DE2136882A1 - LAUNDRY DETERGENT - Google Patents

Description

6700 Ludwigshafen, July 20, 1971 Detergent

The invention relates to a detergent based on mixtures anion-active compounds, which are mainly used in the finishing of cellulose-containing textiles.

The previously used for cleaning cellulosic! Textile goods used anion-active detergents (surfactants) are e.g. alkyl sulfates, Alkyl sulfonates, alkyl ether sulfates, sulfosuccinic acid esters, Salts of fatty acids or fatty acid condensation products with a sulfo or carboxyl group as the hydrophilic group and more.

The molecules of these wetting and washing agents for aqueous or aqueous-alkaline treatment inks have an average carbon number of at least 12 per hydrophilic group in their hydrophobic part. The washing effect of the types mentioned increases as the carbon chain becomes longer, while the maximum of the wetting effect is usually reached sooner. In some cases, wetting or washing effects with hydrophobic residues of less than 12 carbon atoms can only be obtained with products whose hydrophilic groups have less solubilizing properties, e.g. monooctyl phosphate or, in the group of nonionic surfactants, very briefly oxyethylated alcohols or certain acetylene alcohols. This is related to the balance between hydrophobic and hydrophilic parts of a surfactant molecule that is required for a wetting and washing effect. The equilibrium is influenced by strong alkalis, so that all of the above-mentioned types of surfactants are opposed to compounds which must have extremely high solubility for use in strong alkalis, for example mercerising aids. With compounds that contain a strongly solubilizing group and a chain of 6 to 10 carbon atoms in the molecule, an optimal network effect _{r is achieved} with sufficient 7/71 '- 2 -

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Solubility. Sole compounds are e.g. alkyl sulfuric acid esters, which have between 4 and 8 carbon atoms in the alkyl radical. In the presence of a homologue mixture, which in principle has more favorable solubility properties than a uniform compound, one can also use alkali-stable compounds apply with a slightly higher average carbon number, like the analysis of a "widespread mercerizing wetting agent based on alkyl sulfonate proves that about 11.6 carbon has fatome per sulfo group on average.

Such products, which are primarily follower 18 to 26 sodium hydroxide solution (25 to 32 Be accordingly) applied W verlieren- quickly their net force when the concentration of the sodium hydroxide solution

drops below this value. Even more so, a washing effect cannot be achieved in dilute alkaline baths. One was hence the opinion so far, a product with the solubility of a mercerising agent, but with a wetting and washing effect in baths low alkalinity is not feasible. However, it is precisely this that exists in technology, especially in the case of pretreatment processes for cellulose or cellulose-containing fibers there is a great need.

Due to the increasing shift towards continuous treatment processes in the textile industry, due to the compulsion to rationalize, are because of this new process Requirements placed on the aids to be used that differ from the conventional compounds or compound mixtures can no longer be fulfilled.

A special type of treatment is the alkaline pretreatment of cellulose or cellulose-containing textiles. In the earlier usual visit, the material lasted up to 8 hours coated with about 1% caustic soda. Such time consuming However, procedures have long been in the art intolerable. Using the method of DAS 1 273 480, it was possible to obtain the necessary fibers without damaging the fibers from higher alkali concentrations Reduce treatment times considerably and still have a to achieve even better pre-cleaning.

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The continuous pad-roll systems * to l40 ° C, the bleach goods is performed in a broad form at an operating temperature of 100 ⁰ C and residence times of at least 2 hours, or in high temperature pressure shock absorbers, at a residence time of 50 to 90 seconds, and the treatment temperatures of the 130th Another machine that is widely used in bleaching is the so-called boot, also known as the J-box. It is used for bleaching in a wide variety of processes, eg chlorite bleaching, hypochlorite bleaching, peroxide bleaching, and is also very suitable for alkaline pretreatment. In most constructions, the goods pass through the bleaching boot in the form of a rope. Depending on whether the alkaline treatment liquor is applied to the dry goods or whether goods that have already been wetted are impregnated, the following problems arise in connection with the alkali concentration:

In the first case, the liquor to be added has the same concentration like the impregnation liquor. The surfactant it contains must have the solubility required for a specific alkali concentration, has sufficient solubility at this alkali concentration Network speed is supposed to be on the goods while develop their emulsifying and dispersing effect during the pretreatment period and during the subsequent rinsing on the washing machine have a high cleaning effect »The detergent types mentioned at the beginning cannot meet these requirements in their entirety meet, especially not those that are chemically uniform. However, a number of special mixtures are known which are still suitable for this. These are products based on alcohol polyglycol ethers, alkyl monosulfonate, Alkyl disulfonate and higher-chain alcohols mixed with water. Mixtures of alcohol polyglycol ethers are also known and carboxymethyl polyglycol ethers. Finally there are still mixes based on alkyl monosulfones, disulfonates and alcohols that are alkoxylated cie are known.

In the second case, which occurs more frequently, since further pre-treatment stages are generally connected upstream, e.g. B. Desizing, Mercerizing or causticizing, and intermediate drying is not an option for reasons of cost, must the impregnation compartment can be fed with a make-up liquor

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those that have a multiple concentration of the impregnation concentration having. If this measure is not carried out, the chemical concentration in the impregnation bar will drop moist goods continuously. This applies to full impregnation (practical complete fleet exchange in a sufficiently large impregnation compartment) as for the so-called addition impregnation (small impregnation compartment before the fleet exchange). The so-called Amplification ratio depends on the difference the squeezing effects of the roller pairs before and after the impregnation compartment. Since only slight differences in the squeezing effect are possible when the goods are guided in strand form, high reinforcement ratios are required se are chosen, sometimes up to about 1:10. The surfactant contained in the treatment liquor needs in this Part of showing little or no wetting effect, as the goods arrive wetted. However, it must have a good washing and dispersing effect to be available. Otherwise the impurities present in a relatively concentrated form on the fiber will be deposited when diluting while running into the washing machine, which is located downstream of the pretreatment unit is down again on the textile. It is very important that the detergent is added with the impregnation liquor so that it can act on the contaminants during the pretreatment stage and at a constant rate during the rinsing process Amount is available. An addition only in the washing machine does not have the same effect. In the previously known detergents, including the aforementioned special mixtures, is however not always, i.e. practically never sufficient solubility in such alkali lyes, as is often necessary with the high concentrations of the increased make-up leaches will occur. If you wanted an optimal cleaning effect achieve, it was therefore necessary to set up one or more additional dosing systems for the detergents.

The technical task that arose, namely to find a detergent that has a broad pH range in the alkaline Medium is effective and at the same time also remains in solution, was surprisingly according to the invention with a detergent dissolved, which is based on mixtures of anion-active compounds

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gen is based, and that through a content of

A) 30 to 70 percent by weight, based on the detergent Compounds of Formula I.

R ¹ - (OCH ₂ -CH ₂ ) _n] OS0, Me'I

and

B) 70 to 30 percent by weight, based on the detergent Compounds of formula II

A II -

is characterized, where in the formulas R is an alkyl group with 10 to 16 carbon atoms, m is an integer between 1 and 4 mean, A for an alkane with 10 substituted on different carbon atoms by 1 to 3 SO ^ Me groups to 20 carbon atoms, and Me denotes an optionally substituted ammonium or an alkali atom.

The effect of the combination according to the invention is extremely surprising since, according to previous knowledge, it appeared very unlikely that component A, for example, would remain in solution in an alkali concentration of 15% sodium hydroxide solution and above. On the other hand, it seemed just as unlikely that component B in a wash liquor containing less than 10 % alkali would also produce a synergistic effect together with component A such that this combination would be effective as a marked broad-spectrum detergent.

Component A is represented by compounds of the formula I. These compounds are alkoxylated alcohols, the paraffin skeleton of which is 10 to 16, preferably 12 to Contains 15 carbon atoms attached to the alcoholic group 1 to 4, preferably 2 to 3 times oxethylated and also with Sulfuric acid are esterified. However, component A is expediently a mixture of different ones within those specified Limits of alkoxylated sulfated alcohols are that these mixtures develop a particularly favorable detergent effect. In principle, however, it is also possible to use individual representatives for the purpose according to the invention, but this is done in technology generally not preferred as it is extremely costly and extensive cleaning and separation

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. work needs to keep the individual links mentioned pure.

Component B is represented by compounds of the formula II. These agents were used in their own right, e.g. as caustic and mercerising agents for cotton are used. It deals These are alkyl polysulfonates (alkanes that are replaced by sulfonate groups are substituted) whose hydrocarbon skeleton contains 10 to 20, preferably 13 to 17 carbon atoms. the Alkanes are generally 1 to 3 times, sulfated, per molecule, wherein the sulfo groups are attached to different carbon atoms which can, however, be statistically distributed over the entire molecule. On the effect of these agents in the inven-

W proper combination but has the position of the individual

Sulpho groups have no particular influence. In this case too In principle, individual members of these alkyl sulfonates can be used for the purpose according to the invention. Preferably, because it is also more effective, mixtures of individual members of compounds of the formula II are also to be used here. The components A and B are then to the invention Mixing ratio adjusted so that in the end the component A to 30 to 70 percent by weight, preferably 40 to 60 percent by weight, based on the dry detergent and the Component B to 70 to 30 percent by weight, preferably up to 40 percent by weight, based on the dry detergent, are present.

The production of the individual components A and B takes place after known methods and therefore needs this description no more specific explanation. Component A is expediently represented by the corresponding The alcohol mixture is first oxethylated and then esterified with sulfuric acid using traditional methods. The component B is prepared according to the sulfochlorination method, which is also known in all current literature references, wotoei the first resulting sulfochlorides are then saponified under alkaline conditions.

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Since the combination according to the invention is used in the alkaline range, the sulfated ethers and the alkyl sulfonic acids are groups in the form of their alkali or ammonium salts, preferably in the form of their sodium or potassium salts. If they are present as ammonium salts, the ammonium groups can optionally still be substituted by organic radicals. The detergent combinations according to the invention can be used in all Processes of door treatment and refinement as well as for waxing of cellulosic textile material where the , Concentrations of the treatment afloat in the course of the processes are subject to strong fluctuations. Among cellulosics Textile materials are e.g. cotton, linen, sisal, the mixtures of cotton and polyester, cotton and polyamide and understood similar mixtures. The various processes in which the detergents according to the invention can be used, are e.g. the pretreatment in the narrower sense, i.e. those process steps in the refinement of cellulose-containing! Textile material, which lie at the beginning of the textile finishing treatment. This is the alkaline decoction, or all of them Modifications to this step. As a further pre-treatment stage There is also bleaching, in which by the application the detergent according to the invention together with peroxide, hypochlorite or chlorotin cotton, or the other cellulosic ones Textile materials can be brightened more than before.

Another field in which the detergent combination according to the invention can be used successfully, consists of drying the oil after dyeing or printing.

The following examples illustrate the invention without restricting it.

example 1

The table below shows the ability of various detergents to remain in solution in an alkaline medium, can be compared with the effect of the detergents according to the invention.

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Tabel

Solubility in lye of

Product or mixture 20 25 30 32 35 ⁰ Be

AC ₁₂ / -i4-Ä "fchersulfat alone: creaming already at 15 ° Be

BC ₁ , / ₁₇ ~ disulfonate alone: clear, slightly cloudy, slight flocculation, strong flaking

^lD ' divorce

G A: B 80:20 creaming

ο B A: B 70:30 clear clear clear clear creaming

j £ E A: B 60:40 clear clear clear slightly cloudy creaming

⁰⁰ PA: B 50:50 clear clear- clear- clear creaming

• ^. G. A: B 40:60 clear clear, clear slightly cloudy creaming

i2, ^HA: B 33: 6? clear clear slightly cloudy slightly cloudy creaming

^ I A: B 30:60 clear clear slightly cloudy creaming creaming

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Example 2

A pretreatment liquor is produced that contains 34.5 g / l Water hydroxide solution, 15 g / l of a reducing agent containing complexing agent based on ethylenediaminetetraacetic acid and a reducing agent based on formaldehyde sulf oxy la t and 3 g / l of one of the detergent according to the invention (509ε component A, 50 $ component B) produced. This fleet is suitable for working on a so-called J-Box, a machine in which the Textile material is driven in a strand. Here the fleet can be amplified up to 1: 9.5 without the detergent according to the invention being deposited.

Example 3

A liquor is produced from 61 g / l sodium hydroxide solution, 20 g / l of the complexing agent and reducing agent mentioned in Example 2 and 5 g / l of one of the detergents according to the invention. This liquor is suitable for a wide treatment in which a liquor ratio of 0.7 1 to 1: 1 is generally chosen. This relatively concentrated pretreatment liquor can also be strengthened by up to 1% 5.4 without creaming, which is sufficient for a wide treatment even with poor squeezing works.

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Claims (1)

- 10 - 0.Z. 27 614 Claims Detergent based on mixtures of anionic compounds, characterized by a content of A) 50 to 70 percent by weight, based on the detergent, of compounds of the formula I R ¹ - (OCH ₂ -CH ₂ -) J ₁₁ OSO ₃ Me I and B) 70 to 50 percent by weight, based on the detergent, on compounds of Pormal II A II, wherein in the formulas R is an alkyl group having 10 to l6 carbon atoms, m is an integer from 1 to 4, A is different carbon atoms by up to 5 SO- ^ Me-Gruppön substituted alkanes having 10 to 20 carbon atoms, and Me is an optionally means substituted ammonium or an alkali atom. 2. Detergent according to claim 1, in which A by a mixture characterized by various compounds of the formula I and B by a mixture of various compounds of the formula II are. 5. Use of detergents according to claim 1 in the alkali W see pretreatment and / or bleaching of cellulosic textile materials. Badische Anilin- & Soda-Fabrik AG 209885 / T290