NO144776B - LIQUID MACHINE WASHING MIXTURE. - Google Patents

Description

The invention relates to detergent component mixtures. More particularly, the invention relates to liquid heavy-duty detergent mixtures that can be suitably used for heavy-duty washing of very dirty laundry in a machine or by hand.

The convenience offered by built heavy duty detergents in liquid form, as opposed to the conventional dry powder mixes, has long been recognised. Some of the advantages of liquid detergents are e.g. that dust and lump formation are avoided; they are easier to dissolve and easier to use, especially in automatic distributors and measuring devices which are found on a number of washing machines today. Numerous aqueous liquid heavy duty detergent compositions have been proposed, e.g. as described in British patent documents

ter 1,190,023 and 1,223,911; US Patents 3,527,707, 3,591,508,

3 634 268, 3 707 503 and 3 720 621. However, these are products

have not come into common use, as they have a number of disadvantages inherent in the known types of liquid detergent products. A principal unfavorable factor is the increased price of such liquid detergent mixtures.

To be comparable in terms of efficiency

with a conventional solid detergent, a liquid detergent mixture must contain not only an adequate amount of builder, but also a sufficiently high level of detergent active material. On

due to the limited solubility of sodium salts, the more soluble, but more expensive potassium, ammonium or triethanolamine salts are often used, including the more effective, but more soluble pyro-phosphate builder, in order to achieve the necessary concentrations

ner of surfactant and builder, see e.g. Swedish Patent Document 302 651. Even so, the results are not infrequently still a well-founded or unfounded mixture or an insufficiently concentrated product with inadequate large-scale washing properties. IN

in many cases relatively large amounts of hydrotropes are also used, e.g. the alkali metal or ammonium toluenesulfonates

and the -xylene sulfonates. The bulk of the known hydrotropes are expensive and, moreover, do not contribute to the final product's washing ability. As a result, valuable space in the recipe is lost, which could have been available for additional washability or any performance-improving aids.

Furthermore, the prescription of a satisfactory liquid detergent mixture is bound to certain viscosity limits. The more concentrated the product is, the higher the viscosity will generally be, whereby the handling and pourability of the product are adversely affected. On the other hand, too thin an aqueous liquid mixture generally shows poor performance and is therefore undesirable. Furthermore, such a consistency will not correspond to the needs of the ordinary consumer.

A satisfactory viscosity range for liquid detergent mixtures for convenient dosing and handling is between approx. 100 cP and approx. 2000 cP.

The invention now aims to provide an effective aqueous, liquid detergent mixture which comprises adequate proportions of surfactants and builders and has a viscosity in the aforementioned range and which can be made cheaply on the basis of sodium as the primary cation and sodium tripolyphosphate as the main builder.

It is therefore an object of the invention to provide an effective liquid detergent mixture at a reduced cost.

It is another object of the invention to provide a liquid detergent mixture comprising sodium as the primary cation for the anionic components.

Another purpose of the invention is to provide an effective detergent mixture in the form of a pourable and stable homogeneous liquid with satisfactory viscosity.

These and other objects which will be apparent from the following can be achieved by using as base liquid an aqueous solution of a soap mixture comprising a mixture of (A) at least one sodium soap of <C>g<->C^4-saturated fatty acids and (B) at least one sodium soap of C 1 - C 22 - mono- and/or di-unsaturated fatty acids, where the weight ratio between soap (A) and soap (B) is in the range 9:1 to 1:9, preferably from 4:1 to 1:4.

It has been found that with a liquid base as defined above, an improved medium for dissolving active materials, builders and other ingredients is provided, whereby the use of conventional hydrotropes or solubilizing agents is avoided or reduced to a minimum.

It is also surprisingly discovered that the liquid base

according to the invention, can quite easily absorb sodium salts, so that the use of expensive potassium, ammonium or triethanolamine salts can be avoided or reduced to a minimum, without the end product's high-wash properties being influenced.

The amount of soap mixture used in the base liquid will depend on the amount of other ingredients present in the final liquid detergent mixture, and will generally vary from approx. 5 to approx. 20%, expressed as concentration by weight of the soap solution. This concentration will roughly correspond to 2-15% soap by weight, based on the final mixture.

A soap mixture used in connection with the present invention is disclosed in Norwegian patent document 141 655. Said patent discloses highly concentrated sodium soap solutions in liquid form, and any synthetic washing-active material that can be added to these is only in small proportions in relation to the soap so as not to affect the solubility of the soap in the mixture. In contrast to the aforementioned conditions, the present invention relates to a liquid detergent mixture comprising sodium tripolyphosphate; a synthetic detergent material selected from the group consisting of anionic, nonionic, amphoteric, zwitterionic detergents and mixtures thereof; and a soap mixture of

(A) at least one sodium soap of <C>g<->C^-saturated fatty acids and

(B) at least one sodium soap of C 16 -Co^ 9^-mono- and/or di-unsaturated

fatty acids, where the ratio between soap (A) and soap (B) lies in

the range between 1:9 and 9:1, and the mixture is characterized in that it contains 10-25% by weight of the synthetic detergent active material, 5-30% by weight sodium tripolyphosphate and 2-15% by weight of said soap mixture and the remainder water, the liquid detergent mixture

has a viscosity of 200-1500 centipoise.

The synthetic anionic detergents which can be used in the product according to the invention include sodium, potassium, ammonium and alkanolammonium organic sulphonates and sulphates and

is preferably selected from the following groups:

1. "Alkylbenzenesulfonates, where the alkyl groups contain 8-16 carbon atoms and which can be straight-chain or branched, e.g. sodium dodecylbenzenesulfonate and potassium dodecylberizene sulfonate; 2. alkane and "alkene sulfonates containing 8-25 carbon atoms, e.g. sodium dodecyl sulfonate bg sodium C0-C,0-dlephin sulfonates or their potassium equivalents; 3. primary aliphatic alcohol sulfates containing 8-18 carbon atoms, f .eg sodium lauryl sulfate and sodium tridecyl alcohol sulfate; 4. alkyl or alkylaryl-polyoxyethylene sodium sulphates where the alkyl group contains 8-18 carbon atoms and the alkylaryl group contains a C8-C-8-alkyl group and an aryl group, preferably phenyl, and where the polyoxyethylene group preferably contains 1-10 mol of ethylene oxide, e.g. e.g. sodium lauryl 4-E0 sulfate.

In terms of economy, the sodium salts are preferred.

The nonionic ethylene oxide condensation products which can

used in connection with the present invention, includes:

1. the ethoxylated alkylphenols which contain 6-12 carbon atoms in the alkyl chain and 3-25 mol of ethylene oxide per mol alkylphenol; 2. primary or secondary ethoxylated <C>g<->C22~alcohols which originate from natural or synthetic alcohols and contain 1-50 mol of ethylene oxide per molecular alcohol; 3. copolymers originating from different alkylene oxide- is, e.g. ethylene oxide and propylene oxide, known commercially under the trade name "Pluronic"; 4. the condensation products of ethylene oxide and fatty acid amides, e.g. tallow fatty acid amide condensed with 11 ethylene oxide molecules; 5. the condensation products of ethylene oxide and the reaction products obtained from an excess of propylene oxide and ethylenediamine, known commercially under the trade name "Tetronic".

Ampholytic detergents can roughly be described as derivatives of aliphatic secondary and tertiary amines, where the aliphatic radical can be straight-chain or branched and where one of the aliphatic substituents contains from approx. 8 to 18 carbon atoms and one contains•-an anionic water solubilizing group. Examples of compounds falling within this definition are sodium 3-dodecylaminopropionate and sodium 3-dodecylamine propane sulfonate.

Zwitterionic synthetic detergents can be roughly described

as derivatives of aliphatic quaternary ammonium compounds where the aliphatic radical may be straight-chain or branched "and where one of the aliphatic substituents contains about 8-18 carbon atoms and one contains an anionic water-solubilizing group." Examples of compounds falling under this definition are 3-(N,N-dimethyl-N-hexadecylammonio)propane-1-sulfonate and 3-(N,N-dimethyl-N-hexadecylammonio)-2-hydroxypropane -1-sulfonate.

The anionic, non-ionic, ampholytic and zwitterionic detergents mentioned above can be used individually or in combination in carrying out the invention. A preferred wash-

active material for use in the product according to the invention comprises a mixture of anionic and non-ionic syn-

thetic detergents. The use of such a mixture in the flight

tending product according to the invention will give good washing ability and satisfactory foaming, which are typically suitable properties for machine washing.

Typical examples of sodium soap of Cg-C-^-saturated fat-

acids which can be suitably used in connection with the invention are sodium caprylate, sodium caprine, sodium laurate and sodium myristate.

Preferred soaps of this category are sodium laurate and soaps such as

derived from fatty acid mixtures comprising more than 50% by weight of C8<_C>12~^acetic acids* ;These soaps, either as a single compound or as ;mixtures, may originate from vegetable fatty acids which are rich in ;these fatty acids, e.g. . coconut fatty acids and palm kernel fatty acids. Typical examples of sodium soap of C^g-C^-mono- and/or di-unsaturated fatty acids are sodium oleate, sodium ricinoleate and the sodium soaps of fatty acids derived from castor oil, rapeseed oil or mixtures thereof. The term unsaturated fatty acids as used herein includes hydroxy-unsaturated fatty acids. Preferred soaps of this category are sodium oleate and soaps derived from fatty acids with a proportion of c1. 0Q-unsaturated fatty acids of more than 50% by weight. According to the invention, the liquid detergent mixture advantageously comprises at least 5% by weight of sodium tripolyphosphate and can, if desired, further contain any other of the different types of known builders, including organic builders, e.g. sodium or potassium pyrophosphate and sodium nitrile triacetate; sequestration funds, e.g. sodium ethylenediaminetetraacetate; and any other excipients conventionally used in detergent recipes. Examples of other excipients are alkali silicates; dirt carriers, e.g. sodium carboxymethylcellulose, polyvinylpyrrolidone, etc.; optical and chemical brighteners; perfume; anti-bacterial agents; coloring agents; enzymes; foam improvers or defoamers; hydrotropes and dispersants. ;For reasons which are not necessarily essential to the invention, other useful excipients can also be added, e.g. such different polymer/copolymer compounds as are known in the field, e.g. the copolymers of maleic anhydride and ethylene or vinyl methyl ether. Furthermore, the presence of small amounts of other fatty acid soaps may be tolerated, although undesirable. In general, the amount of other fatty acid soaps present should not be higher than 20% by weight of the defined soap mixture. It will be understood that according to the invention a stable liquid detergent mixture can be provided which contains an adequately high level of detergent active materials as well as adequate amounts of builders and which nevertheless has a viscosity which lies within the acceptable range of approx. 100 cp to approx. 2000 cP for convenient handling and dosing. The liquid detergent mixture according to the invention will have a viscosity of approx. 200 cP to approx. 1500 cP. A particular advantage of the invention is that the soap mixture used, which serves as a solubilizing agent for the various ingredients, is itself a detergent-active material and thus contributes to the washing effect of the liquid detergent product. Although other detergent builders including potassium tripolyphosphate can be incorporated into the liquid detergent mixture according to the invention in addition to sodium tripolyphosphate, the invention is intended for the use of sodium tripolyphosphate as the main builder in the product. The proportion of sodium tripolyphosphate and any other building salts that can be used in the product according to the invention is not absolutely decisive, but can advantageously be varied within certain limits depending on the concentration of detergent-active material in the liquid system. In general, a quantity of approx. 5-30% by weight sodium tripolyphosphate is advantageously used. A surprising feature of the invention is that the liquid detergent mixture shows remarkably good stability in cold at temperatures as far down as -5°C, in other words the liquid will not show any separation or solidify, and it will maintain its viscosity in above-mentioned area, which is a further advantage. ;The following examples shall' illustrate the invention without "•':":*-! limit it to these.

Examples I-ll

i Liquid detergent mixtures with the following compositions were produced:

Example III

Liquid detergent mixtures with the following compositions were produced:

Examples IV-V

Liquid detergent mixtures with the following compositions were produced:

Example VI

The following two products were produced and compared:

Example VII

Another liquid detergent mixture with the following composition was prepared:

Claims (1)

Liquid detergent composition comprising sodium tripolyphosphate, a synthetic detergent material selected from the group consisting of anionic, nonionic, amphoteric, zwitterionic detergents and mixtures thereof, and a soap mixture of: (A) at least one sodium soap of Cg-C.^-unsaturated fatty acids and (B) at least one sodium soap of C^g-C22~mono~ and/or di-unsaturated fatty acids, where the weight ratio between soap (A) and soap (B) lies in the range between 1:9 and 9:1, characterized in that it contains 10-25% by weight of the synthetic detergent active material, 5-30% by weight sodium tripoly-phosphate and 2-15% by weight of said soap mixture and the rest water, the liquid detergent mixture having a viscosity of 200-1500 cP .