EP1420089A1 - Apparatus for the production of fibres from thermoplastic material - Google Patents

Abstract

The spinneret as a melt-blow jet head (1), for melt spinning thermoplastic filaments, has at least one channel (3) for the molten flow. The jet (2) has at least one row of jet channels (5) with outflow openings (6) at the outflow end (4). Drillings (10) are at the jet outflow end, each with a shaped body (11) in a positive fit, to form a jet channel between the body and the drilling. Flow channels (7) for compressed air are aligned at the jet outlet.

Description

The invention relates to a device for generating Thermoplastic fibers, at least a melt channel for the supply of molten Plastic is provided and there is a nozzle is at least one nozzle channel at its outlet end with a nozzle opening for the outlet of the molten Has plastic.

Devices of the type described above, in particular Melt-blown blow heads are different in practice Embodiments known. These devices or blow heads have a nozzle, at the nozzle tip Nozzle holes introduced to create the nozzle channels are. The holes are directly on the Tip of the nozzle arranged. As a rule, one only row of nozzle bores or nozzle channels realized this nozzle tip. With these known Devices is the density of the nozzle channels or the Hole density very limited. Often they are achieved Density of the nozzle channels or the hole densities achieved less than 35 holes / cm. Incidentally, the drilling is the Nozzle channels very complex and costly. Besides, is stocking and exchanging one another A plurality of different nozzles or nozzle tips with different ones Hole density undesirably complex and expensive. The devices known from practice are therefore in need of improvement.

The invention is based on the technical problem Specify device of the type mentioned, the one has high density of nozzle channels or a high hole density and which are in terms of varying the way Size and arrangement of the nozzle channels through simplicity and Exceptional flexibility.

To solve this technical problem, the invention teaches a device for producing fibers from thermoplastic material,
wherein at least one melt channel is provided for the supply of molten plastic,
wherein there is a nozzle which has at least one row of nozzle channels with nozzle openings for the outlet of the molten plastic at its outlet end,
wherein holes are made in the outlet end of the nozzle, into which holes at least one molded body is fitted in a form-fitting manner
and wherein at least one nozzle channel is introduced in the contact area between the molded body and the bore. The invention basically also includes a device with a nozzle which has only a single nozzle opening for the outlet of the molten plastic.

It is within the scope of the invention that the invention Device consists of a blow head, the melt channel and has the nozzle. - With those with the invention Device produced fibers are especially filaments, d. H. Fibers with large theoretically infinite length. Basically, with the Device but also shorter fibers can be produced. The fibers produced according to the invention can be used primarily for Manufacture of nonwovens or nonwoven sheet products serve.

According to a preferred embodiment, the invention comprises Device for supplying blown air, which are arranged with the proviso that the blowing air on the plastic strands emerging from the nozzle channels hits at an acute angle. Conveniently, are on opposite sides of the nozzle or nozzle tip Flow channels for the blown air are provided, which are preferably over the entire width of the device or Extend nozzle. Blown air jets are therefore preferred generated that exits from the nozzle channels Strike plastic strands at an acute angle. These blown air surface jets can also come from a series of closely spaced nozzle bores emerge as individual jets, which then become the blown air jet complete. Preferably those of blowing air surface jets acting on opposite sides of the nozzle at an acute angle to each other. After a preferred embodiment of the invention the plastic strands emerging from in With respect to the nozzle ducts, symmetrical blown air jets blown and subjected.

According to a very preferred embodiment of the Invention is of particular importance is the exit end the nozzle or the nozzle tip is flattened and the nozzle or nozzle tip has a corresponding one Exit surface in which the holes for the moldings are arranged or open. Flattened means here that the nozzle is not pointed downwards runs like a conventional melt-blown die, but that the tip is cut off as it were. Preferably is the exit surface formed on the nozzle or nozzle tip perpendicular or essentially perpendicular to the nozzle channels or to the exit direction of the Arranged plastic strands emerging nozzle channels. It is within the scope of the invention that the nozzle channels and Bores for the molded body on the exit surface flattened outlet end of the nozzle with the melt channel connect. Are preferably on the edge of the exit surface excellent leading edges are provided from the exit surface, those on opposite sides of the exit surface are arranged. It is also within the scope of the invention that blow air ducts for the supply of blow air in the Outlet surface. The flattening of the nozzle or Nozzle tip can be aerodynamically through the aforementioned Guiding edges and, if applicable, those opening into the exit surface Blown air channels neutralized or compensated become.

According to a very preferred embodiment of the invention the at least one nozzle channel in the outer surface of the Molded body introduced. The nozzle channel is therefore located in the outer jacket of the molded body and is as it were in the Engraved outer jacket. It is within the scope of the invention that multiple nozzle channels in the outer surface of a molded body are introduced and expediently via the Distributed circumference or part of the circumference of this molded body are arranged. The nozzle channels are expedient than introduced into the outer surface of the molded body Melting grooves executed, preferably in cross section Are U-shaped or semicircular.

According to a very preferred embodiment of the Invention is of particular importance, tapers a molded body in terms of its length. Length means here the expansion of the molded body in the direction of the longitudinal axis the holes or the nozzle channels. Preferably takes place a taper of the molded body to the outlet end of the nozzle or to the exit surface instead. The cross section of the Shaped body is therefore preferred to the outlet end or the outlet openings of the nozzle channels smaller or narrower. As a result, the molding can pass through the pending Melt pressure securely in position in the hole assigned to it be fixed. - According to one embodiment of the invention a shaped body is circular in cross section. According to a very preferred embodiment of the Invention is of particular importance is a Shaped conical shape. The molded body then expediently has a conical taper to the exit end or to the exit surface. Basically, a molded body can also be used as a cuboid Prism or the like can be formed.

It is within the scope of the invention that at least one Row of holes (for the molded body) at the outlet end extends across the width of the device or nozzle. It is expedient to use a linear or straight line. According to one embodiment of the invention extend two rows of staggered Bores across the width of the nozzle. Basically, in Framework of the invention also only a single hole for a single molded body may be provided.

The base body of the device or the nozzle can on the one hand consist of a metal, preferably steel. It but is also within the scope of the invention that the nozzle entirely or partially made of a thermally insulating material, for example consists of ceramic material. The moldings suitably consist of the material from which the nozzle is there.

The invention is based on the finding that the Device according to the invention a plurality of nozzle channels can be realized in a relatively small space can. According to the invention, a surprisingly high Hole density of up to 100 nozzle channels per cm or higher can be achieved. In addition to such high hole densities that especially intended for the production of fine fibers relatively low hole densities of 1 up to 2 holes / cm (1 to 2 nozzle channels per cm) without any problems be realized. This latter application is for example for intermediate products between melt-blown products and spunbond products useful. highlight is that the nozzle channels are simple, inexpensive and can be realized inexpensively.

According to a preferred embodiment of the invention the moldings, on the outer surface of which the nozzle channels are intended to be replaced. That way simple and easy the number, arrangement and size of the Nozzle channels can be varied.

Fig. 1

einen Schnitt durch eine erfindungsgemäße Vorrichtung und

Fig. 2

den Gegenstand nach Fig. 1 aus Richtung des Pfeiles A.

The invention is explained in more detail below on the basis of a drawing which represents only one exemplary embodiment. In a schematic representation:

Fig. 1

a section through an inventive device and

Fig. 2

1 from the direction of arrow A.

The figures show a device for generating Thermoplastic fibers made from a Blow head 1 with a nozzle 2. It is a melt channel 3 for the supply of molten plastic intended. The nozzle 2 has one at its outlet end 4 A plurality of nozzle channels 5 with nozzle openings 6 for the The molten plastic emerges. There are furthermore supply channels 7 for blowing air with the proviso arranged that the blowing air on the out of the nozzle channels 5 emerging (not shown) plastic strands hits at an acute angle. The feed channels 7 preferably extend and in the embodiment over the entire width of the device or nozzle 2 (i.e. in the direction perpendicular to the paper plane). The feed channels 7 are otherwise by opposite and nozzle lips 9 forming outlet opening 8 are delimited. The walls of each nozzle lip 9 run to the outlet opening 8 together at an angle α, which in Embodiment is about 50 °. Preferably is the angle α 30 ° to 70 °.

According to the invention, in the outlet end 4 of the nozzle 2 Bores 10 introduced, in which bores 10 preferably and in the exemplary embodiment a single one Shaped body 11 is positively fitted. In the contact area between molded body 11 and bore 10 are in Embodiment each have a plurality of nozzle channels 5 introduced. It can be seen in the figures that the Diameter of a bore 10 is many times larger than the diameter of a nozzle channel 5. The nozzle channels 5 are introduced into the outer surface of the molded body 11. Preferably and in the exemplary embodiment, the nozzle channels have 5 has a U-shaped cross section and thus form as it were melting grooves in the outer jacket of the molded body 11. According to an embodiment and in the embodiment (see Fig. 2), the nozzle channels 5 over half of the The circumference of the molded body 11, that is, over an angle of Arranged 180 ° apart. It is also within the Invention that the nozzle channels 5 over the entire circumference of the molded body 11, ie over an angle of 360 ° are provided distributed. Basically, they can Nozzle channels 5 over an arbitrarily selectable part of the circumference distribute a molded body 11.

In Fig. 1 it can be seen that the outlet end 4 of the nozzle 2 or the nozzle tip is flattened and one has corresponding exit surface 12 in which the Bores 10 for the molded body 11 open out. The holes 10 like the nozzle channels 5, they also connect the exit surface 12 with the melt channel 3. Preferably and in In the exemplary embodiment, the exit surface 12 is vertical to the longitudinal axis of the bore 10 or to the longitudinal axis of the Nozzle channels 5 oriented. Expediently extends the horizontal exit surface 12 over the entire width the nozzle 2 (i.e. perpendicular to the plane of the paper).

Appropriately and in the embodiment (Fig. 1) at the edge of the exit surface 12 from the exit surface 12 outstanding guide flanks 13 are provided on opposite Sides of the exit surface 12 are arranged. In addition, in the embodiment (Fig. 1) blow air channels 14 in the exit surface 12. It is within the Invention that the flattening of the nozzle 2 or the nozzle tip aerodynamically by the guide flanks 13 and / or the Blown air channels 14 is neutralized or compensated.

According to a very preferred embodiment, the tapers Shaped body 11 in its longitudinal direction. Preferably point the associated bores 10 also have a complementary taper so that the tapered shaped bodies 11 form-fitting in these tapered bores 10 can be used. Appropriately and in the exemplary embodiment the tapered shaped bodies 11 are frustoconical educated. So it finds a cone-like one Tapering of the molded bodies 11 to the outlet end 4 of the nozzle 2 there instead. In this way, the molded body 11 through the melt pressure in the melt channel 3 is secure be fixed in their bores 10.

According to a preferred embodiment of the invention the moldings 11 are replaced. I.e. a molded body 11 can be removed from its bore 10 and it can another suitable molded body 11 in this hole 10 can be used in a form-fitting manner. It is within the Invention that stores a plurality of moldings which is characterized by the number and / or the size and / or the arrangement of the nozzle channels 5 on their outer surface differ. By changing these different Shaped body 11 can therefore the number and / or the size and / or the arrangement of the nozzle channels 5 in a simple manner can be varied.

In Fig. 2 it can be seen that two rows of holes 10 are provided for moldings 11. The holes 10 of the the two rows are each offset from one another. It is also within the scope of the invention, only to provide a series of bores 10 for moldings 11 or more than two rows of holes 10 for molded articles 11 to realize.

Claims (9)

Device for producing fibers from thermoplastic, at least one melt channel (3) being provided for the supply of molten plastic,
there being a nozzle (2) which has at least one row of nozzle channels (5) with nozzle openings (6) for the outlet of the molten plastic at its outlet end (4),
Bores (10) are made in the outlet end (4) of the nozzle (2), into which bores (10) at least one molded body (11) is fitted in a form-fitting manner
and wherein at least one nozzle channel (5) is introduced in the contact area between the shaped body (11) and the bore (10). The apparatus of claim 1, wherein feeders are arranged for blowing air with the proviso that the blowing air exits from the nozzle channels (5) Strands of plastic striking at an acute angle. Device according to one of claims 1 or 2, wherein the Exit end (4) of the nozzle (2) is flattened and has an exit surface (12) in which the Holes (10) open out. Apparatus according to claim 3, wherein at the edge of the exit surface (12) protruding from the exit surface (12) Guide edges (13) are provided. Device according to one of claims 3 or 4, wherein Blown air channels (14) open into the outlet surface (12). Device according to one of claims 1 to 5, wherein the at least one nozzle channel (5) in the outer surface of the Shaped body (11) is introduced. Device according to one of claims 1 to 6, wherein the Shaped body (11) tapers in terms of its length. Device according to one of claims 1 to 7, wherein the Shaped body (11) is frustoconical. Device according to one of claims 1 to 8, wherein at least one row of bores (10) at the outlet end (4) across the width of the nozzle (2).

Images