DE4014414A1 - Drawn filament layer - has a cooling chamber and process air feed openings at entry to drawing jet for defined drawing action - Google Patents

Abstract

The appts. to lay drawn synthetic filaments, in a wadding, has a cooling chamber where the air flows from one side to the other open side. The process air feed has a number of openings at the entry to the drawing jet. An air flow divider is between the cooling chamber and drawing jet, at least across the width of the filament curtain, to separate the coolant air from the process air and allow the filament curtain to pass through. The air flow vol. through the suction unit is controlled to determine the deg. of suction drawing applied to the filaments. ADVANTAGE - The appts. lays the filaments in a wadding with predetermined physical parameters, within narrow limits.

Description

The invention relates to a plant for the production a spunbonded web made of stretched plastic filaments ten, with a spinner head with a plurality of spinnerets Sen bores from which one is wider on the one hand, on the other at least single-row curtain of filaments made of thermo plasticized plastic emerges, a cooling chamber, which connects to the spinning head and in which the curtain from the filaments of cooled with the help of a cooling system the cooling air is flown perpendicular to the vertical, one process air inlet connected to the cooling air chamber with which the curtain from the in the cooling chamber-cooled filaments of uncooled process air is flowing, a stretching nozzle, which extends over the Width of the curtain extends from filaments, an ab lageband, which is designed as a screen belt, and one Air suction device, wherein the stretching nozzle in verti direction with a venturi-like nozzle cross-section in the flow direction narrowing inlet part, gap part and diffuser outlet and the air suction direction with the interposition of the storage belt and, on one side, with the interposition of the deposited spunbonded web sufficiently close to the ver extension nozzle is connected. - It goes without saying that the Air flows into the description via flow straighteners NEN chambers are introduced. The cooling air is regarding of the mass flow set up so that the filaments one experienced sufficient cooling. The process air is required Lich to the aerodynamic conditions for the Verstrec filament. In the drawing nozzle the stretching force generated on the individual filamen attacks. The stretching itself begins as soon as the  Filaments leave the spinneret holes. Always must care should be taken to ensure that disturbing turbulence of the Filaments that get in the way of uncontrolled turbulence the filaments appear between the spinning head and the deposit belt, be prevented.

In the system known from practice the input be written structure from which the invention is based (cf. also DE 37 13 862), the cooling chamber is one except for the Exit side for the curtain from the filaments and the Cooling air inlet closed chamber into which the cooling air flows in such a way that it is under the influence of air suction Direction with the curtain of the filaments towards the drawing nozzle flows out. Two cooling air flows are used, which are directed towards each other in countercurrent as it were in the curtain. The one for the drawing nozzle outgoing cooling air passes the process air introduction Facility. It is a process air chamber, into which two process air flows can be introduced in counterflow. The stretching is controlled by the suction force with who works the air suction device. It is about a suction stretching and this is essentially effective smarter and with a higher degree of stretching and more precisely possible Lich than with older measures (US 43 40 563, US 44 05 297), where only one cooling chamber is provided, the process air chamber is therefore missing and in the stretching chamber an acceleration of the cooling air only via a Ven Turie effect according to an overpressure of the cooling air in the cooling air chamber compared to the ambient air is cash. In this respect, it is a kind of pressure stretching. In contrast, it described itself at the beginning  bene known system proven, but it is improvement capable when it comes to producing spunbonded webs conditions, the physical para have meters. This improvement is the job of the He finding.

The system according to the invention is used to achieve this object characterized by the combination of the following features net:

• a) The cooling chamber is from the cooling air from one side flowable to the other open side,
• b) the process air introduction device has a more Number of process air inlet openings in the inlet part of the drawing nozzle,
• c) between the cooling chamber and the stretching nozzle one at least across the width of the curtain Filaments stretched airflow separator ordered which the cooling air from the process air separates and passes the filament curtain,

the flow rate of the air extraction device is controllable or adjustable and a degree of suction stretching of the filaments via the volume flow of the air extraction device can be controlled or regulated. - One designates the measures for cooling the filaments as a cooling system and the subsequent measures, including the Process air introduction device, as a drawing system, it is essential for the invention that the cooling system  on the one hand, the stretching system on the other hand in functio are separated from each other. Are coupled both systems through the continuous curtain of the Fila ment. It is understood that the stretching die under Zwi switching the airflow separator to the cooling chamber is connected. In contrast, the one known embodiment described above ent talking, clean functional separation not realized light. This results in the physical parameters in the finished spunbonded webs bandwidths that are inventive according to can be significantly reduced.

Basically, it is known (DE 20 53 918), a cooling chamber, which is designed as a cooling shaft, one as a spinning shaft designated aggregate in the over High speed nozzles for crimping purposes Spinning air is blown in. It is between the other End of the spinning shaft and the inlet of the above mentioned aggregate a clear distance in the form of a Free space realized.

The system according to the invention can be used in various ways be trained and optimized. A preferred embodiment of the invention is thereby ge indicates that the cooling chamber for cooling the Filaments of the curtain up to the thermoelastic Be is richly decorated. The process air introduction device device advantageously works with process air flows, the one over the temperature of the filaments in the process air introduction device lying conditioning system have temperature. Conditioning temperature the temperature that is sufficient to ensure  that all the filaments of the curtain when entering the Gap area of the stretching nozzle practically the same tem have temperature. Another proposal of the Invention in which is characterized in that the Process air introduction device with respect to the Symme operating conditions, including the process air supply, and in terms of process air flows and flow parameters are set up so that the inlet the stretching nozzle extends over the width of the curtain, central storage area.

According to a preferred embodiment of the invention furthermore the air flow separator between the cooling chamber and the process air introduction device as a gap throttle, the two directed against each other has throttle gap-forming elements, the throttle gap-forming elements are mutually adjustable. The airflow separator can also consist of one adjustable choke exist. The static pressure in the process air introduction device is more appropriate adjustable to a higher value than in the cooling chamber, so that an overflow of cooling air into the draw frame nozzle is not possible. To the working parameters of the invent system according to the invention, it may be advisable to make the arrangement so that the gap width of the nozzle Cross section of the drawing nozzle controllable or adjustable is. In the stretching nozzle are useful, preferably in the area of the narrowest nozzle cross-section, correction gap arranged and these are adjustable.

Plants of the invention described above Construction are generally in an automatic ferti  junction integrated. Especially in this case emp it is necessary for the cooling air flow and for the process air flows each one equipped with a computer Control and regulation system to be provided. This allows one special procedure for operating a system of the described level structure. This procedure is characterized by this net that the control system for the cooling air flow on the one hand, the control and regulating system for the process air currents, on the other hand, operated independently of each other but connected via the computer system so that the Filaments in the spunbonded web have a defined suction Stretching in a predefinable degree of suction stretching experienced rich.

In the following, the invention is based on a an embodiment illustrating the drawing explained more clearly. They show a schematic representation

Fig. 1 shows a longitudinal section through a position according to the invention and

Fig. 2 is a section in direction A-A through the subject matter of FIG. 1.

The system shown in the figures is used to manufacture a spunbonded web 1 from stretched plastic monofilaments 2 . The basic structure initially includes a spinning head 3 with a large number of spinneret bores, from which spinning head 3 emerges a curtain of filaments 4 made of thermoplastic material that is broad on the one hand and at least one-row on the other hand. To the basic structure also includes a cooling chamber 5 , which connects to the spinning head and the curtain from the Fila elements 4 of the cooling air cooled by means of a cooling system is flowed across to the vertical. It is part of the structure also a process air introduction device 6 , with which the curtain from the cooled in the cooling chamber 5 Fila elements 4 is flowed from uncooled process air. In addition, the drawing nozzle 6 is provided, which extends across the width of the curtain of filaments 4 . It sits an inlet part 7 , a gap part 8 and a diffuser 9 . Under the stretching nozzle 6 is a storage belt 10 , which is designed as a screen belt. An air suction device 11 is seen in the area of the mouth of the diffusor 9 of the drawing nozzle 6 below the deposit belt 10 . The arrangement is such that the stretching nozzle 6 has a venturi-like cross-section in the vertical direction and the air extraction device 11 un interposition of the storage belt and, on one side, with the additional interposition of the deposited spinning fleece web 1 , sufficiently close to the stretching nozzle 6 closed is.

From Fig. 1 it can be seen that the cooling chamber 5 is flowable from the cooling air from one side to the other open side 12 through. It is understood that the cooling air can be circulated through a cooling unit. With the help of the process air introduction device, two process air streams can be introduced in countercurrent, namely in the inlet part 7 of the drawing nozzle 6 . This has a more number of process air inlet openings 13 . It is understood that distribution chambers 13 a, 13 b are connected upstream. Between the cooling chamber 5 and the process air introduction device, an air flow separating device 14 is provided which extends at least over the width of the curtain of the filaments 4 . The air flow separating device 14 separates the cooling air from the process air and allows the filaments 4 to pass through. The volume flow of the air suction device 11 can be controlled or regulated. With this control or regulation, a defined degree of suction stretching of the filaments 4 can be controlled or regulated by means of the flow rate of the air extraction device 11 . As described, the filaments 4 are cooled in the cooling chamber 5 . The cooling air temperature, the cooling air flow and the dimension of the cooling chamber 5 are set up accordingly. The process air introduction device works regularly with process air streams, which have a lying above the temperature of the filaments 4 conditioning temperature. The process air introduction device is set up in relation to the symmetry, including the process air supply, and in relation to the process air flows and the flow parameters so that in the inlet part 7 of the stretching nozzle 6 a stretched over the curtain width, with term storage area 15 of the colliding process air currents forms, which has been indicated by dash-dotted lines in Fig. 1. The air flow separator 14 between the cooling chamber 5 and the process air introduction device 6 is designed as a gap throttle, which has two opposing throttle gap-forming elements 16 , 17 , the throttle gap-forming elements, as indicated by the double arrows, are adjustable against each other bar. The static pressure in the process air chamber 5 is regularly higher than that at the inlet of the Verstreckdü se 5th The gap width of the nozzle cross-section of the Ver stretching nozzle 6 is adjustable, as the double arrows indicate. Correction flaps 18 , which in turn are adjustable, can be seen in the drawing nozzle, preferably in the area of the narrowest nozzle cross section.

Claims (10)

1. Plant for the production of a spunbond nonwoven web from stretched plastic filaments, with
a spinning head with a plurality of spinneret bores, from which a curtain of filaments made of thermoplastic plastic emerges, on the one hand broad, on the other hand at least one row,
a cooling chamber which connects to the spinning head and in which the curtain from the filaments is flowed crosswise to the vertical by cooling air cooled with the aid of a cooling system,
a process air introduction device connected to the cooling air chamber, with which uncooled process air flows against the curtain from the filaments cooled in the cooling chamber,
a drawing nozzle that extends across the width of the filament curtain,
a storage belt, which is designed as a sieve belt, and
an air suction device,
wherein the stretching nozzle in the vertical direction has a ven turi-like nozzle cross-section with the inlet part, gap part and diffuser outlet becoming narrower in the direction of flow and the air extraction device with interposition of the deposit belt and, on one side, with the interposition of furthermore the deposited spunbonded web is sufficiently close to the stretching nozzle is connected, characterized by the combination of the following features

• a) the cooling air can flow through the cooling air from one side to the other open side,
• b) the process air introduction device has a plurality of process air introduction openings in the inlet part of the drawing nozzle,
• c) between the cooling chamber and the stretching nozzle is an at least over the width of the curtain of the filaments arranged air flow separating device which separates the cooling air from the process air and allows the curtain of the filaments to pass, the flow rate of the air suction device being controllable or regulatable and a degree of suction stretching of the filaments can be controlled or regulated via the volume flow of the air extraction device.

2. Plant according to claim 1, characterized in that the cooling chamber for cooling the filaments of the pre slopes set up in the thermoelastic area is. 3. Plant according to one of claims 1 or 2, characterized ge indicates that the process air introduction device works with process air flows, one above the tempera conditioning temperature lying on the filaments point.   4. Plant according to one of claims 1 to 3, characterized ge indicates that the process air introduction device in terms of symmetry, including of the process air feeds, and in relation to the process air currents and the flow parameters are set up so that in the inlet of the stretching nozzle one over the front central process air stagnation area forms. 5. Plant according to one of claims 1 to 4, characterized records that the airflow separator between the Cooling chamber and the stretching nozzle out as a gap throttle leads, the two opposing throttle gap has forming elements, and that the throttle gap end elements are mutually adjustable. 6. Plant according to one of claims 1 to 5, characterized ge indicates that the static pressure at the inlet of the ver stretching nozzle can be set to a higher value than in the cooling chamber. 7. Plant according to one of claims 1 to 6, characterized ge indicates that the gap width of the nozzle cross-section the drawing nozzle can be controlled or regulated. 8. Plant according to one of claims 1 to 7, characterized records that the stretching nozzle, preferably in the area the narrowest nozzle cross-section, correction flaps arranged net and these are adjustable.   9. Plant according to one of claims 1 to 8, characterized records that for the cooling air flow and for the process air a control computer equipped with a computer and control system is provided. 10. A method for operating a system according to claim 9, characterized in that the control system for the cooling air flow on the one hand, the control and regulation System for the process air flows on the other hand, independently operated from each other, but via the computer system like this be connected that the filaments in the spunbonded nonwoven web a defined suction stretching in a predeterminable suction experienced stretch range.