EP0863249B1 - Method for treatment of wool-containing fabrics, particularly clothing - Google Patents

Abstract

A fabric treating method involves applying a composition to adjust its moisture content to between 30 and 60 %. A crease is then formed in the fabric by pressing at between 130 and 170 degrees C. The composition is at least one compound that contains at least 2 isocyanate groups in free or blocked form.

Description

The invention relates to a process for treating a fabric which contains from 30 to 100% by weight. made of wool. Preferably, this fabric is in the form of a ready-made garment like a pair of pants or a skirt.

Clothes such as skirts or pants are often wrinkled for fashion reasons desired, in the case of pants, for example, creases. Such wrinkles can be through Achieve pressing operations. It is known, for example, creases in ready-made pants, which wool fabrics contain, by pressing the dry pants at elevated temperature train. The disadvantage of such produced in this way creases is that they may be sharp after being pressed in, but after a few washes, often lose their shape already after a household wash. The permanence of such Creases compared to washing washes in wool washing programs (30 ° C) so lets much to be desired. The consumer is therefore forced, after each Laundry or after a few washes to iron the pants again.

DE-A 20 54 159 and DE-A 19 06 514 describe processes for the treatment of garments made of wool. If creases are produced in trousers made of woolen fabrics according to the methods specified in these two documents, it is found that the permanence of the creases in relation to washing processes (washing machine washing at 30 ° C.) is not optimal.

US Pat. No. 3,687,605 describes a multi-stage process for treating woolen fabrics to produce wrinkles. In the process, the fabric is treated with a polymer or prepolymer and then subjected to a curing process for the purpose of so-called external stabilization, in which drying of the fabric takes place. It is then treated with a reducing agent, then shaping takes place, for example, in the production of creases. To obtain optimum results, the fabric must be moistened with water before pressing the creases. Finally, a further temperature / curing treatment is required to re-form the reductant-cleaved chemical bonds in the wool fiber. This multi-stage process is relatively expensive.

The object of the present invention was to provide an improved method which makes it possible, in fabrics consisting of 30 to 100% by weight of wool, to create wrinkles at desired locations, which provide improved permanence Have washing processes, especially in tissues, which in form prefabricated Clothes are present.

The problem has been solved by a method for treating a tissue that is at 30 to 100 wt.% Of wool, wherein applying to the fabric a component A in the form of an aqueous composition, a Moisture content of the fabric of 10 to 80% by weight, preferably 30 to 60% by weight, adjusted and then at a temperature in the range of 80 to 200 ° C, preferably 130 to 170 ° C, presses wrinkles into the tissue, the tissue in the period between the Application of component A and the pressing of wrinkles not completely dried wherein component A is a compound containing at least two isocyanate groups in the free form or blocked by means of ketone oxime or hydrogen sulfite form present, or is a mixture of such compounds.

It has surprisingly been found that by this method the permanence of Wrinkles in tissues compared to washing processes can be significantly improved. By the inventive method can creases in made-up pants made of woolen fabrics generate even after 20 or more washes in home washing machines usual wool programs hardly lose shape.

If one the inventive method while maintaining certain moisture levels after pressing (see claim 2) performs, it is possible, even in the case darkly colored Tissue or, in the case of high basis weight tissues, the permanence of wrinkles improve without undesirable optical effects occur on the surface. this will described in more detail below.

In the method according to the invention, wrinkles in wool-containing fabrics are pressed. The fabrics are preferably in the form of prefabricated garments, in which Wrinkles should be generated and / or stabilized. The garments may e.g. Be skirts, in which pleats are to be generated and / or stabilized. This is particularly suitable inventive method for producing creases of high permanence in pants.

Tissues which are suitable for the process according to the invention consist of 30 to 100 % By weight of wool. 0 to 70% by weight may be made of other materials such as e.g. Polyester, polyamide, cotton. Lycra is also suitable as a mixing partner. Prefers For the process according to the invention, use is made of fabrics containing from 50 to 100% by weight. made of wool. For a wool content of the fabric or garments from 50 to 100 % By weight, the advantages of the method according to the invention over the above described state of the art particularly pronounced to advantage. As a wool component of Tissue can serve sheep's wool of any provenance. Their quality is not critical As far as the feasibility of the method according to the invention, but of course the Quality of the final article influenced by the wool quality.

The articles obtained after carrying out the process according to the invention have better properties when the process is carried out on fabrics whose aqueous extract has a pH of about 6 to 10. Appropriately, therefore, before carrying out the method according to the invention, the pH of the tissue to be treated is tested by extracting a sample of the tissue with water. If the extract has a pH outside the abovementioned limits, which may be due to the pretreatment of the fabric, eg the dyeing process, then it is advisable to treat and dry the fabric or the finished garment in an aqueous bath, before carrying out the method according to the invention. The bath used for this purpose is, for example, an aqueous solution of NH ₃ , Na ₂ CO ₃ or NaHCO ₃ . The treatment of the tissue can be performed by immersion in the bath at room temperature for a period of 10 to 30 minutes. The subsequent drying can be carried out in air from room temperature to equilibrium moisture content.

The thickness and construction of the tissues on which carried out the inventive method are not critical and can be varied widely. In individual cases To obtain optimal results, the conditions of the method according to the invention such as temperature, residence time and pressure during pressing on the characteristics of the used fabric, which is possible by a few routine experiments. So In general, thicker fabrics require higher pressures and / or residence times during pressing the wrinkles are thinner. Of course, however, when tuning the process parameters to the Tissue properties to comply with the above and in claim 1 conditions.

In a first step one brings in carrying out the method according to the invention a Component A on the tissue or garment to be treated. It is above all make sure that component A at least on those parts of the tissue is applied, where wrinkles are to be pressed during the subsequent pressing process, Preferably, however, the application of component A takes place on the entire Tissue surface. Conveniently, the application of component A, by the fabric or garment is impregnated by means of a bath or a liquor, e.g. by Immersion. However, it can also be an application by spraying component A on the tissue is done. Of course, component A must be in sprayable form, e.g. in mixture with a diluent.

It is advantageous in many cases and therefore constitutes a preferred embodiment of the inventive method, on the fabric or garment not just a Apply component A, but in addition a component B. All for the application statements made in component A also apply to the application of component B, if a component B is used. So it is necessary to make sure that after the application of the component B required for the subsequent pressing process Moisture content of the fabric is present before this pressing operation is performed.

The additional use of a component B is recommended especially if component A is a low molecular weight compound, e.g. a monomeric diisocyanate or a Oligomeres having a molecular weight of less than about 1000. In these cases, the Properties of the treated tissue can be improved if a component B is used, for example, with regard to felt-free equipment. By the invention Procedure, the fabric or garment receives a good felt-free equipment. however can also in the case that component A is a polymer having a molecular weight of is more than 1000, the benefits of using component B are beneficial; Eg receives the Tissue after performing the method according to the invention a pleasantly soft Handle when a softening agent is used as component B. It can, however, also Place softening agent on or in addition to component B on the fabric which does not fall under the definition of component B mentioned below and in claim 2 fall. Suitable for this purpose are the softening agents known from textile finishing, such as e.g. Fatty acid, fatty alcohol or fatty amine derivatives.

It is in most cases u.a. advantageous for reasons of cost and therefore preferred when when carrying out the process according to the invention, if a component B is used is, the components A and B and optionally other components simultaneously on the fabric or garment applies. In principle, the application of the Component A also before or after application of component B. This is less but may prove to be necessary or appropriate in an individual case, e.g. if no stable formulation can be found which contains the components A and B. For the For purposes of the method according to the invention, a preferred embodiment is to prepare an aqueous composition comprising component A and component B and optionally further components, and with this composition the Treat tissue or garment. The aqueous composition is preferably one stable solution or dispersion, e.g. an emulsion which except component A and B still Contains dispersants such as emulsifiers. In addition, this aqueous dispersion can still further Containing products which impart desirable properties to the fabrics, e.g. Softener agents and fluorine-containing polymers to achieve water-repellent and / or oil-repellent properties. Corresponding suitable products are for textile finishing already known for a long time. Examples of fluoropolymer-containing products, which in Combination with component A can be applied to the tissues are the products OLEOPHOBOL® S, OLEOPHOBOL® SL and OLEOPHOBOL® 7596 from Ciba Specialty Chemicals Pfersee GmbH, Germany. These products can be in one and the same Fleet with component A and optionally a component B are combined, so that thus effective permanent (ironing) wrinkles, felt-free equipment and achievement water / oil repellent properties are possible. The amounts of fluoropolymers which are suitably applied to the tissues, are in the area that in the Textile finishing for the oil / water repellent finish is common with these products.

Component A, which in carrying out the method according to the invention on the Tissue or garment is applied, is a compound that is at least two Has isocyanate groups. All or part of the isocyanate groups present can in this case in blocked form, with "blocked form" blocking the Isocyanate groups by means of a Ketonoxims or by means of hydrogen sulfite is meant. Next These isocyanate groups can contain further functional groups in component A available.

Component A may be a monomeric compound having two or more free or blocked ones Isocyanate groups, but the molecular weight of A should not be less than 160. Preferably, however, component A is a higher molecular weight compound, e.g. an oligomer or polymer, obtainable via homopolymerization, copolymerization, polyaddition or Polycondensation. Preferably, component A has a molecular weight greater than 500. Component A must contain at least two isocyanate groups, but not in free free form, but can be blocked. Preferably, component A is one to twenty isocyanate groups per 100 carbon atoms. In place of a defined Compound A may also be a mixture of compounds, each two or more isocyanate groups. The molecular weight of component A is suitably between 160 and 100,000, preferably between 500 and 25,000.

Component A contains isocyanate groups in free and / or blocked form. Under isocyanate groups in blocked form, functional groups are to be understood here which are characterized by Reaction of free -NCO groups with ketone oximes or hydrogen sulfites as blocking agents be formed and which at elevated temperature in a reversible reaction again Reverse isocyanate groups. Suitable blocking agents, ie compounds which in a thermally reversible reaction with -NCO groups react, are from the literature and include ketone oximes and hydrogen sulfites. For the inventive method are preferred as blocked isocyanate groups, which by reaction of free Isocyanate groups are obtained with hydrogen sulfite. Conveniently, the blocking by reaction of the isocyanate groups in a known manner with sodium or Potassium hydrogen sulfite performed.

According to the inventive method, the component A and optionally the Component B applied to the fabric in the form of an aqueous composition In this case, the composition is normally an aqueous dispersion or emulsion or else Solution. For stability reasons, it is preferable if in this case all or almost all Isocyanate groups of component A in blocked form, preferably in the form of a Blocking with hydrogen sulfite. Particularly suitable as component A are polyurethanes with Isocyanate groups that have been blocked by reaction with hydrogen sulfite.

Preferably, the isocyanate groups are in blocked form.

A series of polyurethanes which are used as component A for the inventive Methods are suitable, as well as other than component A suitable isocyanate groups Starting compounds from which such polyurethanes can be obtained are in the USA 3,687,605. Furthermore, this document specifies further polymers or their precursors, which can also be used as component A, optionally under With the use of a component B must be worked. In the production of polymers However, according to the teaching of this US-Script, it should be noted that the resulting Polymers must still contain free and / or blocked isocyanate groups in order to Component A to be suitable. It is assumed that component A is above the Isocyanate groups, optionally after removal of the isocyanate, with the wool of the tissue and / or can react chemically with component B.

Suitable as component A products can be, inter alia, by reaction aliphatic, alicyclic or aromatic diisocyanates with polyhydric alcohols too Oligo- or polyurethanes obtained. This can be known from polyurethane chemistry Chain extenders are additionally used. The conversion to the oligo- or Polyurethane is carried out with an excess of isocyanate equivalents, so that the Reaction product still has free NCO groups. These can then, if desired, partially or completely blocked by reaction with alkali metal hydrogen sulfite. Suitable as component A products are available on the market.

Component B, which in a preferred embodiment of the invention Method is also applied to the fabric or garment is a organic compound which has at least two hydroxyl groups in the molecule. These Hydroxy groups are capable of reacting with the isocyanate groups of component A, optionally after thermal cleavage of the blocking of the isocyanate groups. When Component B are dibasic or polyhydric alcohols, especially long-chain Alcohols whose chain may also be interrupted by ether groups. Especially preferred as component B are polymers, in particular free hydroxy groups Polyesters, polyamides and polyalkylene glycols. The latter can be polyethylene glycols or Polypropylene glycols or copolymers of ethylene glycol and propylene glycol. Instead of a single compound having two or more hydroxy groups, component B may also be selected from consist of a mixture of such compounds.

Particularly good results were obtained with the method according to the invention, when as Component B Polydiorganosiloxanes having at least two free hydroxyl groups per molecule were used. In particular, linear polydimethylsiloxanes in which each of the two If one hydroxyl group is bonded to terminal silicon atoms, they are very good as component B suitable. When using these silicones as component B, it is possible by the Method according to the invention to obtain trousers which are not only excellent Permanence of creases, but also have pleasantly soft grip. This is still valid increased degree when combined with this component B a polyurethane with Hydrogen sulfite-blocked isocyanate groups is used as component A. The Permanence of the crease can be further increased in this case by a fixing treatment be performed after the pressing process. This preferred embodiment will described in more detail below.

Suitable as component B is the product DICRYLAN® WK new from Ciba Specialty Chemicals Pfersee GmbH, Germany.

An aqueous composition comprising both component A and component B contains and which is well suited for the process according to the invention, is the product DICRYLAN® WSR from Ciba Spezialitätenchemie Pfersee GmbH.

The amounts of component A and component B, which in the process according to the invention should be applied to the fabric or garment, in wide areas be varied. Preferably, the procedure is such that the fabric with an aqueous liquor treated, which contains A and B. Following this impregnation, e.g. by means of Dipping the fabric into the liquor can be done, the fabric or garment squeezed or thrown to remove excess moisture. squeezing and spin are preferably carried out so that the tissue then a Liquor pickup of 10 to 80 wt.%, Preferably 30 to 60 wt.%, Based on the dry tissue before impregnation with the liquor. After squeezing or Thus, the tissue should gain weight in the stated range, based on dried fabric before impregnation, exhibit. The concentrations in the Treatment liquor are preferably chosen so that on the tissue after the Squeezing or spinning 0.25% by weight to 2.5% by weight of component A and 0.05% by weight to 0.5 wt.% of component B, preferably 0.5 to 1.8 wt.% A and 0.1 to 0.3 % By weight. These values are each on dry fabric before the impregnation process based.

If the inventive method to be performed without using a component B. the above statements regarding the values for the liquor holding of the Tissue and unchanged for the amount of component A on the fabric.

Furthermore, it is preferred if, after application of the components A and B and Squeezing or spinning the tissue a numerical excess Isocyanate units of component A versus the number of hydroxy groups of Component B is present, so that also in the case of a reaction of all hydroxy groups of B with Isocyanate groups of A would still be present excess isocyanate groups. Are out of the box Component B containing other hydroxy-containing products should also be used after squeezing, there is an excess of isocyanate groups.

If a component B is used, it is preferable to work on the fabric After centrifuging and squeezing a weight ratio of component A to Component B is present in the range of 10: 1 to 3: 1.

In the method according to the invention, if desired, except components A and B nor a catalyst can be applied to the fabric, which is the implementation of Promotes isocyanate groups with hydroxy groups. Suitable catalysts are from the literature known.

After applying the components A and optionally B to the tissue and if necessary, take off or squeeze to the desired liquor pickup, before the desired wrinkles are pressed, the moisture content of the fabric or Garment to 10 to 80 wt.%, Preferably 30 to 60 wt.% Are set. One Moisture content in this area at the beginning of the pressing process is a crucial one Requirement of the method according to the invention. In particular, those places where then the wrinkles are to be pressed in, have a moisture content in the own area. If, as described below, after the Abschleudem or Squeezing before pressing the folds still further operations such. toppers carried out, the adjustment of the moisture content is carried out after these operations.

The values given for the moisture content mean the amount of water which is present on the fabric, based on the weight of this fabric after drying at 110 ° C for 30 minutes. The serving as a reference commodity weight is thus among these Conditions dried tissues on which already component A and optionally Component B (with the exception of the ingredients used in the drying conditions are volatile). The mentioned range for the moisture content is therefore to be observed before with the pressing process is started. Before its implementation must therefore the moisture content be determined if he is not already on the basis of empirical values and process parameters is known. Depending on the conditions of the previous treatment, the Moisture content already in the required range.

It is advantageous to carry out the preceding treatment under such conditions that the moisture content of the fabric or garment is already in the required area is located. With knowledge of the required parameters in a standard production is the moisture content of the fabric before pressing already from experience known or it can be calculated so that a determination of the moisture content can be omitted. If the moisture content is already in the required range, then No corrective action is required. Otherwise, the required moisture content by adding moisture or drying. If dried, This must be done under mild conditions, so that chemical reaction of Isocyanate groups is avoided.

In many cases, it is appropriate to the fabric or garment before adjusting the Moisture and subjected to a so-called Toppem before pressing. in this connection the tissue is clamped at two ends, e.g. a pair of pants at the top and bottom The End. Subsequently, the tissue is briefly heated with a stream of heated air or with a Treated mixture of water vapor and air. For example, in the case of trousers it is convenient to clamp the pants at its upper and lower end, at the bottom to close and blow air from above into the inside of the pant legs. The air, which in the Normally has a temperature of about 40 to 120 ° C and is dry, permeates the Tissue. The purpose of this process is to smooth the surface of the fabric and so facilitate the subsequent pressing operation in which wrinkles are pressed. This process of Topperns can after the application of the components A and optionally B and then squeezing and centrifuging the fabric done. It is advantageous to perform the Topperprozeß so that the fabric or garment does not dry, but still a humidity of 10 to 80 wt.%, Preferably 30 to 60% by weight. This is the range of moisture content that the fabric will have must have subsequent pressing at least at those points where folds should be pressed. The moisture content of the tissue after topping can be over the temperature of the heated air or over the duration of the supply of this air to be controlled. Instead of blowing heated air alone, you can do that that at the beginning a mixture of superheated steam (120 ° C) and air is used and then only air.

After the topper process, in the case of pants, an ironing operation can be performed on areas where later no wrinkles are to be pressed, for example, to make seams on the inside of the To iron trouser legs by hand. However, this should be done under mild conditions.

The subsequent pressing process in which wrinkles are pressed into the fabric or garment requires that the fabric have a moisture content of 10 to 80% by weight, preferably 30 to 60 wt.% Has. These values give the water content of the fabric on, based on dried tissue, as described above. The tissue must be at least in the places where wrinkles are to be pressed, a moisture content in this Have area. Normally, the tissue has a moisture content throughout this area.

It is advantageous if the preceding the pressing process steps, namely Applying the components A and optionally B, centrifuging or squeezing, if necessary Toppem and optionally ironing by hand carried out so that the tissue after the last of these steps already required for the pressing moisture having. In this case, the pressing process without previous additional measures to increase or decrease the moisture content. Definitely must be avoided that the tissue at any time between the application the component A and the pressing is completely dry.

In the fabric or garment wrinkles are pressed in the next step, e.g. Creases on trousers or pleats on skirts. The wrinkles can be in an earlier Process step have already been preformed by applying a light pressure. It But it is also possible to produce wrinkles in a hitherto wrinkle-free tissue. For the Pressing the fabric is designed accordingly, so that at the desired location a Fold is preformed. This is now at a temperature in the range of 80 to 200 ° C, preferably pressed 130 to 170 ° C using a pressure. The specified Range for the temperature is not the temperature of the pressing tool is (the higher can lie), but the temperature, which exhibits the fabric in the places, where the Wrinkles are pressed, on the surface facing away from the pressing tool. In the case of pants, this is the inside of the creases. The temperature of the tissue on the Preßwerkzeug remote surface can be measured by means of a temperature sensor and be controlled via the process parameters. The statement that the pressing in a Temperature in the range of 80 to 200 ° C, preferably 130 to 170 ° C, are performed must, does not mean that the pressing tool facing away from the surface of the fabric on the Place the fold during the entire pressing a temperature in said range must have. Rather, this surface must only sometime during the pressing process have a temperature in this area. It is then sufficient often a residence time of 10 to 60 seconds at this temperature, so that the tissue in the area of the folds either completely is dry or has moisture in the desired range, a necessary condition to achieve permanent wrinkles. Measuring the temperature at the relevant points of the Of course, tissue can be omitted if based on experience with knowledge of Process parameters is known that the temperature is already in the required range located.

After pressing must, as mentioned, the tissue in the places where wrinkles pressed have a certain moisture content. In the case brightly colored, undyed Tissue or, in the case of low basis weight fabrics, it is often advantageous when the tissue is practically completely dry in the places of wrinkles.

The pressing process is preferably carried out in these cases so that the tissue or Garment in places where wrinkles were pressed, after pressing practically is completely dry. Otherwise, the permanence of the fold can be compared to washing processes be worse. A complete drying of the fabric can be easily on the Achieve the duration of the pressing process.

In the case of dark colored fabrics or in the case of high basis weight fabrics In contrast, it is often advantageous if the tissue in the places where wrinkles pressed were after pressing not completely dry, but a moisture content of 10 - 70% of that moisture value (in wt.%) That the fabric has on it Before the pressing process exhibited, but at least one moisture content of the Tissue of 5% at these sites (based on tissue weight at these sites). This can often prevent unwanted optical effects on the surface or at least mitigate it. A drying of the fabric down to the desired Moisture value can be achieved in a simple manner over the duration of the pressing process.

The pressure to be applied when pressing the wrinkles can be varied widely. He will suitably adapted to the tissue properties and is preferably in the range from 1 to 10 bar. For the pressing process commercial equipment is suitable, which allow to achieve the required pressures and temperatures.

The duration of the pressing must be at least so high that the fabric or garment in the places where wrinkles are pressed, after pressing the desired Has moisture content. This can vary depending on the fabric type. A longer one Dwell time of the tissue in the press is not required in most cases, but can in the Be an individual case of advantage. Normally, the duration of the pressing process is about 5 seconds up to several minutes, depends i.a. from the pressing tool.

After the pressing operation, the fabrics may be dried in air at room temperature or elevated temperature (eg in a drying oven) until they reach equilibrium moisture content.
Subsequently, further, customary in the manufacture of ready-made fabric process steps can be carried out, including ironing by hand at the places where no wrinkles were pressed.

With the method according to the invention it is possible to use wool-containing fabrics simultaneously to give permanent folds such as creases and a felt-free finish. Especially at Use of suitable components A and B have the treated according to the invention Fabric excellent felt-free properties. Which products among those that are considered Component A and component B, also for achieving a felt-free equipment can be used, can be found in the literature on textile finishing. A good Combination of suitable components to achieve permanent creases in pants simultaneous felt-free equipment is the product DICRYLAN® WSR Ciba Specialty Chemicals Pfersee GmbH, Germany, dar.

In many cases it is cheap and often even indispensable for achieving optimal properties the fabric or garment, if after the pressing process and optionally Drying still a fixing treatment is performed. For this, the tissue is without Apply a mechanical tension and without applying pressure for 5 to 30 minutes 130 to 200 ° C, preferably at 140 to 180 ° C, treated.

As a result, a reduction in the felt shrinkage of the wool can be achieved in the normal case. These Fixation or condensation can be done in a commercial drying oven.

The invention will now be illustrated by embodiments.

Example 1:

a) 20 g/l eines Polyurethans mit Isocyanatgruppen, die durch Umsetzung mit anorganischem Sulfit blockiert waren (Komponente A).

b) 2,2 g/l eines linearen Polydimethylsiloxans (Komponente B), bei dem an jedem Kettenende eine Hydroxygruppe an das endständige Si-Atom gebunden war. (An Stelle der getrennten Komponenten A) und B) läßt sich auch ein Produkt verwenden, das durch vorhergehende chemische Umsetzung von A) mit B) erhalten wird.)

c) 2 g/l eines linearen Polydimethylsiloxans, das Seitenketten mit Aminogruppen aufwies.

d) 5 g/l NaHCO₃

An aqueous liquor was prepared which, in addition to dispersants and auxiliaries, contained the following constituents:

a) 20 g / l of a polyurethane with isocyanate groups which were blocked by reaction with inorganic sulfite (component A).

b) 2.2 g / l of a linear polydimethylsiloxane (component B) in which a hydroxy group was attached to the terminal Si atom at each chain end. (In place of separate components A) and B) can also use a product obtained by prior chemical reaction of A) with B).)

c) 2 g / l of a linear polydimethylsiloxane having side chains with amino groups.

d) 5 g / l NaHCO ₃

Wool trousers were dipped into this liquor at room temperature, the fabric portion being 100% % of wool was. After 10 minutes of diving, the pants were completely wet. she got taken from the bath and spun off until the liquor intake (= weight gain, based on dry pants) was 50%. The Abschleudem was in a washing machine 70 Performed for seconds.

The pants were then stopped for 20 seconds by placing them on their top and bottom clamped lower end of the pants legs closed and from the top in the inside of the pants first a mixture of saturated water vapor for 10 seconds (120 ° C) and hot air and then for 10 seconds only hot air injected. The pants were after the Toppem turned and ironed the side seams on the inside. After another Wenden the pants were inserted in a press. The heated plates had this press a temperature of 220 ° C. After inserting the pants in the press, the pants per Hand laid and sucked by vacuum to the surface of the press plate. To Close the press tool were in the pants at 4 bar pressure on both legs 2 each Creases pressed in for a few minutes. In the place of the crease was inside the pants, So measured at the surface facing away from the pressing tool the temperature. These rose to 130 ° C during the pressing process. After the pressing process, the pants were along the creases dry. The pants were allowed to air dry overnight, too Dry at the remaining places to achieve. Then the pants in one Warming cabinet fixed without applying a voltage for 5 minutes at 150 ° C. It turned out that after a subsequent storage for 1 week at room temperature, the optimal Effects were reached.

The pants treated in this way had sharp creases, whose appearance was even after 15 washes in a household washing machine (30 ° C, with circulation and addition a surfactant to the wash liquor) practically did not deteriorate.

Example 2:

a) 20 g/l eines Polyurethans mit Isocyanatgruppen, die durch Umsetzung mit anorganischem Sulfit blockiert waren (Komponente A).

b) 2,2 g/l eines linearen Polydimethylsiloxans (Komponente B), bei dem an jedem Kettenende eine Hydroxygruppe an das endständige Si-Atom gebunden war. (An Stelle der getrennten Komponenten A) und B) läßt sich auch ein Produkt verwenden, das durch vorhergehende chemische Umsetzung von A) mit B) erhalten wird.)

c) 2 g/l eines linearen Polydimethylsiloxans, das Seitenketten mit Aminogruppen aufwies.

d) 5 g/l NaHCO₃

An aqueous liquor was prepared which, in addition to dispersants and auxiliaries, contained the following constituents:

a) 20 g / l of a polyurethane with isocyanate groups which were blocked by reaction with inorganic sulfite (component A).

b) 2.2 g / l of a linear polydimethylsiloxane (component B) in which a hydroxy group was attached to the terminal Si atom at each chain end. (In place of separate components A) and B) can also use a product obtained by prior chemical reaction of A) with B).)

c) 2 g / l of a linear polydimethylsiloxane having side chains with amino groups.

d) 5 g / l NaHCO ₃

Wool trousers were dipped into this liquor at room temperature, the fabric portion being 100% % of wool was. After 5 minutes of diving, the pants were completely wet. she got taken from the bath and spun off until the liquor intake (= weight gain, based on dry pants) was 50%. The Abschleudem was in a washing machine 70 Performed for seconds.

The pants were then stopped for 20 seconds by placing them on their top and bottom clamped lower end of the pants legs closed and from the top in the inside of the pants first a mixture of saturated water vapor for 10 seconds (120 ° C) and hot air and then for 10 seconds only hot air injected. The pants were after the Toppern turned and ironed the side seams on the inside. After another Wenden the pants were inserted in a press. The heated plates had this press a temperature of 150 ° C. After inserting the pants in the press, the pants per Hand laid and sucked by vacuum to the surface of the press plate. To Close of the press tool were in the pants at 6 bar pressure on both legs 30 each Creases pressed in for seconds. In the place of the crease was inside the pants, So measured at the surface facing away from the pressing tool the temperature. These rose to 100 ° C during the pressing process. After the pressing process, the pants were pointing along the creases a moisture of about 15 wt.% On. The pants were in the drying cabinet (150 ° C / 10 min) dried. Then the pants in a warming cabinet without Apply a voltage for 10 minutes at 160 ° C fixed. It turned out that after one subsequent storage for 1 week at room temperature achieves the optimal effects were.

The pants treated in this way had pronounced creases, their appearance also After 15 washes in a household washing machine (30 ° C, with circulation and addition of a Surfactants to the wash liquor) practically did not deteriorate.

Claims (12)

1. A process for treating a fabric which is 30 to 100% by weight wool, which comprises applying a component A in form of an aqueous composition to said fabric, adjusting said fabric to a moisture content of 10 to 80% by weight, preferably 30 to 60% by weight, and then pressing creases into said fabric at a temperature within the range from 80 to 200°C, preferably 130 to 170°C, wherein said fabric is not dried completely in the time between said application of component A and said pressing of creases, said component A being a compound having at least two isocyanate groups which are present in free form or in the form blocked with a ketone oxime or a hydrogen sulfite or being a mixture of such compounds.
2. A process according to claim 1, wherein said pressing is effected in such a way that, after said pressing, the areas of said fabric where creases were pressed in have a moisture content which is 10 to 70% of the moisture content (in % by weight) in said areas prior to said pressing, but at least a moisture content of 5% (based on fabric weight in these areas).
3. A process according to claim 1 or 2, further comprising applying to said fabric, in addition to said component A, a component B which is an organic compound which has at least two hydroxyl groups or which is a mixture of such compounds.
4. A process according to one or more of claims 1 to 3, wherein said component A is a polymer, especially a polyurethane.
5. A process according to one or more of claims 1 to 4, wherein said component A contains isocyanate groups blocked by reaction with bisulfite.
6. A process according to claim 3, wherein said component B is a polymer having at least two hydroxyl groups and selected from the group of the polyesters, polyamides, polyalkylene glycols and polydiorganosiloxanes.
7. A process according to claim 6, wherein said component B is a polydimethylsiloxane having an Si-attached hydroxyl group at each chain end.
8. A process according to one or more of claims 3 to 7, wherein said component A and said component B are applied to said fabric at one and the same time.
9. A process according to claim 8, wherein said fabric has applied to it an aqueous composition comprising said component A and said component B.
10. A process according to one or more of claims 1 to 9, wherein said fabric is present in the form of a made-up garment.
11. A process according to claim 10, wherein said garment is a trouser and said creases are the front and back edges of the legs of said trouser.
12. A process according to one or more of claims 1 to 11, further comprising subjecting said fabric to a setting treatment at a temperature within the range from 130 to 200°C, preferably 140 to 180°C, after said pressing of said creases.