DE19823927C1 - Textile insert fleece made of spun-stretched and textured polyamide 6 staple fibers - Google Patents

Abstract

The present invention relates to a textile interlining fleece which is constructed from staple fibers and at least partially comprises polyamide 6 staple fibers which have been spun-stretched, textured, heat-set and cut to length in a one-step process. Furthermore, the invention relates to the use of spun-stretched, textured, heat-set and polyamide 6 staple fibers, which are produced in a one-step process and cut from staple length, for the production of textile interlining webs.

Description

The present invention relates to nonwoven textile interlining which is composed of fibers are and at least partially polyamide 6 staple fibers, which in a single stage Processes spun and textured included. Furthermore concerns the invention the use of manufactured in a one-step process spun stretched and textured polyamide 6 staple fibers for the production of textile interlining.

In the clothing industry, so-called in the manufacture of clothing te manufacturing aids used. These manufacturing aids, commonly referred to as textile interlining materials or also known as textile fixing inlays, are used for shaping, pricking, securing and embossing during production of clothing. These textile interlinings can be used in particular Det if a shape of the garment with a good recovery fortune is desired. These textile interlinings become regular permanently connected to a textile outer fabric, the textile insert fabrics sewn to the outer fabric, glued, welded or otherwise get connected. The textile interlining materials have an effect on clothing high dimensional stability, a smooth appearance and one perfect fit, nonwovens are often used as interlining. In this context, reference is made to the manual of the textile fixing inserts from Peter Sroka, 3rd edition, 1993, Hartung-Gorre Verlag, Konstanz.

A nonwoven is understood to mean a textile fabric made of fibers, whose connection is given by the fibers' own liability, and / or by mechanical methods, thermal methods or on che mix paths are solidified.  

Nonwovens or nonwovens made from fiber mixtures are extremely advantageous at least partially the polyamide 6 stacks used according to the invention fibers, an adhesive bond (fleece bond). For consolidation can, for example, thermofusion furnaces (belt or suction drum principle) are used, or the fleeces are, for example, on roll calenders smooth rollers or on embossing calenders (engraving roller against smooth roller) warmed up.

Furthermore, the bonding of the fleece can be carried out using so-called thermal bonding take place in the thermally a point-like melting of the fibers as a result partial heat setting or spot welding using heated needle roller.

Of course, the conventionally known methods for Nonwoven manufacturing can be used. So is a mechanical connection Nonwovens by needling, a chemical connection using binders, a hydrodynamic connection, a connection by loosening the fibers with suitable solvents and a combination of these processes.

The state of the art for the production of textile interlining nonwovens, both with regard to the used fibers as well as the strengthening and joining techniques and the Overall structure is described in more detail, for example, in EP 0 377 789 A2. As Base material there are preferably used polyester fibers that like other fibers Nylon or cotton can be added. By thermobonding with an embossed, hot calender roll and under mechanical pressure, this basic fleece is first in solidified a halftone dot pattern, but thereby an uneven, contoured Surface arises. To prevent the contoured pattern from appearing in the finished shirt of the lining material on the outer fabric is, according to EP 0 377 789 A2, on the consolidated base fleece, d. H. especially in its recesses, an additional one Nonwoven intermediate layer, preferably made of polyester and polyester / polyolefin Bicomponent adhesive fibers, laid down and with the basic fleece in a hot air Continuous furnace with subsequent pressing thermally connected before adhesive mass Hot melt adhesive points made of polyethylene for later connection of the interlining with the Outer fabric is applied to the now flat surface of the interlining fleece.

The properties of the textile interlining are determined by the Properties of those used for the production of the textile interlining Fibers determined. The textile inlay nonwovens are increasingly being used Made of synthetic fibers. Here, polyamide 6 staple fibers preferred because 6 soft fibers can be made with polyamide are.

Conventionally, polyamide 6 staple fibers are melt spun from linear polyamide 6 with a high molecular weight. The raw material is also brought into a flowable form and in this state by narrow-pored Openings pressed into a solidifying medium (spinning). The in the Threads obtained at random molecular chains must then be in Aligned in the direction of the fiber axis (stretching) and internal tension can be freed with the help of a thermal aftertreatment (fixing). The  three main stages of synthetic fiber production are therefore spinning, stretching and post-treatment.

In the production of polyamide 6 staple fibers, the first stage is the high polymer compound brought into a liquid state with the aid Take an extruder and a spinning pump through the die holes of one Spinneret promoted. The one leaving the spinneret in solidified thread form highly polymeric compound is captured by rotating organs (godets) and withdrawn from the nozzle. The filaments or spun cord thus obtained are subsequently in tall cylindrical or square vessels (cans) or spooled form temporarily stored.

In a second stage, the spinning cables are removed from the can rack and Depending on the type of fiber, hot or cold stretched, crimped, fixed and cut. In this context, Ullmann's encyclopedia of industrial chemistry, 5th edition, 1987, vol. A10, p. 550 ff., Where the Stapelfa water production is described in detail.

The using polyamide 6 staple fibers that protrude according to the the two-step process described were prepared Textile interlinings are stable with regard to the durability of the shape limited. In particular, a heavy load, such as caused by frequent cleaning or ironing of the garment can lead to a loss of shape due to insufficient dimensional stability of the textile interlining. This leads, for example, because the textile interlining fleece is permanently permanently bonded to the outer fabric, creating visible distortion or wrinkles on the outer fabric.

This lack of dimensional stability can, however, also occur during manufacture position of the garment occur if, for example, outer fabric and textile interlining fleece are hot-glued and it as a result of the heat the textile interlining fleece leads to thermal shrinkage.  

In this respect, there is a need for a textile interlining that meets the above does not have the disadvantages mentioned, d. H. for example a lower Ther has a moschrumpf.

The object of the present invention is therefore to provide a textile interlining to provide less thermal shrinkage.

The object is achieved by providing a textile interlining according to Claim 1, which is composed of fibers and at least partially Polyamide 6 fibers that are stretched and spun in a one-step process textured were included.

Advantageous embodiments of the invention are in the subclaims contain.

In the sense of the invention, a textile interlining fleece is understood to mean any fleece produced predominantly from staple fibers, which is suitable for imparting shape stability to further surface structures such as, for example, synthetic or natural textile materials, for example in the form of clothing, blankets or pillows. For the purposes of the invention, a textile interlining fleece is also understood to mean so-called fixing inlays which are used in clothing items as:

• - Stabilizing insert to catch the diagonal pull from the top fabrics, as well as for strengthening head holes or buttons;
• - stiffening fixation inserts, e.g. around bundles, belts, To give the cuffs a certain stiffness;
• - Forming fixation inserts to re-mold a garment to give strength and shape retention and to crease quickly balance; and
• - Filling inlays to add volume and volume to a garment Abundance, for example in the case of shoulder and armhole supports hen.

Furthermore, the textile interlining fleece according to the present invention can be used for Front fixation or large part fixation, which affects the large front parts for the shoulder, chest, waist and lap area including the plackver work related.

Furthermore, the textile insert fleece according to the invention can be used to fix small parts such as lapels, collars, neck rings, armhole locks, reglane supports, shoulder cape pen, collar tab, fit, trimmings, tabs, lasts, forearms, gauntlets, Edges, frets, slits, hems, panels, pocket flaps, darts, cuffs Use belts, head strips, buttonhole strips, knee lining, quilt pads, etc. be det.

The textile interlining fleece according to the invention can be based entirely on the in a one-step process made of spun-stretched and textured polya mid 6 fiber or in admixture with other fibers and fabrics become. The exact percentage of spinning produced in a one step process stretched and textured polyamide 6 staple fibers in the textile interlining depends, for example, on the type of area to be stabilized in a lead piece.

By texturing the polyamide fibers, for example by rotation, Corrugation or ripple certain properties such as volume increase, elasti cal elongation, increased moisture absorption, improved thermal insulation due to air pockets, fluffy grip, etc. The spinning and Texturing can take place according to the respectively known methods, whereby however, these are summarized in a process sequence. The polyamide 6 Fiber is spun stretched, textured, heat-set and cut in one step. That is, spinning, texturing, heat setting and cutting are all done in one stage process without interruption. For example, you can use here polyamide 6 fibers after spinning and stretching a stuffer box texturing, gear texturing, airjet or steamjet texturing, the wrong one  wire process or the edge drawing process. In this Connection is made to Ullmann's Encyclopedia of Chemical Engineering, 4. Edition, 1976, Vol. 11, pp. 249 ff.

The heat setting of the polyamide 6 fibers can be done on belt dryers or by means of heated calender rolls are carried out at appropriate temperatures, as in Ullmann's encyclopedia of industrial chemistry, 5th edition, 1987, vol. A10, P. 558 ff. Is described in more detail.

The polyamide 6 fibers can be applied to any of the conventional methods certain stack lengths are cut to size. For example, as Cutting machines the Beria cutting machine, the Neumag-GRU-GRU stacks cutting machine or called the Krupp stack cutting edge. But it can also other devices for cutting the fibers can be used.

In the sense of the invention, the fibers in the nonwoven fabric can preferably be aligned become, d. H. the individual fibers have a preferred direction. In longitudinal Nonwovens dominate the fibers lying in the longitudinal direction and in the longitudinal one directional nonwovens, all fibers lie lengthways. So oriented Nonwovens have a low longitudinal elongation and a high transverse elongation (up to 100%).

In the case of cross-oriented nonwovens, the fiber directions are almost right Angle to each other, comparable to warp and weft in fabrics, but in Angle of 45 ° to the running direction. The fiber orientation can be strongly cross oriented to vary lengthways. Such nonwovens have good strength in Diagonal direction and at the same time a certain elasticity in the longitudinal and transverse direction. For the purposes of the invention, by setting preferred directions the polyamide 6 staple fibers thus certain properties of the nonwoven can be set. In particular, by combining several orientations polyamide 6 staple fibers in a nonwoven fabric have advantageous properties such as for example dimensional stability can be obtained. Of course it is possible several non-woven fabrics, each with a different orientation of the  Have polyamide 6 staple fibers to form a laminate, to bring about an improved dimensional stability of the laminate.

The nonwovens can also be further stabilized with regard to the dimensional stability by incorporated longitudinal and / or transverse threads. The weight per unit area of the nonwovens depends on the respective requirements. The weight per unit area of the nonwoven can be a few grams per m ² , but also several 100 g / m ² , ie from 10 g / m ² to 500 g / m ² , preferably from 15 g / m ² to 200 g / m ² .

For the purposes of the invention, the fiber titer of the flat fibers used is more common wise in a range from 1.0 dtex to 11.0 dtex, preferably from 1.7 dtex to 6.7 dtex.

The staple length of the staple fibers used in the present invention is usually in a range from 26 mm to 80 mm, preferably from 28 mm up to 60 mm. Mixtures of different stack lengths can also be used can be used (Vario stack).

The inventors have found that textile interlining nonwovens made from above described polyamide 6 staple fibers are made, a particularly good shape stability and low thermal shrinkage. In particular point textile interlining fleece from the described polyamide 6 staple fibers a considerable improved levelness, compared to interlining fleeces made according to the convention Lichen two-stage process manufactured polyamide 6 staple fibers, on. Surprisingly, the fleece shrinkage that occurred was being processed direction (MD) and the corresponding elongation in the direction perpendicular to the ver working direction (CD) in the nonwovens according to the invention is clearly reduced ger, although the thermal shrinkage after the one-step and after the two Fibers produced in a step-by-step process was almost identical.

It is advantageous if the polyamide 6 staple fibers with a silicone-containing Finishing agents are treated.  

The processing of the polyamide 6 staple fiber is particularly beneficial availability of the fibers facilitated. Avivage further improves the Antistatic properties of the polyamide 6 staple fibers. In particular, the made of polyamide 6 staple fibers treated with silicone-containing finishing agent provided textile interlining nonwovens an even softer feel, especially when Items of clothing for the wearer of the item of clothing is very pleasant.

In particular, polysiloxane-containing finishers are used as silicone-containing finish agents medium preferred. Of course, other finishing agents can also be used become.

It is further preferred that the textile interlining fleece on at least one surface is provided with at least one coating. The term coating is in the To understand the meaning of the invention so that the textile interlining fleece on at least one side with a means for attaching at least one fabric is coated. This coating is preferably a punctiform coating (many individual points applied regularly or irregularly).

The means provided on at least one surface of the textile interlining fleece Attachment of at least one fabric allows extremely advantageous a simple and quick incorporation of the textile interlining, for example in Clothes.

The textile insert nonwovens can be mechanically connected to the outer fabric become, d. H. for example needled, sewn, pressed or hooked. The Textile interlining nonwovens according to the invention are, however, preferably coated device provided, for example, a thermal welding or a hot glue or hot sealing with a textile outer fabric.

It is of course possible that these textile interlining fleece with each other or with other textile interlining fabrics or thread-laid fabrics to create a made up of several identical and / or different layers laminate. According to the invention, a laminate becomes a composite  understood from several layers, which at least partially from each other connected layers consist of textile interlinings. This from several Layers of existing laminate can in turn be connected to a textile outer fabric become. Of course, you can also use the textile interlining or on both surfaces of a laminate any coatings are applied. On this Beschich then or directly on the two surfaces of the textile insert fleece can textile outer fabrics are applied. This is useful for example at Manufacture of collars, cuffs, hats, caps, shoes, in particular of Intermediate lining, heel lining, reinforcement materials, tongues, etc.

It is very preferred if the means for attachment comprise an adhesive.

For the purposes of the invention, the adhesive can be any suitable adhesive or be any suitable adhesive mixture. The suitability of the adhesive is determined according to the materials to be joined. In any case, it must be avoided that the adhesive attacks the materials to be joined, d. H. for example dissolves. The adhesive can be in a uniform coating, in a mixed Coating or in a coating applied several times on top of each other application of two or more adhesives. The adhesive ver Division can be regular or irregular, punctiform, pattern-like, slats well-behaved, rune-shaped, diamond-shaped, flat, island-like, rolled on (calendered, smoothed, flattened), foamed, etc.

In particular, the following adhesives are preferred which are from the group be selected, which consists of pressure sensitive adhesive, hot melt adhesive, hot seal adhesive, Glue, adhesive powder, hot melt pressure sensitive adhesive, hot melt adhesive, sealing material, textile hot melt adhesive, thermoplastic adhesive.

The adhesive is preferably solid and non-adhesive at room temperature but increasingly fluid and sticky at elevated temperatures. The stickies It can penetrate into the surface of the textile fabric to be connected and anchor themselves there sufficiently after they have cooled and solidified, so that the two textile fabrics are connected (fixed, hot  sealed, glued).

For the purposes of the invention, the following adhesives are preferred:

• - Copolyamides with melting points between 60 ° C and 175 ° C, the from at least two of the monomers listed below are built: caprolactam, aminoundecanoic acid, hexamethylene di amine, piperazine, adipic acid, azelaic acid, sebacic acid, dodecane diacid. Of course, other diamines and Diacids can be used.
• - Polyolefins such as HDPE and LDPE (high density and low-density polyethylene)
• - Polyester and copolyester with melting points between 60 ° C and 175 ° C, which consists of at least one dicarboxylic acid and at least a diol. In addition, the polyester can or partly from lactones such as caprolactone or butyrolactone etc. be constructed. Terephthalate are possible dicarboxylic acids acid, isophthalic acid, adipic acid, azelaic acid, sebacic acid, Dodecanedioic acid in question. Ethylene glycol are possible diols kol, 1,4-butanediol, 1,3-propanediol, 1,6-hexanediol and 1,4-cyclo hexyldimethanol. Of course, others can too Diols and dicarboxylic acids are used.

The textile insert fleece is very preferably a textile fixing insert. Under textile Fixing inserts are generally understood to be a gluable textile interlining. The textile fixing insert according to the invention thus includes, for example applied thermoplastic adhesive, which, by exposure to temperature and, if necessary, pressure for a certain time, an adhesive and permanent Connection with the corresponding authenticity generated.

An extremely preferred embodiment of the invention relates to the use of polyamide 6 fibers, which are stretched and spun in a one-step process  were textured to produce a textile interlining with the above described properties and advantages.

It goes without saying that the Aus shown in the following examples management examples are only examples and the scope of protection attached Do not limit claims. It is clear to the expert that there are further out there are forms of management that fall within the scope of the invention.

example 1

A spun-stretched and textured 1.7 dtex polyamide 6 staple fibers produced in a one-step process were used to produce a nonwoven fabric with a weight per unit area of 25 g / m ² and thermal bonding with a calender at a temperature of 183 ° C. and 9% bonding area. The staple length of the fibers was 43 mm.

Polyamide 6, with a relative solution viscosity of 2.9, is used for fiber production (measured in concentrated sulfuric acid; 1 g / 100 ml), which is 0.3% by weight Contains titanium dioxide melt spun at a temperature of 270 ° C. Here nozzles with a hole diameter of 0.25 mm are used. The spider speed is 900 m / min. After the deduction godet that becomes endless Fiber cables at godet temperatures between 80 ° C and 170 ° C over several Godets (Duo 1: 80 ° C; Duo 2: 170 ° C; Duo 3: 150 ° C; Duo 4: 140 ° C) stretched and then textured directly using an Airjet at 180 ° C. The heat setting takes place in a belt dryer at a temperature of 180 ° C. The final cutting of the fibers is done with a commercially available Stack cutting machine performed.

Example 2

From a spun-stretched and textured 1.7 dtex polyamide 6 staple fibers (with 0.3% by weight titanium dioxide) produced in a one-step process, in which the heat-setting was carried out at 120 ° C. in a saturated steam atmosphere at a pressure of 2 bar Nonwoven fabric with a basis weight of 25 g / m ² and thermobonded with a calender at a temperature of 183 ° C and 9% bonding area. The staple length of the fibers was 43 mm. With the exception of heat setting, the production process corresponds to the process from Example 1.

Example 3

A non-woven fabric with a basis weight of 25 g / m ^{2 was} produced from spun-stretched and textured 1.7 dtex polyamide 6 staple fibers, which had previously been prepared with a silicone-containing finish, and was produced at a temperature of 183 ° C. and 9% Bonding surface thermobonded with a calender. The staple length of the fibers was 43 mm. The silicone-containing softener was the aqueous emulsion of a commercially available polysiloxane (Delion 431, Takemoto Oil & Fat Co. Ltd.). The finish was sprayed onto the polyamide 6 fiber cable before heat setting. The circulation was 0.3% based on the fiber weight. The polyamide 6 staple fibers used according to this example otherwise correspond to the polyamide 6 staple fibers from example 1.

Comparative Example 1

From 1.7 dtex PA 6 staple fibers, type M 25 semi-matt, which corresponds to a commercially available polyamide 6 staple fiber (EMS Chemie AG), which were produced according to the conventional two-step process described below, a nonwoven fabric with a basis weight of 25 g / m ² manufactured and thermobonded with a calender at a temperature of 183 ° C and 9% bonding area. The staple length of the fibers was 43 mm. The two-stage process according to which the polyamide 6 staple fibers were produced is divided into the following process steps:

Polyamide 6, with a relative solution viscosity of 2.9 (measured in conc trated sulfuric acid; 1 g / 100 ml) will melt at a temperature of 270 ° C spun. The undrawn spun material is in before further processing Cans temporarily stored. In a process separate from the spinning process step, the spun material is stretched at temperatures between 100 and 180 ° C. The texturing takes place in a ruffling chamber. Before cutting the Fiber cables using a commercially available stack cutting machine Fibers fixed at 180 ° C.

To assess the quality of the according to Examples 1 to 3 and Ver Nonwovens produced in the same way as example 1 were subjected to thermal shrinkage at 120 ° C., and the thermal shrinkage of the individual fibers at 180 ° C.

To determine the fiber shrinkage, the fibers are tempered for 15 minutes exposed to temperature of 180 ° C (preload: 0.1 g). From the through the thermobe action caused length change is the thermal shrinkage of the fibers certainly.

To determine the thermal shrinkage, the fleeces are held in one for 12 s Textile press exposed to a temperature of 120 ° C. From the through the thermo treatment caused length change of the nonwovens in the processing direction (MD) and in the direction perpendicular to the processing direction (CD) the shrinkage in the MD direction and the corresponding elongation in the CD direction.

Furthermore, the levelness of the nonwovens was assessed visually and according to one Value scale from 1 to 6 assessed. The value 6 corresponds to a very cloudy and the value 1 a very level fleece image. It is under a very cloudy Fleece image in the sense of the invention understood that the fibers in the fleece are inhomogeneous are distributed, which gives the fleece a spotty and cloudy impression leaves. Under a very level fleece image is ver in the sense of the invention stood that the fibers in the fleece are distributed very homogeneously, so that light-dark Differences based on inhomogeneous fiber distribution are excluded.  

The results are summarized in Table 1.

Table 1:

Explanation of tables:
MD in the direction of processing (nonwoven production)
CD direction perpendicular to the processing direction in the case of thermal shrinking means negative values mean elongation

The results in Table 1 show that the thermal "shrink" (shrink in MD direction and elongation in CD direction) according to Examples 1 to 3 Nonwovens produced compared to the nonwoven fabric according to the comparative example 1 is less. That is, those made in a one-step process spun-stretched and textured polyamide 6 staple fibers made of nonwovens, have better dimensional stability than nonwovens made from polyamide 6 Staple fibers were manufactured that were conventional after the two-stage Process were manufactured.

The levelness of the spun drawn in a one-step process and textured polyamide 6 staple fibers is compared to the nonwoven fabric produced according to comparative example 1 (PA 6 staple fibers two-stage process), also significantly improved. The best fleece equality can thereby by an additional approval of the one-step process manufactured polyamide 6 staple fibers, with a silicone-containing finishing agent can be achieved, as can be seen from Example 3 in Table 1.

Claims (8)

1. Textile interlining fleece, characterized in that the textile interlining fleece is constructed from staple fibers and comprises at least partially polyamide 6 staple fibers, which have been spun-stretched, textured, thermofixed and cut to length in a one-step process. 2. Textile insert fleece according to claim 1, characterized in that the Polyamide 6 staple fibers consist of polyamide 6, the polyamide 6 up to 10% by weight of other polymers or additives can be added can. 3. textile interlining according to claim 1 or 2, characterized in that the polyamide 6 staple fibers are treated with a finishing agent. 4. textile interlining according to claim 5, characterized in that the Finishing agent contains silicone. 5. textile interlining according to one of claims 1 to 4, characterized records that the textile interlining fleece on at least one surface means for attaching at least one fabric. 6. textile interlining according to claim 5, characterized in that the Application means comprise an adhesive. 7. textile interlining according to one of claims 1 to 6, characterized indicates that the textile interlining fleece is a textile fixing insert.   8. Use of polyamide 6 staple fibers, which in a one-step process spun, textured, heat-set and cut to length were cut to produce a textile interlining one of claims 1 to 7.