FR3011006A1 - MULTI-PURPOSE DETERGENT FOR TEXTILES - Google Patents

Abstract

The present invention relates to the field of detergents. It relates very particularly to a multi-purpose detergent product comprising a detergent composition based on a cleaning agent stain remover, namely sodium carbonate peroxyhydrate, a degreasing agent, namely sodium carbonate, and a sequestering agent. acidity regulator, namely sodium citrate. The present invention makes it possible to dispense with polluting, energy-consuming and difficult-to-use products for the treatment of textiles whatever their materials, whether they are white or of large dyed colors. The treatment of textiles can be accomplished with the present invention through several methods of use including washing, soaking as well as spraying. The present invention has the ability to clean, stain, bleach, sober and deodorize textiles and those even at low temperatures. The present invention is readily biodegradable.

Description

The present invention relates to the field of detergents. It particularly relates to a multi-purpose detergent product that cleans, detaches, whitens, degreases and deodorizes textiles, comprising a detergent composition based on sodium carbonate peroxyhydrate, sodium carbonate and sodium citrate.

The laundry detergents currently used are not sufficient to clean, detach, whiten, de-stress, completely and completely deodorize all textiles. It is therefore interesting to develop a multi-purpose detergent product based on effective and ecological ingredients. Thus, it is known in the prior art, the use of detergents for cleaning the laundry. The detergent product is a product that cleans dirty laundry during everyday city activities. However, the use of this type of product does not achieve efficiency on stubborn stains, whiteness and grayness of the laundry as well as persistent bad odors. In order to obviate some of these disadvantages, it has been proposed to increase the dose of detergent. However, this mode of use has a major disadvantage. Indeed, the increase in use doses leads to excessive consumption of a product that has been designed only to clean the textiles and not detach, bleach, de-stress and deodorize. This has the following impact: o Overconsumption inducing an increase in pollution as much in the additional manufacture of the product as in the treatment of water 25 - In order to obviate some of these drawbacks, it has been proposed to use water Bleach. However, this has several disadvantages. Indeed, bleach is a chlorine bleaching agent with a bleaching action. This has the following effect: 30 o It should be used only on white linen at the risk of leaving discolorations on the colored textiles o It tends to yellow the white textiles with the time o That it is not suitable for septic tanks o It creates a pollution overload in our wastewater 1 Multipurpose detergent for textiles - In order to obviate some of these disadvantages, it has been proposed to use perborate of soda. However, this chemical ingredient has several disadvantages. Indeed, sodium perborate is an oxygen bleaching agent which has a bleaching action and is not very effective at low temperatures. Therefore, it is associated with an activator which is generally tetra acetylethylenediamine (EDTA or TAED) which is found to be dangerous for the environment. This has the following implications: o It should only be used on white linen, otherwise it may leave discolourations on colored textiles o Its activator is very polluting o Once in nature, perborate Sodium itself releases boron, which in large quantities may be toxic to certain plants. In order to overcome some of these disadvantages, it has been proposed to use sodium hydroxide or caustic soda. has two major disadvantages. Sodium hydroxide reacts violently with water and increases the Ph of streams that seep into the earth. This has the following implications: o High risk of dangerous splashing o Irritation and / or corrosion of the skin, eyes, respiratory tract and digestive tract o To pose a potential threat to wildlife and aquatic flora by harming the agriculture and the environment of plants, minerals and animals near or far (river, river, water table) 30 - In order to obviate some of these disadvantages, it has been proposed to However, this type of product has two drawbacks. Indeed, pre-stain removal is a long and tedious operation. One should be treated one by one each spot and / or particularly soiled textile locations such as collar and shirt cuffs. The forgotten and untreated stains before washing will be fixed to the textiles by the heat of washing. This has the following effects: o To take a lot of time o To risk fixing the untreated stains on the fabric during washing 2 Multipurpose detergent for textiles - In order to obviate some of these disadvantages, it has been proposed to use sodium percarbonate. However, this product has several disadvantages. Indeed, its staining action is effective only from 40 ° C, which does not allow to treat all kinds of stains, that its action varies according to its active oxygen content, that it can cause halos on colored textiles and may be in different calibrations. This has the following implications: o If the textile, with a cold-treating stain, is put in water at 40 ° C to make sodium percarbonate work, it will see its stain not removed and even fix itself. the textile, with a stain that is treated cold, is put in cold water, the stain will be accessible but the sodium percarbonate will be ineffective due to a temperature below 40 ° C 15 o When the rate of Active oxygen of sodium percarbonate is too weak, its action decreases or is inefficient o When the active oxygen level of sodium percarbonate is too high, it can cause halos on colored textiles o Too small a particle size It will lose its active oxygen 20 prematurely. Too large a particle size will pose problems of dissolution and will lengthen the time of action and efficiency. In order to obviate some of these disadvantages, it has been proposed to use optical brighteners. However, this type of product has two disadvantages. Indeed, optical brighteners are often derivatives of the silene. This has the following effects: o To be difficult to biodegrade o To overload our wastewater with pollution. There remains therefore a need for detergent products for textiles having improved properties in terms of efficiency and practicality as well as in terms of the environmental impact of the product on the environment. The inventor has now established a detergent product to solve all or parts of the problems mentioned above. Indeed, the inventor has developed a multipurpose detergent product for textiles that is efficient, practical, ecological and very economical. Thus, according to a first aspect, the subject of the invention is a multipurpose detergent product used for textiles, said composition comprising: from 30% to 95% by weight of a stain-removing cleaning agent, relative to the total weight of the composition; From 5% to 70% by weight of a degreasing agent, relative to the total weight of the composition; From 5% to 70% by weight of an acid-correcting sequestering agent, relative to the total weight of the composition; The said stain removal agent being chosen is sodium carbonate peroxyhydrate. The said degreasing agent being chosen is sodium carbonate. The said sequestering acid-correcting agent being chosen is sodium citrate. The term "detergent product" in the sense of the present invention, any detergent substance used for cleaning, stain removal, bleaching, degreasing and deodorization of textiles. "Sodium carbonate peroxyhydrate" means the compound of formula 2Na 2 CO 3 - 3H 2 O 2; with the following CAS number: 15630-89-4. The term "sodium carbonate" means the compound of formula Na 2 CO 3; bearing the following CAS number: 497-19-8. The term "sodium citrate" means the compound of formula Na3C6H507; bearing the following CAS number 20: 6132-04-3. The sodium carbonate peroxyhydrate may have a particle size ranging from 40 micrometers to 3 millimeters, preferably from 100 micrometers to 2 millimeters and most preferably from 500 micrometers to 1 millimeter. A particle size of sodium carbonate peroxygen ranging from 500 microns to 1 millimeter has the advantage of allowing a good exchange surface between the stain removing agent and the washing water. In particular, the detergent composition comprises from 30 to 95%, preferably from 50 to 90% and preferably 80% by weight of detackifying cleaning agent relative to the total weight of the composition. The presence of 80% by weight of stain-removing cleaning agent, based on the total weight of the composition has the advantage of optimizing the effectiveness of the detergent product on the stubborn stains and dirt of the textiles according to the invention. The sodium carbonate may have a particle size ranging from 40 micrometers to 3 millimeters, preferably from 100 micrometers to 2 millimeters and most preferably from 500 micrometers to 1 millimeter. A particle size of sodium carbonate ranging from 500 micrometers to 1 millimeter has the advantage of allowing a good exchange surface between the degreasing agent and the washing water. In particular, the detergent composition comprises from 5 to 70%, preferably from 7 to 20% and preferably 10% by weight of degreasing agent relative to the total weight of the composition. The presence of 10% by weight of degreasing agent, relative to the total weight of the composition, has the advantage of increasing the pH of the water as well as of loading the dirt and fibers with negative charges in order to increase their repulsions and the washing effect. It also makes it possible to optimize the effectiveness of the detergent product on the greasy greasy foodstuffs of the textiles according to the invention. The sodium citrate may have a particle size ranging from 40 micrometers to 3 millimeters, preferably from 100 micrometers to 2 millimeters, and most preferably from 500 micrometers to 1 millimeter. A particle size of sodium citrate ranging from 500 micrometers to 1 millimeter has the advantage of allowing a good exchange surface between the sequestering acid-correcting agent and the washing water. In particular, the detergent composition comprises from 5 to 70%, preferably from 7 to 20% and preferably 10% by weight of acid-correcting sequestering agent relative to the total weight of the composition. The presence of 10% by weight of acid-correcting sequestering agent, based on the total weight of the composition has the advantage of capturing the negative ions and trapping the calcium. This optimizes the effectiveness of cleaning agents stain removers and degreasing on textiles according to the invention. The detergent product according to the invention has the advantage of being nontoxic to the environment while having a good efficiency. According to a second aspect, the detergent product according to the invention can be used for the cleaning and staining of textiles regardless of its material and color. According to a third aspect, the detergent product according to the invention can be used to facilitate the bleaching and degreasing of white textiles. According to a fourth aspect, the detergent product according to the invention can be used to maintain the whiteness of white textiles. According to a fifth aspect, the detergent product according to the invention can be used to deodorize textiles. Other advantages and features of the invention will become apparent from the following examples. These examples are given for illustrative and not limiting. Examples 1 Example 1: Example of the detergent product according to the invention 1.1 Example of a process for the preparation of the detergent product according to the invention 80 g of sodium carbonate peroxohydrate with a particle size of 700 microns are mixed with 10 g of sodium carbonate a granulometry of 700 5 Multi-purpose detergent for textiles micrometers. The whole will then be mixed with 10 g of sodium citrate with a particle size also 700 microns. The detergent composition thus obtained is packaged in a suitable container.

The detergent product according to the invention has a good efficiency on the cleaning of textiles. EXAMPLE 2 Study of the Cleaning Efficiency and Stain Removal of the Detergent Product According to the Invention 2.1 Comparison with conventional detergent products associated with conventional stain removers in a washing machine. The efficiency of cleaning and staining, in a washing machine on textiles of different materials and colors, of the detergent product according to the invention obtained by the process described above (1.1) was compared with the efficiency of the conventional detergents associated with conventional stain removers.

The cleaning and stain removal efficiency has been tested on stubborn stains such as: coffee; tea; chocolate ; fruit juice ; fruits; carrots; soda; Butter ; Vinaigrette ; mayonnaise; cooking fats; tomato sauce ; olive oil ; egg yolk; beets; makeup; lipstick ; toothpaste; perfume; hair dye; sweat ; limestone; grass; mud; soot; ink; blood ; pet stains; urine; excrement. It has been tested on different textiles such as: white and colored laundry; bibs; aprons; tea towels; napkins ; tablecloths; sheets with materials such as: cotton; linen; hemp; nylon; polyester. It has been found that the use of the detergent product according to the invention has a cleaning and stain removal efficiency higher than that of conventional detergents associated with conventional stain removers. 2.2 Comparison with conventional stain-removing products except washing machine The stain removal efficiency, on textiles of different materials and colors not passing through a washing machine, of the detergent product according to the invention, obtained by the process described above (1.1) has been compared with the effectiveness of conventional stain removers. The effectiveness of stain removal has been tested on stubborn stains such as: coffee; soda; sweat ; grass; mud; soot; ink; blood ; pet stains; urine; excrement.

It has been tested on different textiles such as: carpets; carpets; sofas; curtains ; furnishing ; car seats with materials such as: cotton; linen; hemp; nylon; polyester. It has been found that the use of the detergent product according to the invention has a stain removal efficiency greater than that of conventional stain-removing products. EXAMPLE 3 Study of the Bleaching Efficacy of the Detergent Product According to the Invention Detergent Mufti-Uses For Textiles The bleaching efficiency on white textiles of the detergent product according to the invention, obtained by the process described above (1.1) has been compared with the effectiveness of conventional bleaching products. Bleaching efficiency has been tested on white textiles such as: sweaters; pants; socks; tea towels; sheets; napkins with materials such as: cotton; linen; hemp. It has been found that the use of the detergent product according to the invention has a higher bleaching efficiency than that of conventional bleaching products. 3.2 Comparison with Bleach The bleaching efficiency on white textiles of the detergent product according to the invention obtained by the process described above (1.1) was compared with the effectiveness of bleach. . Bleaching efficiency has been tested on white textiles such as: sweaters; pants; socks; tea towels; sheets; napkins with materials such as: cotton; linen; hemp. It has been found that the use of the detergent product according to the invention has a bleaching efficiency greater than that of bleach. EXAMPLE 4 Study of the Effect of Efficiency According to Various Temperatures of the Detergent Product According to the Invention 4.1 Comparison with Conventional Laundry Products Associated with Conventional Stain Removers The Efficiency of the Product at Various Temperatures detergent according to the invention, obtained by the method described above (1.1) was compared with that of conventional laundry products associated with conventional stain removers.

The effectiveness of action was tested at varying temperatures between 0 ° C and 90 ° C in ranges of 10 ° C. It has been tested on different textiles such as: white and colored laundry; bibs; aprons; tea towels; napkins ; tablecloths; sheets with materials such as: cotton; linen; hemp; nylon; polyester.

It has been found that the effectiveness of action at various temperatures of the detergent product according to the invention is greater than that of conventional detergents associated with conventional stain removers. It has been found that its efficiency is identical both at low temperatures and at high temperatures inducing a saving of electrical energy in use at low temperatures. Example 5: Study of the deodorizing efficacy of the detergent product according to the invention 5.1 Comparison with conventional household detergents and / or deodorizers 7 Mutilation detergent For textiles The deodorizing efficacy of the detergent product according to the invention, obtained by the process described above (1.1) has been compared with that of household detergents and / or household deodorants. The deodorization efficiency has been tested on perspiration odors; urine; excrement; perfumes; vomited. It has been tested on textiles such as: tee shirts; pants; socks; underwear; sheets; sofas; carpets; car seats with materials such as: cotton; linen; hemp; nylon; polyester. It has been found that the deodorizing efficacy of the detergent product according to the invention is greater than that of conventional household detergents and / or deodorants. Example 6: Study on the effectiveness of washing at low temperatures by adding to conventional detergent products the detergent product according to the invention 6.1 Comparison with the low-temperature efficiency of conventional detergents The washing efficiency at low temperatures by combining the detergent detergent products according to the invention obtained by the process described above (1.1) was compared with the washing efficiency at low temperatures of these same conventional detergents used alone. The washing efficiency at low temperatures was tested at varying temperatures between 0 ° C and 40 ° C in 10 ° C ranges. It has been tested on different textiles such as: white and colored laundry; bibs; aprons; tea towels; napkins ; tablecloths; sheets with materials such as: cotton; linen; hemp; nylon; polyester. It has been found that the washing efficiency at low temperatures of the conventional detergent products associated with the detergent product according to the invention is greater than that of these same conventional detergents used alone. Example 7: Study of the practicality of the detent product according to the invention 7.1 Comparison with conventional stain removers The practicality on textile stain removal of the detergent product according to the invention, obtained by the method described above (1.1) was compared with the practicality of traditional stain removers. This practicality has been tested on several textiles of different colors such as: shirts; pants; bibs; tea towels; carpets and rugs, car seats. It has been found that the use of the detergent product according to the invention is much more practical than standard stain removers. Example 8: Study of the method of use of the detergent product according to the invention 8.1 Method of use for the cleaning and stain removal of textiles in a washing machine The detergent product according to the invention will be used with a spoon to put the product in the drum of the washing machine. 8 Mufti-uses detergent For textiles According to the textile soiling and the hardness of the water, the use dose to be used varies between 10 grams and 30 grams of product for a quantity of 5kg of laundry. 8.2 Method of use for detaching off the washing machine 8.2.1 Method of use for detaching soaking textiles The detergent product according to the invention will be used with a spoon to put the product in the soaking container containing water hot for then, after dilution of the product, plunge the textiles to detach. According to the soiling of the textiles, the use dose to be used varies between 10 grams and 30 grams of product per liter of water used. 8.2.2 Method of use for detaching textiles by spraying The detergent product according to the invention will be used in lukewarm water contained in a spray bottle and then, after dilution of the detergent product, moisten the stain. According to the soiling of textiles, the use dose to be used varies between 20 grams and 30 grams of product per liter of water used. 8.3 Method of use for bleaching and sobering 8.3.1 Method of use for resurfacing tarnished soaked laundry The detergent product according to the invention will be used with a spoon to put the product in the soaking container containing hot water then, after dilution of the product, plunge the textiles to be resurfaced.

Depending on the state of whiteness desired, the use dose to be used varies between 10 grams and 40 grams of product per liter of water used. The soaking time is at least two hours. 8.3.2 Method of use for sobering underwear or dipping underwear The detergent product according to the invention will be used with a spoon to put the product in the soaking container containing hot water and then, after dilution of the product, immerse the textile in it. Depending on the state of sobering desired, the use dose to be used varies between 15 grams and 40 grams of product per liter of water used. The soaking time is at least two hours. 8.3.3 Method of use to maintain the whiteness of the laundry in the washing machine The detergent product according to the invention will be used with a spoon to put the product in the drum of the washing machine by associating it with a detergent product. In order to preserve the whiteness of the white textiles to be cleaned, the use dose to be used varies between 10 grams and 20 grams of product for a quantity of 5 kg of linen. 8.4 Method of use to reduce the washing temperature 9 Muffl-cleaning detergent For textiles 8.4.1 Method of use to reduce the washing temperature in a washing machine The detergent product according to the invention will be used with a spoon to produced in the drum of the washing machine in combination with the detergent, so that the product is diluted with the washing water arriving in the washing machine. The dose to be used is 20 grams of product for a washing temperature at 40 ° C and 25 grams of product for a washing temperature at 30 ° C, for a quantity of 5kg of laundry. 8.5 Mode of use for deodorizing 8.5.1 8.5.2 8.5.3 Method of use for deodorizing laundry in a washing machine The detergent product according to the invention will be used with a spoon to put the product in the drum of the machine washing with or without detergent, so that the product is diluted with the washing water entering the washing machine. According to the persistence of the odors of the textiles, the use dose to be used varies between 20 grams and 40 grams of product for a quantity of 5kg of linen. Method of use for deodorizing laundry by soaking The detergent product according to the invention will be used with a spoon to put the product in the soaking container containing hot water and then, after dilution of the product, immerse the textiles therein. deodorize. Depending on the persistence of the odors of the textiles, the use dose to be used varies between 20 grams and 40 grams of product per liter of water used. Mode of use for deodorizing laundry spray The detergent product according to the invention will be used in warm water contained in a vaporizer and then, after dilution of the detergent product, moisten the textile. Depending on the persistence of the odors of the textiles, the use dose to be used varies between 20 grams and 30 grams of product per liter of water used.

EXAMPLE 9 Study on the Biodegradability of the Detergent Product According to the Invention 9.1.1 Obiective of the Study The objective of this study was to determine the biodegradability rate of the detergent product according to the invention. 9.1.2 Test product The detergent product according to the invention tested was obtained by the process described in Example 1.1. 9.1.3 Biodegradability test The detergent product, according to the invention, tested as described in 9.1.2 has been subjected to an immediate biodegradability test according to the OECD 301A protocol.

9.1.4 Conclusion The biodegradability test according to the OECD 301A protocol has determined that the detergent product according to the invention, described in 9.1.2, is easily biodegradable by the fifth day and that the maximum biodegradability over 28 days is 94%. This rate indicates that the product according to the invention is easily biodegradable.

Claims (1)

REVENDICATIONS1. A multipurpose detergent product for textiles, said composition comprising: from 30% to 95% by weight of a stain remover, based on the total weight of the composition; From 5% to 70% by weight of a degreasing agent, relative to the total weight of the composition; From 5% to 70% by weight of an acid-correcting sequestering agent, relative to the total weight of the composition; The product of claim 1, wherein the stain removing agent is sodium carbonate peroxyhydrate. Product according to any one of claims 1 and 4, wherein the detergent composition comprises from 5% to 70%, preferably from 7% to 20% and preferably 10% by weight of degreasing agent relative to the total weight of the composition. Product according to any one of Claims 1 to 2, in which the detergent composition comprises from 30% to 95%, preferably from 50% to 90% and preferably 80% by weight of stain-removing agent relative to the total weight of the detergent composition. composition. Product according to claim 1, wherein the degreasing agent is sodium carbonate. The product of claim 1, wherein the acidity controlling sequestering agent is sodium citrate. Product according to any one of claims 1 and 6, wherein the detergent composition comprises from 5% to 70%, preferably from 7% to 20% and preferably 10% by weight of acid-correcting sequestering agent with respect to total weight of the composition. Use of the detergent product according to any one of claims 1 to 7 characterized in that said product is diluted in water and the use of this dilution as a detergent water for the textile. A process for staining the white or colored dipping fabric comprising the following steps: 9.1 The use of the detergent product according to any one of claims 1 to 8 in a basin. 9.2 Soaking the textile in detergent water. 12Textile multipurpose detergent 9.3 Textile stain obtained after step 9.2. 10. Process for de-stressing white textiles by dipping comprising the following steps: 10.1 The use of the detergent product according to any one of claims 1 to 8 in a basin. 10.2 Soaking the white textile in detergent water. 10.3 The sobering of the textile obtained at the end of step 10.2. 11. A method of bleaching textile dipping comprising the steps of: 11.1 The use of the detergent product according to any one of claims 1 to 8 in a basin. 11.2 Soaking the white textile in detergent water. 11.3 The bleaching of the textile obtained after step 11.2. 12. Method of deodorizing the textile dipping comprising the following steps: 12.1 The use of the detergent product according to any one of claims 1 to 8 in a basin. 12.2 Soaking white or colored textile in detergent water. 12.3 The deodorization of the textile obtained at the end of step 12.2. 13. A process for detaching the textile spray comprising the steps of: 13.1 The use of the detergent product according to any one of claims 1 to 8 in a sprayer. 13.2 Spraying detergent water on the stain on the textile. 13.3 Stain removal of the textile obtained at the end of step 13.2. 14. A method of deodorizing the textile spray comprising the steps of: 14.1 The use of the detergent product according to any one of claims 1 to 8 in a sprayer. 14.2 Spraying detergent water on the textile. 20 25 13Multi-purpose textile detergent 14.3 The deodorization of the textile obtained at the end of step 14.2. 15. A method of cleaning the textile in a washing machine comprising the steps of: 15.1 The use of the detergent product according to any one of claims 1 to 8 in a washing machine. 15.2 The launch of a cycle of the washing machine with the textile inside. 15.3 The cleaning of the textile obtained at the end of step 15.2. 16. Product according to any one of claims 1 to 7, which can be used as a multipurpose detergent product at all temperatures characterized in that said product is effective at any temperature. 17. Use of the product according to any one of claims 1 to 7 and 16, at low temperatures with the same efficiency as a wash cycle at high temperatures, to save electrical energy by reducing the temperature of washing in washing machine. 18. Use of the product according to any one of claims 1 to 7, on all types of textiles whether white or colorfast. 19. Use of the product according to any one of claims 1 to 7, as a multipurpose detergent product for textiles, being easily biodegradable. 14