NL8601701A - TRANSPARENT SOAP. - Google Patents

Description

# · - * -1- R7019

Transparent soap

The application relates to a transparent soap composition. Transparent soap, in particular transparent toilet soap, has been a well-known product for quite some time. However, in order to manufacture such soap, one has long had to resort to complex and expensive techniques such as special mixing with special "high shear" mixers or, for example, the use of alcohol as a solvent for the soap. Also, substantial amounts of special constituents such as resin acid, lanolin or the like had to be included.

A recent development in this field is described in GB-A-2 126 603 (Colgate Palmolive Co), in which lanolin (fatty acids) are included in the soap mixture and, according to the examples, a mixture of tallow fat and coconut oil soap prepared in a classic manner by seizing. to which the other ingredients such as lanolin (fatty acid), optionally polyol * etc. are added. Thus, inter alia, lanolin (fatty acid) etc. is added to this soap composition, which contains approximately 0.5% sodium chloride and glycerol. The sodium chloride serves to salt out the soap and also imparts the required hardness to the soap tablet to be manufactured.

In the description of the English patent on page 6 line 29 it is mentioned in passing that the soap can also be prepared by continuous saponification of fatty acid, after which apparently the further constituents such as for instance lanolin would be added.

From a simple process viewpoint, it would be desirable to introduce all ingredients directly into a device that accomplishes direct saponification of fatty acids, but the complication occurs that the lanolin partially saponifies and spoils its performance. The addition of sodium chloride in connection with the desired hardness, and / or 8601701 'sr -2- of triethanolamine in connection with the transparency may also lead to complications in the subsequent continuous saponification of fatty acids, so that first saponification and then compounding is necessary. . Mixing in after the saponification is an extra process step.

The application now provides a transparent soap composition which can be prepared in a simple manner by direct saponification of fatty acid and this composition differs from that according to British patent specification (GB-A) 2 126 603 10 in that it does not contain lanolin (fatty acid) and the amount of sodium chloride is less than 0.2%, while the soap tablet made therefrom is extremely transparent and, for example, also sufficiently hard.

The application therefore provides a transparent soap of the following composition: A: 55 - 79.5% (ww) soap of a fatty acid mixture consisting of 85 - 70% ^ 16 "^ 18 fatty acids and 20 15 - 30% fatty acids B: 7 - 20% (ww) of a thermostable polyol ie a polyol not discolouring at 150 ° C 25 C: 0.5 - 7.5% (ww) free C ^ QC ^ g fatty acids D: 12 - 20% (ww) water E: less than 0.2% (ww) NaCl 30 F: Up to 2% common ingredients such as perfume, colorant, stabilizer etc.

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Preferably the soap composition is as follows: A: 64 - 76% B: 8 - 15% 5 C: 2 - 5% B: 14 - 18% E: less than 0.1% (ww) NaCl

Although transparent soap usually contains potassium and / or triethanolamine soap, according to the present invention it is already the case that already excellent results are obtained with predominantly or even exclusively sodium soap.

As a thermostable polyol, sugar alcohols such as e.g. sorbitol, mannitol and so-called

15 polyglycols derived from C2-C3 glycols. Polyols such as trimethylol propane, pentaerythritol etc. are also useful.

As free fatty acids, C ^ QC ^ g fatty acids are particularly suitable if C10 "C14 fatty acids are concerned. They can be added as such, but can also be saponified with a lower amount of caustic 20. Saponification takes place at temperatures of 20-160 ° C and at normal or elevated pressure · Saponification can take place in an autoclave, which is operated atmospheric or under pressure, or in equipment specially designed for this purpose. As far as the lye is concerned, it is preferred to use predominantly, or even exclusively sodium hydroxide,

Adding potassium hydroxide does not clearly improve and in any case increases the price of the product. Perfume, stabilizers and dyes are a common ingredient. These ingredients should be chosen with some consultation because they can cause opacity. However, suitable ingredients for transparent soap are known in the art.

The present application also provides a simple process for the preparation of transparent soap in which a fatty acid mixture of C 1 -C 2 g and Gjq-C 2 fatty acids and any other constituents is or is not completely neutralized in a suitable mutual 3601 701 -4 ratio. and after adding the other components B and C as defined above, it is dried to a water content of 12-20% and the material thus obtained is preferably processed into transparent bars of soap using standard soap processing equipment. This equipment is, for example, an arrangement consisting of a mixer in which the perfume and colorant are mixed with the soap granules, a refiner splatter and a vacuum splatter in which a soap bar is formed at the outlet 10, which is pressed into a soap tablet in a mold.

8601731 T -¾.

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Example I

2000 grams of a mixture consisting of 80% tallow fatty acids (mainly consisting of approximately 30% palmitine-17% stearic-5 and 52% oleic acid and homologues thereof) and 20% coconut fatty acids (mainly consisting of approximately 50% lauric, 20% myristin, 11% palmitic and 10% oleic acid) were mixed and heated to 60 ° C. This mixture was then saponified at 100 ° C by adding this mixture to 1105 g of aqueous sodium hydroxide solution (27.6% aqueous solution) in a reaction vessel. After 10 minutes, 464 g of sorbitol solution (70% in water), 75 g of technical lauric acid (93% pure), 42 g of polyethylene glycol with an average molecular weight (M) of 400 and 12.5 were added to this so-called "neat soap". ml of aqueous solution of the Na salt of ethane-1-hydroxy-1,1-diphosphonic acid (EHDP) (30% in water) was added. After thorough mixing of these components, the entire mixture was dried to a water content of 16%. The NaCl content was less than 0.01%, the free fatty acid content 5.3%. After granulation, these were found to be highly transparent, 20 as were the soap tablets manufactured therefrom, which were of excellent quality.

Example II

Analogously as described in Example 1, a transparent soap was prepared in which the 42 g of polyglycol was replaced with 40 g of polypropylene glycol Ms1000 and dried to a water content of 18%. This soap was also very transparent.

30

Example III

A soap composition was prepared in an analogous manner as described in Example 1. Now, however, not 75 g of technical lauric acid was added, but 42 g, and this resulted in a transparent soap composition with 0.01% NaCl and 3% free fatty acid.

8601701

Claims (10)

1. A transparent soap composition containing the following ingredients: A: 55 - 79.5% (ww) soap of a fatty acid mixture consisting of 85 - 70% fatty acids and 15 - 30% Ci0 "c14 fatty acids B: 7 - 20% (ww ) of a thermostable polyol C: 0.5 - 7.5% (ww) free C ^ QC ^ g fatty acids D: 12 - 20% (ww) water Es less than 0.2% (ww) NaCl F: Up to 2 % common ingredients such as perfume, colorant, stabilizer, etc. A composition according to claim 1, characterized in that the percentages: A: 64 - 76% B: 8-15% C: 2 - 5% D: 14 - 18% E: less than 0.1% (ww) NaCl Composition according to claim 1 or 2, characterized in that the soap contains sodium soap. Composition according to any one of claims 1 to 3, characterized in that soap is exclusively sodium soap. 8601701 y * - -7- Composition according to any one of claims 1 to 3, characterized in that the soap contains triethanolamine soap. Composition according to any one of claims 1 to 5, characterized in that it is 0.01-2 wt. % ethane-1-hydroxy-1,1-diphosphonic acid (EHDP) or salt thereof. Composition according to any one of claims 1 to 6, characterized in that the polyol contains a sugar alcohol. Composition according to any one of claims 1 to 7, characterized in that the polyol component contains sorbitol. Compositions according to any one of claims 1 to 8, characterized in that the polyol component contains a glycol polyether. Process for the preparation of a composition according to any one of claims 1 to 9, characterized in that a fatty acid mixture of C 1 g C-g and C-3 C 3 fatty acids is wholly or not saponified and after addition of the other constituents B and optionally C are dried to a water content of 12-20% and the material obtained is processed into translucent bars of soap in known manner using standard soap processing equipment. BSO 17 01