaments is increased from the spinning speed at the nozzle to the take-up speed, i.e. the filaments are stretched on this path. At the same time, this is the path on which the filaments are most sensitive to external influences. U.S. Pat. No. 3,551,949 (=DE-A 1,956,860) describes a quenching duct with crossflow quenching for an individual filament bundle, air turbulences being reduced by inclined side walls. In accordance with U.S. Pat. No. 3,684,416 (=DE-A 1,962,946) the space requirement of quenching ducts with crossflow quenching for several filament bundles can to reduced in that the partitions between the individual filament bundles are deformable.
A completely different cooling concept is based on cooling the filaments by an equidirectional accompanying air stream inside one protective tube each per filament bundle, the air stream being produced by blowers and the like and/or by the suction caused by the progression of the filaments (U.S. Pat. Nos. 5,688,458; 5,360,589; 5,340,517). Due to the funnelshaped design of the bottom of the otherwise cylindrical protective tube, the consumption of air can be reduced and the evenness of the filaments can be improved in accordance with EP patent 0,396,646. According to U.S. Pat. No. 3,611,485 the freshly spun filament bundle should be cooled in an air stream always circulating free and uncontrolled, which air stream is only replenished by fresh air to such an extent as losses are produced by the controllable exit. Here as well, only one chimney per spinneret is provided. In U.S. Pat. No. 3,707,593 a spinning process is described, which is only suited for the production of non-wovens: In a pressure-tight spinning tube, the freshly spun filaments are cooled by means of the compressed air used for take-off, where in a cylindrical tube without partitions a plurality of filament bundles can also be cooled.
In the process of EP patent 0,682,720 the ambient air should in addition be entrained with the same speed as the filaments, so as to reach the solidification point of the thread at a later date and thereby be able to increase the take-off speed. The reason to do so is said to be the economy, i.e. a higher production speed with the same quality or a higher quantity with the same speed. This should be achieved by a cylindrical protective tube with exhaust device, which is expanded in its lower portion. In this way, air speeds can be produced, which lie within the order of magnitude of the filament take-off speed, but not a speed profile which takes into account the increase in speed due to the prestretching of the filament bundle not yet solidified.
Individual thread protecting tubes are more expensive than a common duct for a plurality of threads, and their handling is particularly disadvantageous: When it is fed to the spooler, every single thread must be manually passed through its associated protective tube. In the embodiment according to EP patent 0,682,720 this is particularly difficult due to the narrow opening at the lower end, which should prevent stray air from being sucked in. Due to the narrow tubes, the lubricant is applied onto the thread only upon exit from the tube. This is a disadvantage as compared to the processes with crossflow quenching, which aim at the compactness of the thread immediately upon cooling the individual filaments and which use thread guide elements only upon oiling. What is particularly disadvantageous and cost-intensive, however, is the fact that the air exhaust system must be installed, operated and controlled for every single thread protecting tube.
OBJECT OF THE INVENTION
It is the object of the invention to create a cooling system for filament bundles, which serves the protection of the filaments not yet solidified and the gentle cooling thereof and at the same time ensures a rather simple handling and high economy.
SUMMARY OF THE INVENTION
In accordance with the invention, this object is achieved by a cooling system for filament bundles, which are spun from polymer melt by at least two spinneret units disposed one beside the other and are drawn off by a draw-off system at a speed of ≧1000 m/min. The filament bundles are cooled by an equidirectional stream of air.
According to the invention the cooling system comprises the following parts:
directly below the spinneret units, a means for supplying air,
downstream thereof a shaft of rectangular crossection, constant width between the side walls of the shaft, and a depth tapering in a draw-off direction between front and rear walls of the shaft, the filament bundles being drawn off through the shaft and near the exit from shaft being first of all guided over a lubrication oiler and thereafter through a first thread guide,
following this shaft a second shaft of rectangular cross-section and of a depth tapering in draw-off direction and optionally of a tapering width, the filament bundles being drawn off through the second shaft,
following this second shaft a third shaft of rectangular, constant cross-section, which third shaft extends to near the draw-off system, the filament bundles being supplied to the draw-off system through the third shaft, and
close to the exit from the second shaft means for discharging air.
Inside the first shaft between each two filament bundles a respective partition is disposed, which extends over the entire depth of the first shaft parallel to its side walls.
Front and rear walls of the first shaft are arranged at an angle of 10 to 30° to each other, both walls being uniformly inclined towards the axis of the filament bundles.
The angle between front and rear wall can variably be adjusted, the adjustment being made such that inside the first shaft the flow rate of the supplied air increases approximately to the same extent as the speed of the filament bundles.
The distance between the filament bundles and the walls of the third shaft can be 1 to 4 cm.
The cross-section of the second shaft can taper in depth and in width, the filament bundles being passed through a second thread guide close to the exit from the second shaft.
The front and rear walls of the second shaft can extend at an angle of 2 to 30° to each other, and the two side walls can extend at an angle of 30 to 120° to each other.
The front wall of the first shaft A and/or the front wall of the third shaft can be opened.
The means for supplying air can consist of a gap between the first shaft and the spinneret units, which gap is open towards the ambient air, and the means for discharging air can consist of at least one line with an exhauster, which line branches off from the second shaft.
The means for supplying air can additionally comprise a blow ring which opens into the gap and surrounds the at least two spinneret units, the air discharged by means of the at least one exhauster being recirculated to the blow ring and being uniformly distributed over the at least two spinneret units.
The cooling system is suited for all polymers to be processed by melt spinning, in particular for textile polyester filaments which are spun with a high take-up speed.
The inventive idea is based on the f

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