DE3740893A1 - Spun-bonded web apparatus for producing a spun-bonded web from synthetic endless filament - Google Patents

Abstract

Spun-bonded web apparatus with a spinneret system, cooling shaft, drafting gap, diffuser shaft, continuously moved web-depositing conveyor and device for supplying process air and for sucking off waste air through the web-depositing conveyor. The cooling shaft possesses shaft walls provided with air-outlet orifices. Process air required for the cooling is introduced through these into the cooling shaft, whilst the air stream can be sucked off at least partially through the web-depositing conveyor. The density of the spun-bonded web can be measured on the web-depositing conveyor downstream of the diffuser shaft in the direction of transport. The measured value is compared with a predetermined desired value. In the event of a deviation of the measured value from the desired value, the angle of incidence of retaining flaps arranged at the entrance of the drafting gap is modified. In the event of a positive deviation of the measured value from the desired value, the angle of incidence is increased, and in the event of a negative deviation of the measured value from the desired value it is reduced. <IMAGE>

Description

The invention relates generically to a spunbond system with spinneret system, cooling shaft, drafting gap, Diffuser shaft, continuously moving fleece storage conveyor and device for the supply of process air and for the extraction of exhaust air through the fleece storage conveyor, the cooling shaft provided with air outlet openings Has shaft walls and by these for cooling Process air can be introduced into the cooling shaft and the Airflow at least partially through the fleece storage conveyor can be sucked through.

Within the scope of the generic dimension known (from practice) took the process parameters such as the flow of the ther plasticized plastic, process air flow, Transportge speed of the fleece storage conveyor and the geometrical Parameters of the spunbond nonwoven system set up so that the spinning nonwoven as precisely and homogeneously as possible a predetermined density, in other words, a predetermined basis weight. However, it is in case of density deviations or deviations of the homogeneous density distribution not possible with simp Chen measures in the process or in the spunbonding plant to intervene successfully, correctively or even regulatively. Rather, the deviations have to be considered systemic be taken.

The invention has for its object the generic Set up system so that if the density of the Spunbonded from a given setpoint to simple Corrective action can be taken, preferably even if there are deviations from the homogeneity of the density distribution spunbond width.  

The system according to the invention is characterized in that the spunbond storage tray conveyor, the z. B. as a belt conveyor is carried out with a density measuring device for the density of the spunbond is equipped, so that over the spinning fleece width as a mean or at discrete measuring points bar, and that at least one jam in front of the drawing nip flap is arranged with a horizontal pivot axis, the Angle of attack in relation to the air flow in accordance with the Deviation of the measured value or the measured values from a target value is adjustable. Preferably, two will face each other the stowage flaps, which are adjustable synchronously. If arranged according to discrete, across the width of the spunbond the measured values are recommended make it so that the stowage flaps or the damper is elastically deformable and over its length are adjustable with different angles of attack.

In the spunbonded nonwoven system according to the invention, the setting stowage flaps taking into account the described Measured values from time to time, for example by hand, as one Control can be performed. A preferred execution form of the invention, however, is characterized in that the density measuring device and the baffles adjustable in a control loop are included, which also correspond has the actuators and the adjustable setpoints of Spunbond density are assigned.

The advantages achieved are the fact that fiction in accordance with a deviation of the spunbond density from a given corrected setpoint in a simple way in the spinning  fleece system can be intervened, and in such a way that a very precise and homogeneous density distribution is achieved. With the system according to the invention is a simple special process for the production of a spunbond realized, which is characterized in that the Density of the spunbonded web on the web storage conveyor in Trans port direction measured behind the diffuser shaft and the Measured value is compared with a predetermined target value and where if the measured value deviates from the nominal value, the angle of the damper is changed at the entrance of the Drawing gap are arranged. Is of particular advantage the fact that the spunbond line according to the invention with regard to the expenditure on equipment not essential existing spunbond lines differs because in addition only the measuring equipment provided and the stowage flap or the stowage flaps are arranged. That ago provided product, namely the spunbond made of synthetic Endless filament, its quality has been considerably improved.

In the following, the invention is based on only one Embodiment representing drawing in more detail explained. Show it

Fig. 1 is a perspective vertical section through an inventive he spunbond system and

Fig. 2 shows the enlarged section A from the section of FIG. 1 with additional units.

The system shown in the figures is used for the produc- tion of a spunbonded nonwoven 1 made of synthetic continuous filaments 2nd The basic structure includes a spinneret system 3 , a cooling shaft 4 , a drafting gap 5 , a diffuser shaft 6 , a fleece storage conveyor 7 . In addition, lines 8 , 9 are provided for supplying process air and for extracting exhaust air through the fleece storage conveyor 7 therethrough. The cooling shaft 4 has shaft walls 11 provided with nozzles 10 . The shaft walls 11 can also be designed as flow straighteners in the form of grids. Through this process air required for cooling can be introduced into the cooling shaft 4 .

The cooling shaft 4 has an upper intensive cooling area 12 and a lower additional cooling area 13 and corre sponding, externally connected to the shaft walls 11 , air flow dividing guide walls 14 . The air flow dividing Leit walls 14 and are adjustable in height by the height adjustment, the height of the intensive cooling portions 12 is adjustable.

The drafting gap 5 are connected upstream of the shaft walls 11 , in the direction of the continuous filaments 2 wedge-shaped stowage flaps 15 , which have an exit gap 16 opening into the drafting gap 5 . The storage flaps 15 have a an adjustable angle a in the embodiment and are to sen about horizontal Ah 17 adjustable, as is indicated in the figure by arrows arc. The arrangement can be such that the angle of attack a and thus the width of the outlet gap can be set differently over the length of the baffle flaps 15 . For this purpose, corresponding not shown Stellele elements can be arranged.

The diffuser shaft 6 is provided with the flow cross-section defi ning pivoting wings 18 which are adjustable about a horizontal axis 19 . In the exemplary embodiment, they are arranged one above the other in several stages and are adjustable independently of one another. These can also be set up with suitable control elements with different angles of attack.

The device 9 for extracting exhaust air has above and / or below the fleece storage conveyor 7 adjustment slide 20 , with which the width of the exhaust air flow measured in the transport direction of the Vliesab conveyor 7 can be adjusted. It can be used with a closed or partially closed air flow for the process air and for the exhaust air. In any case, the device according to the invention does not work with three separate air flows, but with a single process air flow which, as described, can be divided into a part air flow for the intensive cooling area 12 and into a partial flow for the additional cooling area 13 . The fleece storage conveyor 7 , the z. B. is designed as a belt conveyor, is equipped with a density measuring device 21 for the density of the spunbonded fabric 1 . The density of the spunbonded fabric 1 is thus worth over the width of the spunbonded fabric as an average or at discrete measuring points x ₁ , x ₂ ,. . ., x _n measurable. The stowage flaps 15 arranged in front of the drawing gap 5 , which have a horizontal pivot axis 17 , can be adjusted in relation to the air flow in accordance with the deviation of the measured density value from the predetermined desired value with respect to its angle of attack a . In the exemplary embodiment, two opposing baffles 15 are arranged, which are adjusted synchronously. The baffles 15 are elastically deformable and consequently adjustable over their length with different angles of attack a , namely at y ₁ , y ₂ ,. . ., y _n corresponding to the measuring points x ₁ , x ₂ ,. . ., x _n . The various actuators 22 have been indicated in FIG. 2. The density measuring device 21 , the actuators 22 of the baffle flaps 15 , with which the angle of attack a can be set, and the setpoint adjustment belong to a control circuit 23 , which was shown in FIG. 2 and to which a controller 24 with setpoint adjustment device 25 belongs. The result is a density control and thus a control of the area weight. The density of the spunbonded nonwoven 1 on the tray conveyor 7 is measured in the transport direction behind the diffuser shaft. 6 The measured value is compared with a predetermined target value, if the measured value deviates from the target value, the angle of attack a of the baffle flaps 15 , which are arranged at the entrance of the drawing gap 5 , is changed, specifically if the measured value deviates from the target value (measured value is greater than the target value ) of the angle a, increases in negative bias of the measured value from the desired value of the operating angle to a decreased.

Claims (4)

1. Spunbonded line with
Spinneret system,
Cooling shaft,
Drafting gap,
Diffuser shaft,
continuously moving fleece storage conveyor,
and device for the supply of process air and for extracting exhaust air through the fleece storage conveyor, the cooling shaft having air outlet openings provided with shaft walls and through this process air required for cooling can be introduced into the cooling shaft and the air flow can be sucked off at least partially through the fleece storage conveyor is characterized in that the fleece storage conveyor ( 7 ), the z. B. is designed as a belt conveyor, equipped with a Dichtemeßvor device ( 21 ) for the density of the spunbond ( 1 ), which can thus be measured over the width of the spunbond as a mean or at discrete measuring points, and that before the draw gap ( 5 ) at least one Stowage flap ( 15 ) with a horizontal pivot axis ( 17 ) is arranged, the angle of attack ( a ) of which can be adjusted relative to the air flow in accordance with the deviation of the measured value or the measured values from a desired value. 2. Spunbonding plant according to claim 1, characterized in that two opposing baffles ( 15 ) are arranged and these are adjustable synchronously. 3. Spunbonding plant according to one of claims 1 or 2, characterized in that the baffle flap or baffles ( 15 ) are elastically deformable and adjustable over their length with different angle of attack ( a ). 4. spunbonded nonwoven system according to one of claims 1 to 3, characterized in that the density measuring device ( 21 ) and the baffles ( 15 ) with their angle of attack ( a ) are included in a control circuit ( 23 ), which are assigned adjustable setpoints of the spunbonded density.