TH3674B - Homogeneous detergent mixtures with a hardener Which contains an anhydride-type solvent - Google Patents

Abstract

Create a liquid detergent compound with a single-stage hardener in concentrated water containing (a) salts of a water-soluble non-phosphate detergent. From approx 15 to 18% by weight (B), surface agile non-ionic detergent from approx 15 to 23% by weight, which is a product obtained by the inclusion of 5 to 9 ethylene oxide. Mole with aliphatic Alcohols with 12 to 15 carbon atoms, one mole (C), at least one amphoteric liquid detergent compound, from approximately 1 to 6% by weight, which is selected from among the group of bae detergents. Tai as described.

Claims (2)

1. A liquid detergent containing a homogeneous single-stage hardener in water containing a concentrate containing (A) salts of a dissolved non-phosphate detergent. Water is obtained from approximately 15 to 18% by weight (B), surface agile non-ionic detergent from approximately 15 to 23% by weight, a product obtained by the inclusion of ethylene oxide 5. Up to 9 moles with aliphatic Alcohol with 12 to 15 carbon atoms, one mole (C), an amphothoric detergent compound from approximately 1 to 6% by weight, is at least one type selected from the group containing (1) compounds for Betaine detergent with formula (chemical formula) (2) alkyl-type detergent compound An amicobetaine with the formula (chemical formula) where R1 is an alkyl or alkyl compound with 9 to 13 carbon atoms, R2 and R3 independent of methyl or ethyl. L, and R4 and R5 are free radicals methylene, ethylene or propylene (D) solvent from approximately 5 to 8% by weight, selected from the group containing the anhydrous metal salts. The alkalis of (1) nonyl succinic anhydride and (2) nonilma anhydride and (e) water from approximately 35 to 64% by weight 2. The detergent compound in claim 1, the non-ionic detergent mentioned, is a product formed by the combination of 6 to 7 moles of ethylene oxide with one mole of ali. Fatic Alcohol with 12 to 13 carbon atoms 3. Detergent according to claim 1, where the softener salt is sodium citrate 4. Detergent according to claim 1, which has R1 in the structural formula of betaine-type detergent compound mentioned from coconut oil R2 and R3 each group is methyl, and R4 is methylene 5. Detergent according to claim 1, which The betaine-based detergents are: Cocoamidopropyl dimethylammonium acetate 6. Detergent compound according to claim 1, which contains an anionic-type detergent that makes the surface less active. More than approximately 3% 7. Detergent Mixing in claim 1, which is considered free from anionic detergent type C10-C18 Alkyl Benzene Sulfonate 8. Mix for detergent according to In claim 1, which contains alkylines Approximately 10% less glycol by weight 9. Detergent according to claim 1, which is considered alkaline-glycol-free 1 0. Detergent according to claim 1, which Contains water from approximately 45 to 60% by weight 1. 1. Detergent according to claim 1, where the concentration of softening salt is approximately 17% and the anionic detergent ranges from Approximately 16 to 18% by weight of Mixture 1. 2. Detergent according to claim 1, where the dissolution concentration of this mixture is approximately 7% by weight. Impregnation of soiled and / or soiled textiles to be washed with a single-stage homogeneous liquid detergent in a concentrated water containing (a) salts of a type of detergent. Non-phosphate, water soluble from approximately 15 to 18% by weight (B), non-ionic non-phosphate detergent, surface agile from approximately 15 to 23% by weight, which is a product obtained from Combination of 5 to 9 mol of ethylene oxide with an aliphatic Alcohol with 12 to 15 carbon atoms, one mole (C), an amphothoric detergent compound from approximately 1 to 6% by weight, is at least one type selected from the group containing (1) compounds for Betaine detergents with the formula (chemical formula) and (2) alkyl detergent compounds. An amicobetaine with the formula (chemical formula) where R1 is an alkyl or alkyl compound with 9 to 13 carbon atoms, R2 and R3 independent of methyl or ethyl. L, and R4 and R5 are free radicals methylene, ethylene or propylene (D) solvent from approximately 5 to 8% by weight, selected from the group containing the anhydrous metal salts. The alkalis of (1) nonil succinic anhydride and (2) nonilma anhydride and (e) water from approximately 35 to 64% by weight 1. 4. Method according to claim 13, where the salt of the aforementioned softener is sodium citrate 1 5. Method according to claim 13, in which the anionic detergent mentioned is the product that It is formed by combining 6 to 7 moles of ethylene oxide with one mole of an aliphatic alcohol containing 12 to 13 carbon atoms 1 6. Method according to claim 13 obtained R1 in the structural formula of The betaine-type detergents mentioned from coconut oil R2 and R3 are methyl groups, and R4 is methylene 1. 7. Method according to claim 13, where liquid detergent mixtures are based on coconut oil. It is considered free from anionic detergent type C10-C18 alkali. Lbenzene Sulfonate 1 8. Method according to claim 13, in which the liquid detergents mentioned are considered alkaline-glycol-free 1 9. Method according to claim 13, which The liquid detergent mixtures are approximately 45 to 60% water by weight 2 0. Method according to claim 13, where the salt concentration of the softener is approximately 17% and the anionic detergent. ONIC ranges from approximately 16 to 18% by weight of Mixture 2. 1. Method according to claim 13 in which the concentration of the solute referred to in this liquid mixture is approximately 7% by weight 2. 2. Method according to claim 13 in which the concentration of detergent in this washing water is approximately 0.1%