EP1512777A1 - Apparatus for the production of multicomponent fibres, especially bicomponent fibres - Google Patents

Abstract

The block comprises a central (2) and two outer (3, 4) sections. The feed channels (5, 6) for the two kinds of polymer run for some distance near the respective polymer entry (20) entirely through their respective outer sections. The central section (2) has insulating recesses (11) spaced across the entire width of the block. The outer sections (3, 4) also have recesses (12, 13) that can accommodate cartridge heaters.

Description

The invention relates to a device for generating Multicomponent fibers, in particular bicomponent fibers, wherein a nozzle block assembly of at least one provided central nozzle block and two outer nozzle blocks is, wherein in the nozzle block aggregate at least two Inflow channels each for a melt stream of a Component are arranged and being at the lower end of the Nozzle block aggregates a nozzle with openings for dispensing the multi-component fibers is provided. - The invention Device is intended both for the production of Meltblown fibers with a meltblown nozzle suitable as well as for the production of filaments for a Spunbond. The multicomponent fibers, in particular the Bicomponent fibers can be a core-shell structure or but also have a side-by-side arrangement.

Devices for the production of multi-component fibers are known from the prior art (US Pat. No. 6,478,563 B1, US Pat. No. 6,491,507 B1). In these known devices run two inflow channels, each containing a melt stream a component for bicomponent fibers is completely in the middle nozzle block or along the edge of the middle nozzle block. In these known Devices provides the thermal separation of the two Melt flows is a problem. In other words, it comes usually to a mutual influence of the two hot melt streams. That leads to an uneven or inhomogeneous temperature distribution and therefrom in turn results in a disadvantageous impairment of Flow uniformity of the melts. These problems are especially pronounced when the melting points of the two Components have higher differences, for example above 50 ° C have. This is true, for example, when it is in the one component to a polyolefin, for. B. polypropylene and the second component is a polyester, z. As polyethylene terephthalate (PET) is.

In contrast, the invention is the technical problem based, a device of the type mentioned specify with the problems described above can be avoided and at the melt flows each by a homogeneous temperature distribution as well characterized by a very even flow.

To solve this technical problem, the invention teaches a device of the type mentioned, which thereby is characterized in that at least one inflow via at least part of its length exclusively by an outer nozzle block extends. - The nozzle block unit consists of a middle and two outer nozzle blocks, the left and right of the middle nozzle block arranged are and usually directly to the middle Connect the nozzle block. The nozzle block unit or the middle nozzle block and the outer nozzle blocks extend expediently over the entire tool width or Working width. Working width or tool width means here the extent of the device transverse to the conveying direction a generated fiber product, in particular to the conveying direction a produced nonwoven web or a spunbonded web. It is within the scope of the invention that the width of a outer nozzle block in the conveying direction 0.3 times 4 times the width of the middle nozzle block is.

The device according to the invention can be used for every component the multicomponent fibers, in particular the bicomponent fibers have one or more inflow channels, wherein the plurality of inflow channels then over the working width the device are distributed. Preferably, am nozzle-side end of the nozzle block assembly each one Hanger distributor provided for each component, the expediently over the entire tool width or Working width extends. But it is also possible over the Working width or tool width several coat hanger distributors for each component. The nozzle has a or a plurality of rows of orifices opening across the working width or tool width extends or extend.

A preferred embodiment of the invention very special meaning is characterized that a first inflow channel over a part its length exclusively by the first outer one (left) nozzle block runs and that a second inflow channel over part of its length exclusively through the second outer (right) nozzle block extends. After a lot A preferred embodiment runs an inflow channel in the area of the melt inlet exclusively by the associated outer nozzle block. Preferably runs at least one inflow channel over a length of 0.5 to 5 times the diameter of the inflow channel before the Clothes hanger distributor in the parting plane of the nozzle block parts.

A preferred embodiment of the invention is characterized characterized in that in the middle nozzle block cavities are introduced for thermal insulation and that these cavities distributed over the entire working width. It is within the scope of the invention that the cavities with a heat-insulating medium, preferably filled with air are. Appropriately, it is the cavities to drill holes that cover at least part of vertical height h of the central nozzle block extend. Conveniently, the holes are as vertical Drilled holes in the middle nozzle block introduced. Vertical height h of a nozzle block or of the nozzle block aggregate Incidentally, this refers to the orientation of the Nozzle block aggregates, in which the melt entrances above are arranged and the nozzle or the nozzle openings below are arranged.

According to a preferred embodiment of the invention in the middle nozzle block and / or in at least one of both outer nozzle blocks heaters for adjustment desired heating temperatures arranged. Preferably are in each of the two outer nozzle blocks such Heating devices provided. For the heaters it is in a preferred embodiment to Cartridge heating in corresponding holes in the nozzle block are arranged. Conveniently, a plurality of heaters arranged in a nozzle block the working width or tool width of the device distributed. It is within the scope of the invention that in at least one outer nozzle block at least one heating device is arranged next to an inflow channel. Preferably is at least one in each outer nozzle block Heating device next to the inflow of this nozzle block arranged. In this case, the at least one heating device preferably each on the outside of the outer nozzle block arranged, d. H. at the middle nozzle block opposite side of the inflow channel. With the help of such Heaters can increase the temperature of the melt in one Inflow channel can be adjusted specifically. So, for example a temperature of about 280 ° C for a polyester melt maintained in the respective inflow channel become.

According to one embodiment of the invention is at the nozzle around a meltblown nozzle. With the device then fibers can be produced by the meltblown process.

In another embodiment, the Nozzle around a spinneret for producing filaments for a Spunbond. Then, with the device after the Spunlaid method to be worked.

The invention is based on the finding that due to the inventive design of the device a surprisingly homogeneous temperature distribution in the melt streams the two components can be ensured. As a result, in each of the inflow channels a very achieved uniform flow of the melt streams. The Specialist must be particularly surprised that from the Prior art known disadvantages with such a simple and little expensive means can be eliminated. Basically, it is sufficient if within the scope of the invention the melt streams or the inflow channels only in Melt inlet area exclusively by an outer Run nozzle block.

Fig. 1

einenSchnittdurcheineerfindungsgemäßeVorrichtung mit einer Meltblown-Düse und

Fig. 2

den Gegenstand gemäß Fig. 1 mit einer Spinndüse zur Erzeugung eines Spinnvlieses.

The invention will be explained in more detail with reference to a drawing showing only one exemplary embodiment. In a schematic representation:

Fig. 1

a section through a device according to the invention with a meltblown nozzle and

Fig. 2

the article of FIG. 1 with a spinneret to produce a spunbonded fabric.

The figures show a device for the production of Bi-component fibers. The device has a nozzle block assembly 1, which in the embodiment of a middle nozzle block 2 and two outer nozzle blocks 3, 4, namely a left nozzle block 3 and a right nozzle block 4 exists. The nozzle blocks 2, 3, 4 close directly to each other and extend over the entire working width or tool width of the device. Working width or tool width means the extent the device perpendicular to the conveying direction F or in Figs. 1 and 2 perpendicular to the paper plane. conveying direction refers to the promotion of a generated Fiber product, for example, the conveying direction of a Nonwoven web.

In the nozzle block unit 1, two inflow channels 5, 6 arranged in each case for a melt stream 7, 8 of a component. At the lower end of the nozzle block assembly 1 is a Nozzle 9 with openings 10 for dispensing the bicomponent fibers arranged. A series of such openings 10 extends over the entire working width of the device. In the embodiment 2, several rows extend of openings 10 over the entire working width or tool width.

After a very preferred embodiment and in the embodiment the first inflow channel 5 extends over a part its vertical length exclusively by the first outer and left nozzle block 3 and runs the second Inflow channel 6 over a part of its vertical length exclusively through the second outer or right Nozzle block 4. Vertical length means the extension an inflow channel 5, 6 in the direction of the vertical height h of the nozzle block assembly 1. According to a very preferred embodiment and in the embodiment run thereby both inflow channels 5, 6 in the region of the melt inlet 20 of the nozzle block assembly 1 exclusively by the respective outer nozzle block 3, 4. Preferably and in Embodiment, the distance a of the part of the Inflow channel 5, 6 with the vertical length 1 to the middle Nozzle block 2 at least 0.5 to 5 times the diameter of the inflow channel 5, 6. It is within the scope of the invention, that the width b2 of an outer nozzle block 3, 4, the 0.3-bis 4 times the mean nozzle block 2.

In Figs. 1 and 2 has been indicated that after Preferred embodiment in the middle nozzle block. 2 between the inflow channels 5, 6 vertical holes 11 to Thermal insulation or thermal separation of the two Melt streams 7, 8 are located. Appropriately, these are vertical holes 11 only filled with air. The vertical holes 11 are preferably over the entire Working width of the device distributed.

In Figs. 1 and 2 has further been indicated that in the left nozzle block 3 to the left of the first inflow channel 5 is a heater 12 is located, with the the temperature required for the first melt stream 7 easy and easy to set. The heaters 12 are preferred and in the embodiment as Holes 13 realized, in which not shown Heating cartridges are used. Such a heater 12 or bore 13 can be seen in the right Nozzle block 4 to the right of the second inflow channel 6. With Help the vertical holes 11 on the one hand and with the On the other hand, heaters 12 can be a very effective thermal separation of the two melt streams 7, 8 achieved become and thus a particularly homogeneous temperature distribution in the melt streams 7, 8 ensured become.

The device according to FIG. 1 is incidentally for carrying out a meltblown process suitable. One recognises below the nozzle block assembly 1 a removable cassette 14 with the meltblown nozzle 9. In addition, the for the Meltblown process typical feed channels 15 for a fluid medium, preferably recognizable for hot air. in the lower portion of the removable cassette 14 are air lips 16th intended.

In contrast, Fig. 2 shows an apparatus for manufacturing a spunbonded web. Below the nozzle block assembly 1 is a spin pack 17 can be seen, which consists of a perforated plate 18, distribution plates 19 and the spinneret 9 with openings 10 or spinneret openings exists. Basically exists also the possibility of the device for manufacturing of multi-component films to use.

Claims (9)

Device for producing multicomponent fibers, in particular bicomponent fibers,
a nozzle block assembly (1) comprising a central nozzle block (2) and two outer nozzle blocks (3, 4),
wherein in the nozzle block assembly (1) at least two inflow channels (5, 6) are arranged in each case for a melt stream (7, 8) of a component,
wherein at the lower end of the nozzle block assembly (1) a nozzle (9) is provided with openings (10) for dispensing the multi-component fibers,
characterized in that at least one inflow channel (5, 6) extends over at least part of its length exclusively through an outer nozzle block (3, 4). Apparatus according to claim 1, characterized in that a first inflow channel (5) over a part of its length exclusively through the first outer nozzle block (3) and that a second inflow channel (6) over a part of its length exclusively by the second outer nozzle block ( 4) runs. Device according to one of claims 1 or 2, characterized in that at least one inflow channel (5, 6) in the region of the melt inlet (20) extends exclusively through an outer nozzle block (3, 4). Device according to one of claims 1 to 3, characterized in that in the middle nozzle block (2) cavities for thermal insulation are introduced and that these cavities are distributed over the entire working width. Device according to Claim 4, characterized in that the cavities are bores (11) which extend over at least part of the vertical height (h) of the nozzle block assembly (1). Device according to one of claims 1 to 5, characterized in that in the middle nozzle block (2) and / or in at least one of the two outer nozzle blocks (3, 4) heating means (12) are arranged for setting desired heating temperatures. Device according to one of claims 1 to 6, characterized in that in at least one outer nozzle block (3, 4) at least one heating device (12) adjacent to an inflow channel (5, 6) is arranged. Device according to one of claims 1 to 7, characterized in that it is at the nozzle (9) is a meltblown nozzle (9). Device according to one of claims 1 to 7, characterized in that it is at the nozzle (9) is a spinneret (9) for producing filaments for a spunbonded nonwoven.

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