EP2791307B1 - Improvements relating to fabric treatment compositions - Google Patents
Improvements relating to fabric treatment compositions Download PDFInfo
- Publication number
- EP2791307B1 EP2791307B1 EP12788204.1A EP12788204A EP2791307B1 EP 2791307 B1 EP2791307 B1 EP 2791307B1 EP 12788204 A EP12788204 A EP 12788204A EP 2791307 B1 EP2791307 B1 EP 2791307B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- composition according
- phase change
- composition
- encapsulated
- perfume
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 239000000203 mixture Substances 0.000 title claims description 117
- 239000004744 fabric Substances 0.000 title claims description 48
- 239000000463 material Substances 0.000 claims description 66
- 239000002304 perfume Substances 0.000 claims description 55
- 239000003795 chemical substances by application Substances 0.000 claims description 46
- 230000008901 benefit Effects 0.000 claims description 42
- 239000007788 liquid Substances 0.000 claims description 29
- 230000008859 change Effects 0.000 claims description 28
- 239000002245 particle Substances 0.000 claims description 26
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- 238000000034 method Methods 0.000 claims description 19
- 229930195733 hydrocarbon Natural products 0.000 claims description 18
- 150000002430 hydrocarbons Chemical class 0.000 claims description 18
- 239000004215 Carbon black (E152) Substances 0.000 claims description 14
- 150000003856 quaternary ammonium compounds Chemical group 0.000 claims description 13
- 239000003921 oil Substances 0.000 claims description 12
- 125000000217 alkyl group Chemical group 0.000 claims description 10
- 230000003750 conditioning effect Effects 0.000 claims description 10
- 125000002091 cationic group Chemical group 0.000 claims description 9
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- 230000008569 process Effects 0.000 claims description 8
- 150000005690 diesters Chemical class 0.000 claims description 7
- 235000019271 petrolatum Nutrition 0.000 claims description 7
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- 125000004432 carbon atom Chemical group C* 0.000 claims description 6
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- CZMRCDWAGMRECN-UGDNZRGBSA-N Sucrose Chemical compound O[C@H]1[C@H](O)[C@@H](CO)O[C@@]1(CO)O[C@@H]1[C@H](O)[C@@H](O)[C@H](O)[C@@H](CO)O1 CZMRCDWAGMRECN-UGDNZRGBSA-N 0.000 description 18
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- VRVDFJOCCWSFLI-UHFFFAOYSA-K trisodium 3-[[4-[(6-anilino-1-hydroxy-3-sulfonatonaphthalen-2-yl)diazenyl]-5-methoxy-2-methylphenyl]diazenyl]naphthalene-1,5-disulfonate Chemical compound [Na+].[Na+].[Na+].COc1cc(N=Nc2cc(c3cccc(c3c2)S([O-])(=O)=O)S([O-])(=O)=O)c(C)cc1N=Nc1c(O)c2ccc(Nc3ccccc3)cc2cc1S([O-])(=O)=O VRVDFJOCCWSFLI-UHFFFAOYSA-K 0.000 description 18
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- IVJISJACKSSFGE-UHFFFAOYSA-N formaldehyde;1,3,5-triazine-2,4,6-triamine Chemical compound O=C.NC1=NC(N)=NC(N)=N1 IVJISJACKSSFGE-UHFFFAOYSA-N 0.000 description 9
- 239000004615 ingredient Substances 0.000 description 9
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- 125000004178 (C1-C4) alkyl group Chemical group 0.000 description 8
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- 125000001033 ether group Chemical group 0.000 description 8
- 239000002979 fabric softener Substances 0.000 description 8
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- 230000002209 hydrophobic effect Effects 0.000 description 8
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- GLZPCOQZEFWAFX-UHFFFAOYSA-N Geraniol Chemical compound CC(C)=CCCC(C)=CCO GLZPCOQZEFWAFX-UHFFFAOYSA-N 0.000 description 7
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- 125000002887 hydroxy group Chemical group [H]O* 0.000 description 7
- JZMJDSHXVKJFKW-UHFFFAOYSA-M methyl sulfate(1-) Chemical compound COS([O-])(=O)=O JZMJDSHXVKJFKW-UHFFFAOYSA-M 0.000 description 7
- 229920000742 Cotton Polymers 0.000 description 6
- LYCAIKOWRPUZTN-UHFFFAOYSA-N Ethylene glycol Chemical compound OCCO LYCAIKOWRPUZTN-UHFFFAOYSA-N 0.000 description 6
- 239000000980 acid dye Substances 0.000 description 6
- 239000000981 basic dye Substances 0.000 description 6
- 238000005538 encapsulation Methods 0.000 description 6
- 229910052740 iodine Inorganic materials 0.000 description 6
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- 125000002496 methyl group Chemical group [H]C([H])([H])* 0.000 description 6
- LMXFTMYMHGYJEI-UHFFFAOYSA-N p-menthane-3,8-diol Chemical compound CC1CCC(C(C)(C)O)C(O)C1 LMXFTMYMHGYJEI-UHFFFAOYSA-N 0.000 description 6
- 229930006948 p-menthane-3,8-diol Natural products 0.000 description 6
- 239000012782 phase change material Substances 0.000 description 6
- 125000001997 phenyl group Chemical group [H]C1=C([H])C([H])=C(*)C([H])=C1[H] 0.000 description 6
- ZCYVEMRRCGMTRW-UHFFFAOYSA-N 7553-56-2 Chemical compound [I] ZCYVEMRRCGMTRW-UHFFFAOYSA-N 0.000 description 5
- 239000002202 Polyethylene glycol Substances 0.000 description 5
- 229920001807 Urea-formaldehyde Polymers 0.000 description 5
- 229920003180 amino resin Polymers 0.000 description 5
- QLHULAHOXSSASE-UHFFFAOYSA-N butan-2-yl 2-(2-hydroxyethyl)piperidine-1-carboxylate Chemical compound CCC(C)OC(=O)N1CCCCC1CCO QLHULAHOXSSASE-UHFFFAOYSA-N 0.000 description 5
- 239000008139 complexing agent Substances 0.000 description 5
- 238000005886 esterification reaction Methods 0.000 description 5
- 238000009472 formulation Methods 0.000 description 5
- 125000001183 hydrocarbyl group Chemical group 0.000 description 5
- 239000011630 iodine Substances 0.000 description 5
- ODGAOXROABLFNM-UHFFFAOYSA-N polynoxylin Chemical compound O=C.NC(N)=O ODGAOXROABLFNM-UHFFFAOYSA-N 0.000 description 5
- 238000002360 preparation method Methods 0.000 description 5
- 241000894007 species Species 0.000 description 5
- 239000003760 tallow Substances 0.000 description 5
- GSEJCLTVZPLZKY-UHFFFAOYSA-O triethanolammonium Chemical compound OCC[NH+](CCO)CCO GSEJCLTVZPLZKY-UHFFFAOYSA-O 0.000 description 5
- 125000006656 (C2-C4) alkenyl group Chemical group 0.000 description 4
- WEEGYLXZBRQIMU-UHFFFAOYSA-N 1,8-cineole Natural products C1CC2CCC1(C)OC2(C)C WEEGYLXZBRQIMU-UHFFFAOYSA-N 0.000 description 4
- 108010010803 Gelatin Proteins 0.000 description 4
- UFHFLCQGNIYNRP-UHFFFAOYSA-N Hydrogen Chemical compound [H][H] UFHFLCQGNIYNRP-UHFFFAOYSA-N 0.000 description 4
- IYTXKIXETAELAV-UHFFFAOYSA-N Nonan-3-one Chemical compound CCCCCCC(=O)CC IYTXKIXETAELAV-UHFFFAOYSA-N 0.000 description 4
- SJEYSFABYSGQBG-UHFFFAOYSA-M Patent blue Chemical compound [Na+].C1=CC(N(CC)CC)=CC=C1C(C=1C(=CC(=CC=1)S([O-])(=O)=O)S([O-])(=O)=O)=C1C=CC(=[N+](CC)CC)C=C1 SJEYSFABYSGQBG-UHFFFAOYSA-M 0.000 description 4
- 239000002253 acid Substances 0.000 description 4
- 238000009835 boiling Methods 0.000 description 4
- 229960005233 cineole Drugs 0.000 description 4
- FLKPEMZONWLCSK-UHFFFAOYSA-N diethyl phthalate Chemical compound CCOC(=O)C1=CC=CC=C1C(=O)OCC FLKPEMZONWLCSK-UHFFFAOYSA-N 0.000 description 4
- 150000002016 disaccharides Chemical class 0.000 description 4
- 230000032050 esterification Effects 0.000 description 4
- MTZQAGJQAFMTAQ-UHFFFAOYSA-N ethyl benzoate Chemical compound CCOC(=O)C1=CC=CC=C1 MTZQAGJQAFMTAQ-UHFFFAOYSA-N 0.000 description 4
- 150000002191 fatty alcohols Chemical class 0.000 description 4
- 239000008273 gelatin Substances 0.000 description 4
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- 235000011852 gelatine desserts Nutrition 0.000 description 4
- AOGQPLXWSUTHQB-UHFFFAOYSA-N hexyl acetate Chemical compound CCCCCCOC(C)=O AOGQPLXWSUTHQB-UHFFFAOYSA-N 0.000 description 4
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- OSWPMRLSEDHDFF-UHFFFAOYSA-N methyl salicylate Chemical compound COC(=O)C1=CC=CC=C1O OSWPMRLSEDHDFF-UHFFFAOYSA-N 0.000 description 4
- 125000001624 naphthyl group Chemical group 0.000 description 4
- VKCYHJWLYTUGCC-UHFFFAOYSA-N nonan-2-one Chemical compound CCCCCCCC(C)=O VKCYHJWLYTUGCC-UHFFFAOYSA-N 0.000 description 4
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- UMSVPCYSAUKCAZ-UHFFFAOYSA-N propane;hydrochloride Chemical compound Cl.CCC UMSVPCYSAUKCAZ-UHFFFAOYSA-N 0.000 description 4
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- 229940015367 pyrethrum Drugs 0.000 description 1
- 150000003254 radicals Chemical class 0.000 description 1
- 239000010499 rapseed oil Substances 0.000 description 1
- 239000002994 raw material Substances 0.000 description 1
- 230000009467 reduction Effects 0.000 description 1
- KUIXZSYWBHSYCN-UHFFFAOYSA-L remazol brilliant blue r Chemical compound [Na+].[Na+].C1=C(S([O-])(=O)=O)C(N)=C2C(=O)C3=CC=CC=C3C(=O)C2=C1NC1=CC=CC(S(=O)(=O)CCOS([O-])(=O)=O)=C1 KUIXZSYWBHSYCN-UHFFFAOYSA-L 0.000 description 1
- 229920005989 resin Polymers 0.000 description 1
- 239000011347 resin Substances 0.000 description 1
- 230000004044 response Effects 0.000 description 1
- 239000010668 rosemary oil Substances 0.000 description 1
- 229940058206 rosemary oil Drugs 0.000 description 1
- 235000015639 rosmarinus officinalis Nutrition 0.000 description 1
- CDAISMWEOUEBRE-UHFFFAOYSA-N scyllo-inosotol Natural products OC1C(O)C(O)C(O)C(O)C1O CDAISMWEOUEBRE-UHFFFAOYSA-N 0.000 description 1
- 229920002545 silicone oil Polymers 0.000 description 1
- 239000008247 solid mixture Substances 0.000 description 1
- 239000007790 solid phase Substances 0.000 description 1
- 239000012265 solid product Substances 0.000 description 1
- 239000002904 solvent Substances 0.000 description 1
- 239000000992 solvent dye Substances 0.000 description 1
- 230000003019 stabilising effect Effects 0.000 description 1
- 230000000087 stabilizing effect Effects 0.000 description 1
- 239000008107 starch Substances 0.000 description 1
- 235000019698 starch Nutrition 0.000 description 1
- 125000001424 substituent group Chemical group 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 125000000542 sulfonic acid group Chemical group 0.000 description 1
- 229910021653 sulphate ion Inorganic materials 0.000 description 1
- 230000000475 sunscreen effect Effects 0.000 description 1
- 239000000516 sunscreening agent Substances 0.000 description 1
- 239000010677 tea tree oil Substances 0.000 description 1
- 229940111630 tea tree oil Drugs 0.000 description 1
- 238000012360 testing method Methods 0.000 description 1
- 239000004753 textile Substances 0.000 description 1
- 239000002562 thickening agent Substances 0.000 description 1
- 210000001541 thymus gland Anatomy 0.000 description 1
- 239000001585 thymus vulgaris Substances 0.000 description 1
- NPFVOOAXDOBMCE-UHFFFAOYSA-N trans-3-hexenyl acetate Natural products CCC=CCCOC(C)=O NPFVOOAXDOBMCE-UHFFFAOYSA-N 0.000 description 1
- BJIOGJUNALELMI-UHFFFAOYSA-N trans-isoeugenol Natural products COC1=CC(C=CC)=CC=C1O BJIOGJUNALELMI-UHFFFAOYSA-N 0.000 description 1
- XMLSXPIVAXONDL-UHFFFAOYSA-N trans-jasmone Natural products CCC=CCC1=C(C)CCC1=O XMLSXPIVAXONDL-UHFFFAOYSA-N 0.000 description 1
- 229910001428 transition metal ion Inorganic materials 0.000 description 1
- LADGBHLMCUINGV-UHFFFAOYSA-N tricaprin Chemical compound CCCCCCCCCC(=O)OCC(OC(=O)CCCCCCCCC)COC(=O)CCCCCCCCC LADGBHLMCUINGV-UHFFFAOYSA-N 0.000 description 1
- VLPFTAMPNXLGLX-UHFFFAOYSA-N trioctanoin Chemical compound CCCCCCCC(=O)OCC(OC(=O)CCCCCCC)COC(=O)CCCCCCC VLPFTAMPNXLGLX-UHFFFAOYSA-N 0.000 description 1
- 150000004961 triphenylmethanes Chemical class 0.000 description 1
- 235000021122 unsaturated fatty acids Nutrition 0.000 description 1
- 235000016788 valerian Nutrition 0.000 description 1
- 235000013311 vegetables Nutrition 0.000 description 1
- 125000000391 vinyl group Chemical group [H]C([*])=C([H])[H] 0.000 description 1
- 229920002554 vinyl polymer Polymers 0.000 description 1
- YEIGUXGHHKAURB-UHFFFAOYSA-N viridine Natural products O=C1C2=C3CCC(=O)C3=CC=C2C2(C)C(O)C(OC)C(=O)C3=COC1=C23 YEIGUXGHHKAURB-UHFFFAOYSA-N 0.000 description 1
- 150000003739 xylenols Chemical class 0.000 description 1
Classifications
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D1/00—Detergent compositions based essentially on surface-active compounds; Use of these compounds as a detergent
- C11D1/38—Cationic compounds
- C11D1/62—Quaternary ammonium compounds
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D1/00—Detergent compositions based essentially on surface-active compounds; Use of these compounds as a detergent
- C11D1/66—Non-ionic compounds
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D1/00—Detergent compositions based essentially on surface-active compounds; Use of these compounds as a detergent
- C11D1/66—Non-ionic compounds
- C11D1/835—Mixtures of non-ionic with cationic compounds
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D17/00—Detergent materials or soaps characterised by their shape or physical properties
- C11D17/0039—Coated compositions or coated components in the compositions, (micro)capsules
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D3/00—Other compounding ingredients of detergent compositions covered in group C11D1/00
- C11D3/0005—Other compounding ingredients characterised by their effect
- C11D3/001—Softening compositions
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D3/00—Other compounding ingredients of detergent compositions covered in group C11D1/00
- C11D3/50—Perfumes
- C11D3/502—Protected perfumes
- C11D3/505—Protected perfumes encapsulated or adsorbed on a carrier, e.g. zeolite or clay
Definitions
- the present invention relates to fabric conditioning compositions comprising volatile benefit agent in encapsulated and non-encapsulated forms, encapsulated phase change material and a cationic or nonionic softening active.
- Fragrances are a valuable and ubiquitously employed benefit agent in home and personal care applications.
- the use of perfumes in laundering signals to the consumer that the washing process has been achieved to an acceptable level.
- Encapsulated perfume technologies are known for use in laundry products. Such technologies provide enhanced fragrance delivery over conventional free perfume oil by overcoming the issue of perfume loss during the drying process by protecting the perfume in the capsule. Encapsulation also ensures that perfume is released at the optimal time to enable the provision of a perceivable benefit to the wearer of laundered garments. Examples of the mode of action of encapsulates include: shear sensitive action, where the perfume core is released in response to mechanical rupture of the encapsulate, and diffusive action, wherein perfume is released by diffusion through the outer wall of the encapsulate. Some encaps are capable of both release mechanisms.
- One type of capsule that has been used in laundry compositions has a melamine formaldehyde shell and a perfume core.
- WO99/43777 concerns fabric conditioning concentrate compositions comprising fabric softening compounds mixed with oil.
- WO2008/058833 discloses a fabric softening composition comprising a fabric softening compound and a material having a thermal phase transition temperature in the range of 26 to 39°C encapsulated in a polymer shell to provide encapsulated particles having a particle size in the range of 10nm to 1000 ⁇ m.
- WO2009/150017 discloses a process for preparing a composition comprising a fabric softening active, an encapsulated perfume and a non-confined perfume. The process comprises the step of dispersing the encapsulated perfume in water before the addition of the fabric softening active to the water.
- WO 2010/012590 discloses fabric softening compositions comprising a perfume encapsulated in a capsule wall having weak acid groups present on the surface of the capsule, a fabric softening active and a stabilizing active which is a water soluble non-ester linked cationic quaternary ammonium compound or a nonionic surfactant and salt.
- EP 0371535 A2 discloses aqueous liquid fabric treatment compositions comprising water insoluble cationic fabric conditioning materials, and a hydrocarbon composition having a thermal phase transition temperature of between 27 and 38 degrees C.
- the present invention provides a fabric conditioning composition, which comprises:
- a process for treating fabric comprising the step of treating a fabric article with a composition as defined by the first aspect.
- the encapsulated volatile benefit agent comprises a capsule and a volatile benefit agent.
- the capsule comprises a shell and a core.
- the capsule comprising the volatile benefit agent comprises a shell that is comprised of materials including but not limited to polyurethane, polyamide, polyolefin, polysaccaharide, protein, silicone, lipid, modified cellulose, gums, polyacrylate, polyphosphate, polystyrene, polyesters or combinations of these materials.
- Other encapsulating material which may be used effectively in the present invention, such as polymethylmethacrylate.
- Preferred encapsulating polymers include those formed from melamine formaldehyde or urea formaldehyde condensates, as well as similar types of aminoplasts.
- the shell comprises melamine formaldehyde.
- microcapsules made via the simple or complex coacervation of gelatin are suitable for use in compositions of the invention.
- a representative process used for aminoplast encapsulation is disclosed in U.S. Patent No. 3,516,941 though it is recognised that many variations with regard to materials and process steps are possible.
- a representative process used for gelatin encapsulation is disclosed in U.S. Patent No, 2,800,457 though it is recognized that many variations with regard to materials and process steps are possible. Both of these processes are discussed in the context of fragrance encapsulation for use in consumer products in U.S. Patent Nos. 4,145,184 and 5,112,688 respectively.
- Encapsulation can provide pore vacancies or interstitial openings depending on the encapsulation techniques employed.
- Fragrance capsules known in the art and suitable for use in the present invention comprise a wall or shell comprising a three-dimensional cross-linked network of an aminoplast resin, more specifically a substituted or un-substituted acrylic acid polymer or co-polymer cross-linked with a urea-formaldehyde pre-condensate or a melamine-formaldehyde pre-condensate.
- Microcapsule formation using mechanisms similar to the foregoing mechanism, using (i) melamine-formaldehyde or urea-formaldehyde pre-condensates and (ii) polymers containing substituted vinyl monomeric units having proton-donating functional group moieties (e.g. sulfonic acid groups or carboxylic acid anhydride groups) bonded thereto is disclosed in U.S. Patent 4,406,816 (2-acrylamido-2-methyl-propane sulfonic acid groups), UK published Patent Application GB 2,062,570 A (styrene sulfonic acid groups) and published Patent Application GB 2,006,709 A (carboxylic acid anhydride groups).
- the capsules for use in the invention may further comprise a carrier oil in the core.
- the carrier oils are hydrophobic materials that are miscible in the volatile benefit agent materials used in the present invention. Suitable oils are those having reasonable affinity for the benefit agent.
- suitable materials include, but are not limited to triglyceride oil, mono and diglycerides, mineral oil, silicone oil, diethyl phthalate, polyalpha olefins, castor oil and isopropyl myristate.
- the oil is a triglyceride oil, most preferably a capric/caprylic triglyceride oil.
- the capsules may be used in the form of a slurry, which preferably comprises about 40% solids.
- Particle size and average diameter of the capsules can vary from about 10 nanometers to about 1000 microns, preferably from about 50 nanometers to about 100 microns, more preferably from about 2 to about 40 microns, even more preferably from about 4 to 15 microns. A particularly preferred range is from about 5 to 10 microns, for example 6 to 7 microns.
- the capsule distribution can be narrow, broad or multimodal. Multimodal distributions may be composed of different types of capsule chemistries.
- the shell may further comprise a deposition aid, which is preferably covalently attached.
- a preferred deposition aid is a polysaccharide.
- the polysaccharide preferably has a ß-1,4-linked backbone.
- the polysaccharide is a cellulose, a cellulose derivative, or another ⁇ -1,4-linked polysaccharide having an affinity for cellulose, such as polymannan, polyglucan, polyglucomannan, polyxyloglucan and polygalactomannan or a mixture thereof. More preferably, the polysaccharide is selected from the group consisting of polyxyloglucan and polygalactomannan.
- Highly preferred polysaccharides are selected from locust bean gum, tamarind gum, xyloglucan, non-ionic guar gum, cationic starch and mixtures thereof.
- the deposition aid is locust bean gum.
- the polysaccharide backbone has only ß-1,4 linkages.
- the polysaccharide has linkages in addition to the ß-1,4 linkages, such as ß-1,3 linkages.
- linkages in addition to the ß-1,4 linkages, such as ß-1,3 linkages.
- Polysaccharide backbones which include some material which is not a saccharide ring are also within the ambit of the present invention (whether terminal or within the polysaccharide chain).
- the polysaccharide may be straight or branched. Many naturally occurring polysaccharides have at least some degree of branching, or at any rate at least some saccharide rings are in the form of pendant side groups (which are therefore not in themselves counted in determining the degree of substitution) on a main polysaccharide backbone.
- the polysaccharide is present at levels of between 0.1% to 10% w/w by weight of the total amount of the particle.
- the deposition aid which is preferably a polysaccharide, is attached to the particle by means of a covalent bond, entanglement or strong adsorption, preferably by a covalent bond or entanglement and most preferably by means of a covalent bond.
- entanglement as used herein is meant that the deposition aid is adsorbed onto the particle as the polymerisation proceeds and the particle grows in size, part of the adsorbed deposition aid becomes buried within the interior of the particle. Hence at the end of the polymerisation, part of the deposition aid is entrapped and bound in the polymer matrix of the particle, whilst the remainder is free to extend into the aqueous phase.
- strong adsorption as used herein is meant strong adsorption of the deposition aid to the surface of the particle; such adsorption can, for example, occur due to hydrogen bonding, Van Der Waals or electrostatic attraction between the deposition aid and the particle.
- the deposition aid is thus mainly attached to the particle surface and is not, to any significant extent, distributed throughout the internal bulk of the particle.
- This is distinct from graft copolymers in which e.g. a polysaccharide may be grafted along the length of a polymer chain.
- a particle which is formed from a graft copolymer would, therefore, contain polysaccharide throughout the internal bulk of the particle as well as on the particle surface and the present invention is not intended to cover such a particle.
- the particle which is produced when using a polysaccharide as the deposition aid according to the process of the invention can be thought of as a "hairy particle", which is different from a graft copolymer.
- This feature of the invention provides significant cost reduction opportunities for the manufacturer as much less deposition aid is required to achieve the same level of activity as systems which utilise polysaccharide copolymers.
- the deposition aid is present in the outermost portion of the shell, which is made of melamine formaldehyde polymer having a thickness of from 5 to 20 nm.
- Polyesters of terephthalic and other aromatic dicarboxylic acids having soil release properties in particular, the so-called PET/POET (polyethylene terephthalate/polyoxyethylene terephthalate) and PET/PEG (polyethylene terephthalate/polyethylene glycol) polyesters may be employed as deposition aids.
- the polymer must have at least one mole free OH group per mole polymer, to allow covalent binding to the reactive dye(s). Most preferably the polymer comprises at least two free OH groups. Preferably the OH groups are the terminal groups of the polymer.
- the oxyalkyleneoxy [-O(CH 2 ) t O-] is selected from: oxy-1,2-propyleneoxy [-OCH 2 CH(Me)O-]; oxy-1,3-propyleneoxy [O-CH 2 CH 2 CH 2 O-]; and, oxy-1,2-ethyleneoxy [-OCH 2 CH 2 O-] (t is an interger).
- one or more of the CH 2 groups of the oxyalkyleneoxy may be substituted by C1 to C4 alkyl group(s).
- the polyoxyalkyleneoxy facilitates water solubility of the polymer.
- the polyoxyalkyleneoxy [-O(CH 2 ) w -] s O- is selected from: polyoxy-1,2-propyleneoxy [-O(CH 2 CH(Me)-] s O-; polyoxy-1,3-propyleneoxy [O-CH 2 CH 2 CH 2 -] s O-; and, polyoxy-1,2-ethyleneoxy [O-CH 2 CH 2 -] s O-;
- the polyoxyalkyleneoxy may be a mixture of different oxyalkyleneoxy. Different polyoxyalkyleneoxy types may present in the polymer. (s and w are integers).
- the phenyl dicarboxylate is a 1,4-phenyl dicarboxylate.
- the phenyl dicarboxylate is of the form: -OC(O)C 6 H 4 C(O)O-.
- PET/POET Polyethylene terephthalate/polyoxyethylene terephthalate
- PEG/POET Polyethyleneglycol/ polyoxyethylene terephthalate
- PET/PEG Polyethylene terephthalate/ Polyethyleneglycol
- the polymers may be synthesised by a variety of routes, for example an esterification reaction of dimethyl terephthalate with ethyleneglycol and polyethyleneglycol, this reaction is discussed in Polymer Bulletin 28, 451-458 (1992 ).
- Another example would be the direct esterification of terephthalic acid with ethylene glycol and/or propylene glycol and polypropylene glycol.
- a further example would be a transesterification of a polyethyleneterephthalate with a polyethyleneglycol or polypropylene gycol.
- the number average molecular weight of the polymer is in the range from 1000 to 50,000, preferably the average molecular weight of the polymer is in the range of from 1000 to 15000, more preferably from 2000 to 10000.
- the volatile benefit agent is an agent which is volatile and which confers a benefit to fabric.
- Suitable volatile benefit agents include but are not limited to perfumes, insect repellents, essential oils, sensates such as menthol and aromatherapy actives, preferably perfumes. Mixtures of volatile benefit agents may be used.
- the total amount of volatile benefit agent is preferably from 0.01 to 10 % by weight, more preferably from 0.05 to 5 % by weight, even more preferably from 0.1 to 4.0 %, most preferably from 0.15 to 4.0 % by weight, based on the total weight of the composition.
- the preferred volatile benefit agent is a perfume.
- the compositions of the compositions of the invention also comprise an unconfined (also called non-encapsulated) volatile benefit agent.
- the volatile benefit agent is a perfume
- the perfumes described below are suitable for use as the encapsulated volatile benefit agent and also as the unconfined perfume component.
- Useful components of the perfume include materials of both natural and synthetic origin. They include single compounds and mixtures. Specific examples of such components may be found in the current literature, e.g., in Fenaroli's Handbook of Flavor Ingredients, 1975, CRC Press ; Synthetic Food Adjuncts, 1947 by M. B. Jacobs, edited by Van Nostr and; or Perfume and Flavor Chemicals by S. Arctander 1969, Montclair, N.J. (USA ).
- perfume in this context is not only meant a fully formulated product fragrance, but also selected components of that fragrance, particularly those which are prone to loss, such as the so-called 'top notes'.
- Top notes are defined by Poucher (Journal of the Society of Cosmetic Chemists 6(2):80 [1955 ]). Examples of well known top-notes include citrus oils, linalool, linalyl acetate, lavender, dihydromyrcenol, rose oxide and cis-3-hexanol. Top notes typically comprise 15-25%wt of a perfume composition and in those embodiments of the invention which contain an increased level of top-notes it is envisaged at that least 20%wt would be present within the encapsulate.
- perfume or pro-fragrance may be encapsulated, typical perfume components which it is advantageous to encapsulate, include those with a relatively low boiling point, preferably those with a boiling point of less than 300, preferably 100-250 Celsius and pro-fragrances which can produce such components.
- perfume components which have a low Clog P (i.e. those which will be partitioned into water), preferably with a Clog P of less than 3.0.
- Clog P i.e. those which will be partitioned into water
- materials, of relatively low boiling point and relatively low Clog P have been called the "delayed blooming" perfume ingredients and include the following materials:
- Preferred non-encapsulated perfume ingredients are those hydrophobic perfume components with a ClogP above 3.
- ClogP means the calculated logarithm to base 10 of the octanol/water partition coefficient (P).
- the octanol/water partition coefficient of a perfume raw material (PRM) is the ratio between its equilibrium concentrations in octanol and water. Given that this measure is a ratio of the equilibrium concentration of a PRM in a non-polar solvent (octanol) with its concentration in a polar solvent (water), ClogP is also a measure of the hydrophobicity of a material--the higher the ClogP value, the more hydrophobic the material.
- ClogP values can be readily calculated from a program called "CLOGP" which is available from Daylight Chemical Information Systems Inc., Irvine Calif., USA. Octanol/water partition coefficients are described in more detail in U.S. Pat. No. 5,578,563 .
- Perfume components with a ClogP above 3 comprise: Iso E super, citronellol, Ethyl cinnamate, Bangalol, 2,4,6-Trimethylbenzaldehyde, Hexyl cinnamic aldehyde, 2,6-Dimethyl-2-heptanol, Diisobutylcarbinol, Ethyl salicylate, Phenethyl isobutyrate, Ethyl hexyl ketone, Propyl amyl ketone, Dibutyl ketone, Heptyl methyl ketone, 4,5-Dihydrotoluene, Caprylic aldehyde, Citral, Geranial, Isopropyl benzoate, Cyclohexanepropionic acid, Campholene aldehyde, Caprylic acid, Caprylic alcohol, Cuminaldehyde, 1-Ethyl-4-nitrobenzene, Heptyl formate, 4-I
- compositions of the present invention it is envisaged that there will be four or more, preferably five or more, more preferably six or more or even seven or more different perfume components from the list given of delayed blooming perfumes given above and/or the list of perfume components with a ClogP above 3 present in the perfume.
- the volatile benefit agent may be an insect repellent.
- most repellent actives belong to one of four groups: amides, alcohols, esters or ethers.
- Those suitable for use in the present invention are liquids or solids with a relatively low melting point and a boiling point above 150 °C, preferably liquids. They evaporate slowly at room temperature.
- the volatile benefit agent is an insect repellent
- the repellents described below are suitable for use as the encapsulated volatile benefit agent and also as the unconfined repellent component.
- insect repellents are related to perfume species (many fall into both classes).
- the most commonly used insect repellents include: DEET (N,N-diethyl-m-toluamide), essential oil of the lemon eucalyptus (Corymbia citriodora) and its active compound p-menthane-3,8-diol (PMD), Icaridin, also known as Picaridin, D-Limonene, Bayrepel, and KBR 3023, Nepetalactone, also known as "catnip oil”, Citronella oil, Permethrin, Neem oil and Bog Myrtle.
- Known insect repellents derived from natural sources include: Achillea alpina, alpha-terpinene, Basil oil (Ocimum basilicum), Callicarpa americana (Beautyberry), Camphor, Carvacrol, Castor oil (Ricinus communis), Catnip oil (Nepeta species), Cedar oil (Cedrus atlantica), Celery extract (Apium graveolens), Cinnamon (Cinnamomum Zeylanicum, leaf oil), Citronella oil (Cymbopogon fleusus), Clove oil (Eugenic caryophyllata), Eucalyptus oil (70%+ eucalyptol, also known as cineol), Fennel oil (Foeniculum vulgare), Garlic Oil (Allium sativum), Geranium oil (also known as Pelargonium graveolens), Lavender oil (Lavandula officinalis), Lemon eucalyptus (Corymbia citri
- cinerariifolium and C. coccineum Rosemary oil (Rosmarinus officinalis), Spanish Flag Lantana camara (Helopeltis theivora), Solanum villosum berry juice, Tea tree oil (Melaleuca alternifolia) and Thyme (Thymus species) and mixtures thereof.
- Preferred encapsulated insect repellents are mosquito repellents available from Celessence, Rochester, England. Celessence Repel, containing the active ingredient Saltidin TM and Celessence Repel Natural, containing the active Citrepel TM 75. Saltidin is a man made molecule developed originally by the Bayer Corporation. Citrepel is produced from eucalyptus oils and is high in p-menthane-3,8-diol (PMD). A preferred non-encapsulated repellent is Citriodiol TM supplied by Citrefine.
- 'aromatherapy' materials include components of essential oils such as Clary Sage, Eucalyptus, Geranium, Lavender, Mace Extract, Neroli, Nutmeg, Spearmint, Sweet Violet Leaf and Valerian.
- Phase change actives are materials that can absorb, store and release heat whilst the material changes its physical form. This is known as a phase change. Water changing from solid (ice) to liquid is an example of this phenomenon. During these phase changes large amounts of heat are absorbed or released.
- the phase change active has a thermal phase transition temperature (TPTT) in the range 24 to 39°C.
- TPTT thermal phase transition temperature
- the TPTT may conveniently be measured by the Perkin & Elmer thermal analysis system.
- the Perkin & Elmer thermal analysis system measures the heat flow into a material to be heated as a function of the temperature of the material. By investigating a material at various temperatures, a temperature profile is obtained. Such a temperature profile usually has one or more peaks, each peak corresponding to a maximum for the heat flow into the material at a specific temperature. The temperature corresponding to the major peak in the temperature profile is referred to as the thermal phase transition temperature. Generally a high TPTT corresponds to a high softening temperature of the material. The material has a TPTT in the range 24 to 39°C, preferably from 25 to 39°C, more preferably from 26 to 38°C and most preferably from 26 to 30°C.
- Phase change actives possess a latent heat and show a phase transition phenomena between phases at a phase transition temperature.
- the phase transition of the present invention incorporated solid to liquid, liquid to vapor, solid to vapor, gel to liquid-crystalline phase changes.
- preferable phase transitions are solid to liquid phase or liquid to solid phase changes.
- PTMs reversibly absorb or release heat from the environment at around the phase transition temperature, which is accompanied with a corresponding change in the ambient temperature.
- the phase change active may be in the form of a composition (or mixture) provided that the total composition has a TPTT in the range 24 to 39°C, preferably from 25 to 39°C, more preferably from 26 to 38°C and most preferably from 26 to 30°C.
- Suitable compositions may comprise hydrocarbon materials comprising a linear or branched alkyl chain and preferably comprising an average of from 12 to 50 carbon atoms per molecule, preferably from 12 to 30 carbon atoms.
- the hydrocarbon materials are either alkanes or alkenes. Relatively small amounts of non-alkyl substituent groups may be present provided the hydrocarbon nature of the product is not substantially affected. Mixtures of these materials may be used.
- suitable hydrocarbon materials for use in the hydrocarbon composition are the liquid hydrocarbon materials of natural source.
- Other liquid hydrocarbon materials including the liquid fractions derived from crude oil, such as mineral oil, liquid paraffins, cracked hydrocarbons and mixtures thereof.
- a preferred material is paraffin wax (n-Octadecane).
- solid or semi-solid hydrocarbon materials are the paraffinic materials of longer chain length, and hydrogenated versions of some of the liquid materials mentioned above.
- a particularly useful combination of hydrocarbon materials is a mixture of mineral oil (for example, M85 ex Daltons Company) and petroleum jelly (for example, Silkolene 910 ex Daltons), wherein the weight ratio of mineral oil to petroleum jelly is chosen such that the TPTT of the mixture is in the range of from 24 to 39 °C.
- this result was obtained by using a ratio of mineral oil to petroleum jelly of less than 3:1, preferably from 2:1 to 1:3.
- the mineral oil was a liquid mixture of linear and branched hydrocarbons having an average number of carbon atoms per molecule of 26.
- Petroleum jelly was a semi-solid mixture of linear and branched hydrocarbons having an average number of carbon atoms per molecule of 26, and having a softening temperature of about 50°C.
- the encapsulated phase change active comprises a capsule and a phase change active.
- the capsule comprises a shell and a core.
- the capsule for the phase change material preferably has a shell that is permeable to the unconfined volatile benefit agent in the composition.
- a mixture of encapsulated phase change actives may be present.
- the phase change active is encapsulated in a polymer shell to form encapsulated particles having a preferred particle size of from 10 nm to 1000 ⁇ m, preferably 50 nm to 100 ⁇ m, more preferably 0.2 to 30 ⁇ m.
- encapsulated materials has the advantage that the materials may be readily dispersed without interference or interaction with the fabric softener compound.
- An additional advantage in that the encapsulated material does not cause a "messiness" feeling when deposited on the fabric which may be present with materials of a semi-liquid nature.
- Suitable encapsulating polymers include those formed from melamine-formaldehyde or urea formaldehyde condensates, as well as similar types of aminoplasts. Additionally, capsules made via the simple or complex coacervation of gelatin are also preferred for use with the coating. Capsules having shell walls comprised of polyurethane, polyamide, polyolefin, polysaccaharide, protein, silicone, lipid, modified cellulose, gums, polyacrylate, polyphosphate, polystyrene, and polyesters or combinations of these materials are also functional.
- phase change actives are those materials disclosed in WO 03/0144460 having a phase transition temperature of from 24 to 39 °C, referred to therein as "Phase Transition Materials” or “PTM's” at page 6, final paragraph to the penultimate line on page 8.
- Lurapret TX PMC 28 commercially available from BASF which is a material, specifically paraffin wax (comprising n-Octadecane), encapsulated in polymethylmethacrylate having a particle size in the range 0.2 to 20 ⁇ m. This material has a phase transition temperature of about 28°C.
- the phase change actives are generally deposited to apply from 0.2 to 1 %, preferably 0.2 to 0.5 % by weight of the fabric after drying.
- the encapsulated phase change actives are preferably present in an amount of from 0.01 to 15 wt %, more preferably 0.01 to 10 wt %, even more preferably from 0.05 to 5 wt %, still more preferably from 0.05 to 2 wt %, more preferably still from 0.05 to 1 wt % and most preferably from 0.05 to 0.5 wt % by weight of the fabric softening composition.
- the encapsulated phase change material comprises a shell that is permeable to the unconfined volatile benefit agent in the composition.
- Suitable encapsulating polymers include those formed from melamine-formaldehyde or urea formaldehyde condensates, as well as similar types of aminoplasts. Additionally, capsules made via the simple or complex coacervation of gelatin are also preferred for use with the coating.
- Capsules having shell walls comprised of polyurethane, polyamide, polyolefin, polysaccaharide, protein, silicone, lipid, modified cellulose, gums, polyacrylate, polyphosphate, polystyrene, and polyesters or combinations of these materials are also suitable.
- a preferred material is polymethylmethacrylate.
- composition of the invention comprises a fabric softening active.
- the fabric softening active is preferably different from the phase change active. Suitable fabric softening compounds are described below.
- the fabric conditioning agents may be cationic, non-ionic or mixtures thereof.
- Fabric conditioning compositions in accordance with the invention may be dilute or concentrated.
- Dilute products typically contain up to about 8 %, generally about 2 to 8 % by weight of softening active, whereas concentrated products may contain up to about 50 wt %, preferably from about 8 to about 50 %, more preferably from 8 to 25 % by weight active.
- the products of the invention may contain from 2 to 50 wt %, preferably from 3 to 25 wt % of softening active.
- the preferred softening active for use in rinse conditioner compositions of the invention is a quaternary ammonium compound (QAC).
- QAC quaternary ammonium compound
- the preferred quaternary ammonium fabric conditioner for use in compositions of the present invention are the so called "ester quats”.
- Particularly preferred materials are the ester-linked triethanolamine (TEA) quaternary ammonium compounds comprising a mixture of mono-, di- and tri-ester linked components.
- TAA ester-linked triethanolamine
- TEA-based fabric softening compounds comprise a mixture of mono, di- and tri-ester forms of the compound where the di-ester linked component comprises no more than 70 % by weight of the fabric softening compound, preferably no more than 60 wt % of the fabric softening compound and at least 10 % of the monoester linked component.
- a first group of quaternary ammonium compounds (QACs) suitable for use in the present invention is represented by formula (I): wherein each R is independently selected from a C 5-35 alkyl or alkenyl group; R 1 represents a C 1-4 alkyl, C 2-4 alkenyl or a C 1-4 hydroxyalkyl group; T is generally O-CO. (i.e. an ester group bound to R via its carbon atom), but may alternatively be CO-O (i.e.
- TEA ester quats preparations which are rich in the di-esters of triethanolammonium methylsulphate, otherwise referred to as "TEA ester quats".
- StepantexTM UL85 Ex Stepan, PrapagenTM TQL, ex Clariant, and TetranylTM AHT-1
- Ex Kao both di-[hardened tallow ester] of triethanolammonium methylsulphate
- AT-1 di-[tallow ester] of triethanolammonium methylsulphate
- L5/90 di-[palm ester] of triethanolammonium methylsulphate
- Ex Kao and RewoquatTM WE15 (a di-ester of triethanolammonium methylsulphate having fatty acyl residues deriving from C 10 -C 20 and C 16 -C 18 unsaturated fatty acids), ex Witco Corporation.
- soft quaternary ammonium actives such as Stepantex VK90, Stepantex VT90, SP88 (ex-Stepan), Prapagen TQ (ex-Clariant), Dehyquart AU-57 (ex-Cognis), Rewoquat WE18 (ex-Degussa) and Tetranyl L190 P, Tetranyl L190 SP and Tetranyl L190 S (all ex-Kao) are suitable.
- a second group of QACs suitable for use in the invention is represented by formula (II): wherein each R 1 group is independently selected from C 1-4 alkyl, hydroxyalkyl or C 2-4 alkenyl groups; and wherein each R 2 group is independently selected from C 8-28 alkyl or alkenyl groups; and wherein n, T, and X - are as defined above.
- Preferred materials of this second group include 1,2 bis [tallowoyloxy]-3-trimethylammonium propane chloride, 1,2 bis [hardened tallowoyloxy]-3-trimethylammonium propane chloride, 1,2- bis [oleoyloxy]-3-trimethylammonium propane chloride, and 1,2 bis [stearoyloxy]-3-trimethylammonium propane chloride.
- Such materials are described in US 4,137,180 (Lever Brothers ).
- these materials also comprise an amount of the corresponding monoester.
- a third group of QACs suitable for use in the invention is represented by formula (III): (R 1 ) 2 -N + -[(CH 2 ) n -T-R 2 ] 2 X - (III) wherein each R 1 group is independently selected from C 1-4 alkyl, or C 2-4 alkenyl groups; and wherein each R 2 group is independently selected from C 8-28 alkyl or alkenyl groups; and n, T, and X- are as defined above.
- Preferred materials of this third group include bis(2-tallowoyloxyethyl)dimethyl ammonium chloride, partially hardened and hardened versions thereof.
- the iodine value of the quaternary ammonium fabric conditioning material is preferably from 0 to 80, more preferably from 0 to 60, and most preferably from 0 to 45.
- the iodine value may be chosen as appropriate.
- Essentially saturated material having an iodine value of from 0 to 5, preferably from 0 to 1 may be used in the compositions of the invention. Such materials are known as "hardened" quaternary ammonium compounds.
- a further preferred range of iodine values is from 20 to 60, preferably 25 to 50, more preferably from 30 to 45.
- a material of this type is a "soft" triethanolamine quaternary ammonium compound, preferably triethanolamine di-alkylester methylsulphate. Such ester-linked triethanolamine quaternary ammonium compound comprise unsaturated fatty chains.
- Iodine value refers to the measurement of the degree of unsaturation present in a material by a method of nmr spectroscopy as described in Anal. Chem., 34, 1136 (1962) Johnson and Shoolery .
- a further type of softening compound is a non-ester quaternary ammonium material represented by formula (IV):- wherein each R 1 group is independently selected from C 1-4 alkyl, hydroxyalkyl or C 2-4 alkenyl groups; R 2 group is independently selected from C 8-28 alkyl or alkenyl groups, and X- is as defined above.
- compositions of the invention may contain a non-cationic softening material, which is preferably an oily sugar derivative.
- An oily sugar derivative is a liquid or soft solid derivative of a cyclic polyol (CPE) or of a reduced saccharide (RSE), said derivative resulting from 35 to 100 % of the hydroxyl groups in said polyol or in said saccharide being esterified or etherified.
- the derivative has two or more ester or ether groups independently attached to a C 8 -C 22 alkyl or alkenyl chain.
- the CPE or RSE does not have any substantial crystalline character at 20°C. Instead it is preferably in a liquid or soft solid state as herein defined at 20°C.
- liquid or soft solid (as hereinafter defined) CPEs or RSEs suitable for use in the present invention result from 35 to 100% of the hydroxyl groups of the starting cyclic polyol or reduced saccharide being esterified or etherified with groups such that the CPEs or RSEs are in the required liquid or soft solid state.
- These groups typically contain unsaturation, branching or mixed chain lengths.
- the CPEs or RSEs have 3 or more ester or ether groups or mixtures thereof, for example 3 to 8, especially 3 to 5. It is preferred if two or more of the ester or ether groups of the CPE or RSE are independently of one another attached to a C 8 to C 22 alkyl or alkenyl chain.
- the C 8 to C 22 alkyl or alkenyl groups may be branched or linear carbon chains.
- the CPE or RSE contains at least 35 % tri or higher esters, e.g. at least 40%.
- the CPE or RSE has at least one of the chains independently attached to the ester or ether groups having at least one unsaturated bond. This provides a cost effective way of making the CPE or RSE a liquid or a soft solid. It is preferred if predominantly unsaturated fatty chains, derived from, for example, rape oil, cotton seed oil, soybean oil, oleic, tallow, palmitoleic, linoleic, erucic or other sources of unsaturated vegetable fatty acids, are attached to the ester/ether groups.
- ester or ether chains of the CPE or RSE.
- the ester or ether chains of the CPE or RSE are preferably predominantly unsaturated.
- Preferred CPEs or RSEs include sucrose tetratallowate, sucrose tetrarapeate, sucrose tetraoleate, sucrose tetraesters of soybean oil or cotton seed oil, cellobiose tetraoleate, sucrose trioleate, sucrose triapeate, sucrose pentaoleate, sucrose pentarapeate, sucrose hexaoleate, sucrose hexarapeate, sucrose triesters, pentaesters and hexaesters of soybean oil or cotton seed oil, glucose tiroleate, glucose tetraoleate, xylose trioleate, or sucrose tetra-,tri-, penta- or hexa- esters with any mixture of predominantly unsaturated fatty acid chains.
- CPEs or RSEs are those with monounsaturated fatty acid chains, i.e. where any polyunsaturation has been removed by partial hydrogenation.
- CPEs or RSEs based on polyunsaturated fatty acid chains e.g. sucrose tetralinoleate, may be used provided most of the polyunsaturation has been removed by partial hydrogenation.
- liquid CPEs or RSEs are any of the above but where the polyunsaturation has been removed through partial hydrogenation.
- Preferably 40 % or more of the fatty acid chains contain an unsaturated bond, more preferably 50 % or more, most preferably 60% or more. In most cases 65 % to 100 %, e.g. 65 % to 95 % contain an unsaturated bond.
- CPEs are preferred for use with the present invention.
- Inositol is a preferred example of a cyclic polyol. Inositol derivatives are especially preferred.
- cyclic polyol encompasses all forms of saccharides. Indeed saccharides are especially preferred for use with this invention. Examples of preferred saccharides for the CPEs or RSEs to be derived from are monosaccharides and disaccharides.
- Examples of monosaccharides include xylose, arabinose, galactose, fructose, sorbose and glucose. Glucose is especially preferred.
- Examples of disaccharides include maltose, lactose, cellobiose and sucrose. Sucrose is especially preferred.
- An example of a reduced saccharide is sorbitan.
- the liquid or soft solid CPEs can be prepared by methods well known to those skilled in the art. These include acylation of the cyclic polyol or reduced saccharide with an acid chloride; trans-esterification of the cyclic polyol or reduced saccharide fatty acid esters using a variety of catalysts; acylation of the cyclic polyol or reduced saccharide with an acid anhydride and acylation of the cyclic polyol or reduced saccharide with a fatty acid. See for instance US 4 386 213 and AU 14416/88 (both P&G).
- the CPE or RSE has 3 or more, preferably 4 or more ester or ether groups. If the CPE is a disaccharide it is preferred if the disaccharide has 3 or more ester or ether groups. Particularly preferred CPEs are esters with a degree of esterification of 3 to 5, for example, sucrose tri, tetra and penta esters.
- each ring of the CPE has one ether or ester group, preferably at the C 1 position.
- Suitable examples of such compounds include methyl glucose derivatives.
- CPEs examples include esters of alkyl(poly)glucosides, in particular alkyl glucoside esters having a degree of polymerisation of 2.
- the length of the unsaturated (and saturated if present) chains in the CPE or RSE is C 8 -C 22 , preferably C 12 -C 22 . It is possible to include one or more chains of C 1 -C 8 , however these are less preferred.
- the liquid or soft solid CPEs or RSEs which are suitable for use in the present invention are characterised as materials having a solid:liquid ratio of between 50:50 and 0:100 at 20°C as determined by T 2 relaxation time NMR, preferably between 43:57 and 0:100, most preferably between 40:60 and 0:100, such as, 20:80 and 0:100.
- the T 2 NMR relaxation time is commonly used for characterising solid:liquid ratios in soft solid products such as fats and margarines.
- any component of the signal with a T 2 of less than 100 ⁇ s is considered to be a solid component and any component with T 2 ⁇ 100 ⁇ s is considered to be a liquid component.
- the prefixes e.g. tetra and penta
- the compounds exist as a mixture of materials ranging from the monoester to the fully esterified ester. It is the average degree of esterification which is used herein to define the CPEs and RSEs.
- the HLB of the CPE or RSE is typically between 1 and 3.
- the CPE or RSE is preferably present in the composition in an amount of 0.5-50% by weight, based upon the total weight of the composition, more preferably 1-30% by weight, such as 2-25%, e.g. 2-20%.
- the CPEs and RSEs for use in the compositions of the invention include sucrose tetraoleate, sucrose pentaerucate, sucrose tetraerucate and sucrose pentaoleate.
- Co-softeners may be used. When employed, they are typically present at from 0.1 to 20% and particularly at from 0.5 to 10%, based on the total weight of the composition.
- Preferred co-softeners include fatty esters, and fatty N-oxides.
- Fatty esters that may be employed include fatty monoesters, such as glycerol monostearate, fatty sugar esters, such as those disclosed WO 01/46361 (Unilever ).
- compositions of the present invention may comprise a fatty complexing agent.
- Suitable fatty complexing agents include fatty alcohols and fatty acids. Of these, fatty alcohols are most preferred.
- Fatty complexing material may be used to improve the viscosity profile of the composition.
- Preferred fatty acids include hardened tallow fatty acid (available under the tradename PristereneTM, ex Uniqema).
- Preferred fatty alcohols include hardened tallow alcohol (available under the tradenames StenolTM and HydrenolTM, ex Cognis and LaurexTM CS, ex Albright and Wilson).
- the fatty complexing agent is preferably present in an amount greater than 0.3 to 5% by weight based on the total weight of the composition. More preferably, the fatty component is present in an amount of from 0.4 to 4%.
- the weight ratio of the mono-ester component of the quaternary ammonium fabric softening material to the fatty complexing agent is preferably from 5:1 to 1:5, more preferably 4:1 to 1:4, most preferably 3:1 to 1:3, e.g. 2:1 to 1:2.
- compositions of the present invention may further comprise a nonionic surfactant. Typically these can be included for the purpose of stabilising the compositions. These are particularly suitable for compositions comprising hardened quaternary ammonium compounds.
- Suitable nonionic surfactants include addition products of ethylene oxide and/or propylene oxide with fatty alcohols, fatty acids and fatty amines. Any of the alkoxylated materials of the particular type described hereinafter can be used as the nonionic surfactant.
- Y is typically: -O-, -C(O)O-, -C(O)N(R)- or -C(O)N(R)R- in which R has the meaning given above or can be hydrogen; and Z is at least about 8, preferably at least about 10 or 11.
- the nonionic surfactant has an HLB of from about 7 to about 20, more preferably from 10 to 18, e.g. 12 to 16.
- GenapolTM C200 (Clariant) based on coco chain and 20 EO groups is an example of a suitable nonionic surfactant.
- the nonionic surfactant is present in an amount from 0.01 to 10%, more preferably 0.1 to 5 by weight, based on the total weight of the composition.
- Optional shading dyes can be used. Preferred dyes are violet or blue. Suitable and preferred classes of dyes are discussed below. Moreover the unsaturated quaternary ammonium compounds are subject to some degree of UV light and/or transition metal ion catalysed radical auto-oxidation, with an attendant risk of yellowing of fabric. The presence of a shading dye also reduces the risk of yellowing from this source.
- the level of shading dye present in the compositions of the present invention depend, therefore, on the type of shading dye.
- Preferred overall ranges, suitable for the present invention are from 0.00001 to 0.1 wt %, more preferably 0.0001 to 0.01 wt %, most preferably 0.0005 to 0.005 wt % by weight of the total composition.
- Direct dyes are the class of water soluble dyes which have an affinity for fibres and are taken up directly. Direct violet and direct blue dyes are preferred.
- the dye are bis -azo or tris -azo dyes are used.
- the direct dye is a direct violet of the following structures: or wherein:
- Preferred dyes are direct violet 7, direct violet 9, direct violet 11, direct violet 26, direct violet 31, direct violet 35, direct violet 40, direct violet 41, direct violet 51, and direct violet 99.
- Bis-azo copper containing dyes such as direct violet 66 may be used.
- the benzidene based dyes are less preferred.
- the direct dye is present at 0.00001 wt% to 0.0010 wt% of the formulation.
- the direct dye may be covalently linked to the photo-bleach, for example as described in WO2006/024612 .
- Cotton substantive acid dyes give benefits to cotton containing garments.
- Preferred dyes and mixes of dyes are blue or violet.
- Preferred acid dyes are: (i) azine dyes, wherein the dye is of the following core structure:
- Preferred azine dyes are: acid blue 98, acid violet 50, and acid blue 59, more preferably acid violet 50 and acid blue 98.
- non-azine acid dyes are acid violet 17, acid black 1 and acid blue 29.
- the acid dye is present at 0.0005 wt% to 0.01 wt% of the formulation.
- composition of the invention may comprise one or more hydrophobic dyes selected from benzodifuranes, methine, triphenylmethanes, napthalimides, pyrazole, napthoquinone, anthraquinone and mono-azo or di-azo dye chromophores.
- Hydrophobic dyes are dyes which do not contain any charged water solubilising group. Hydrophobic dyes may be selected from the groups of disperse and solvent dyes. Blue and violet anthraquinone and mono-azo dye are preferred.
- Preferred dyes include solvent violet 13, disperse violet 27 disperse violet 26, disperse violet 28, disperse violet 63 and disperse violet 77.
- the hydrophobic dye is present at 0.0001 wt% to 0.005 wt% of the formulation.
- Basic dyes are organic dyes which carry a net positive charge. They deposit onto cotton. They are of particular utility for used in composition that contain predominantly cationic surfactants. Dyes may be selected from the basic violet and basic blue dyes listed in the Colour Index International.
- Preferred examples include triarylmethane basic dyes, methane basic dye, anthraquinone basic dyes, basic blue 16, basic blue 65, basic blue 66, basic blue 67, basic blue 71, basic blue 159, basic violet 19, basic violet 35, basic violet 38, basic violet 48; basic blue 3, basic blue 75, basic blue 95, basic blue 122, basic blue 124, basic blue 141.
- Reactive dyes are dyes which contain an organic group capable of reacting with cellulose and linking the dye to cellulose with a covalent bond. They deposit onto cotton.
- the reactive group is hydrolysed or reactive group of the dyes has been reacted with an organic species such as a polymer, so as to the link the dye to this species.
- Dyes may be selected from the reactive violet and reactive blue dyes listed in the Colour Index International.
- Preferred examples include reactive blue 19, reactive blue 163, reactive blue 182 and reactive blue 96.
- Dye conjugates are formed by binding direct, acid or basic dyes to polymers or particles via physical forces.
- Particularly preferred dyes are: direct violet 7, direct violet 9, direct violet 11, direct violet 26, direct violet 31, direct violet 35, direct violet 40, direct violet 41, direct violet 51, direct violet 99, acid blue 98, acid violet 50, acid blue 59, acid violet 17, acid black 1, acid blue 29, solvent violet 13, disperse violet 27 disperse violet 26, disperse violet 28, disperse violet 63, disperse violet 77 and mixtures thereof.
- compositions of the invention may contain one or more other ingredients.
- ingredients include further preservatives (e.g. bactericides), pH buffering agents, perfume carriers, hydrotropes, anti-redeposition agents, soil-release agents, polyelectrolytes, anti-shrinking agents, anti-wrinkle agents, anti-oxidants, sunscreens, anti-corrosion agents, drape imparting agents, anti-static agents, ironing aids, silicones, antifoams, colourants, pearlisers and/or opacifiers, natural oils/extracts, processing aids, e.g. electrolytes, hygiene agents, eg anti-bacterials and antifungals, thickeners and skin benefit agents.
- the Fabric softening compositions may also comprise viscosity modifiers. Suitable viscosity modifiers are disclosed, for example, in WO 02/081611 , US 2004/0214736 , US 6827795 , EP 0501714 , US 2003/0104964 , EP 0385749 and EP 331237 .
- compositions of the present invention are preferably rinse-added softening compositions.
- compositions have a pH ranging from about 2.5 to 6, preferably from about 2.5 to 4.5, most preferably about 2.5 to 2.8.
- the compositions of the invention may also contain pH modifiers such as hydrochloric acid or lactic acid.
- a composition of the invention is preferably in liquid form.
- the composition may be a concentrate to be diluted in a solvent, including water, before use.
- the composition may also be a ready-to-use (in-use) composition.
- the composition is provided as a ready to use liquid comprising an aqueous phase.
- the aqueous phase may comprise water-soluble species, such as mineral salts or short chain (C 1-4 ) alcohols.
- the composition is preferably for use in the rinse cycle of a home textile laundering operation, where, it may be added directly in an undiluted state to a washing machine, e.g. through a dispenser drawer or, for a top-loading washing machine, directly into the drum. Alternatively, it can be diluted prior to use.
- the compositions may also be used in a domestic hand-washing laundry operation. It is also possible for the compositions of the present invention to be used in industrial laundry operations, e.g. as a finishing agent for softening new clothes prior to sale to consumers.
- compositions of the invention can be prepared by any method suitable for preparing dispersed, emulsified systems.
- One method involves the forming of a molten premixture of the active materials in water at an elevated temperature, adding additional water to obtain the desired active concentration, and then cooling to ambient temperature. When desired, some minor ingredients such as electrolytes, colouring agents, etc. may be post-dosed.
- a second method involves the forming of the product by phase inversion of a water in hydrocarbon emulsion, wherein the cationic material is either part of the hydrocarbon phase or added as a separate predispersion. This method is advantageous, because this provides very finely divided hydrocarbon particles in the final product.
- the encapsulated phase change active may be post dosed in the form of an aqueous slurry.
- the capsules can be combined with the composition at any time during the preparation of the laundry treatment composition.
- the capsules can be added to the composition comprising the unconfined perfume or vice versa.
- the capsules may be post dosed to a pre-made composition comprising the unconfined volatile benefit agent or may be combined with other ingredients such as water, during the preparation of the composition comprising the unconfined benefit agent.
- Examples of the invention are represented by a number. Comparative examples are represented by a letter.
- Example 1 - Preparation and composition of Fabric Conditioner 1, in accordance with the invention, and Comparative Example A.
- Conditioner 1 and Comparative Example A were concentrated liquid fabric conditioners, comprising about 12 % of softening active.
- A is a commercially available fabric conditioner, with the brand name Comfort containing encapsulated perfume and free perfume.
- Encapsulated phase change material Lurapret TX PMC 28, available from BASF was post dosed into fabric conditioner A at a level of 0.1 wt %, to form Conditioner 1.
- Example 2 Treatment of Fabric using Conditioner 1 and Comparative Example A
- An untreated monitor was used as a control.
- Example 3 - Perfume intensity arising from fabric treated with Conditioner 1 and Comparative Example A
- the boost on rubbing for 1 is significantly larger than that for comparative example A. This is a surprising effect given the low level of encapsulated phase change material used in the composition.
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Description
- The present invention relates to fabric conditioning compositions comprising volatile benefit agent in encapsulated and non-encapsulated forms, encapsulated phase change material and a cationic or nonionic softening active.
- Fragrances are a valuable and ubiquitously employed benefit agent in home and personal care applications. The use of perfumes in laundering signals to the consumer that the washing process has been achieved to an acceptable level.
- Encapsulated perfume technologies are known for use in laundry products. Such technologies provide enhanced fragrance delivery over conventional free perfume oil by overcoming the issue of perfume loss during the drying process by protecting the perfume in the capsule. Encapsulation also ensures that perfume is released at the optimal time to enable the provision of a perceivable benefit to the wearer of laundered garments. Examples of the mode of action of encapsulates include: shear sensitive action, where the perfume core is released in response to mechanical rupture of the encapsulate, and diffusive action, wherein perfume is released by diffusion through the outer wall of the encapsulate. Some encaps are capable of both release mechanisms. One type of capsule that has been used in laundry compositions has a melamine formaldehyde shell and a perfume core. Release of perfume from melamine formaldehyde capsules is friction based, the benefit becoming apparent after a rubbing process is applied to the treated fabric. This benefit is provided by a boost in perfume intensity during wear.
WO99/43777 WO2008/058833 discloses a fabric softening composition comprising a fabric softening compound and a material having a thermal phase transition temperature in the range of 26 to 39°C encapsulated in a polymer shell to provide encapsulated particles having a particle size in the range of 10nm to 1000µm.WO2009/150017 discloses a process for preparing a composition comprising a fabric softening active, an encapsulated perfume and a non-confined perfume. The process comprises the step of dispersing the encapsulated perfume in water before the addition of the fabric softening active to the water.WO 2010/012590 discloses fabric softening compositions comprising a perfume encapsulated in a capsule wall having weak acid groups present on the surface of the capsule, a fabric softening active and a stabilizing active which is a water soluble non-ester linked cationic quaternary ammonium compound or a nonionic surfactant and salt. -
EP 0371535 A2 discloses aqueous liquid fabric treatment compositions comprising water insoluble cationic fabric conditioning materials, and a hydrocarbon composition having a thermal phase transition temperature of between 27 and 38 degrees C. - We have now found that the inclusion of a low level of encapsulated phase change material significantly increase the shear release effect associated with a fabric conditioning formulation containing conventional encapsulated volatile benefit agents, for example perfume.
- In a first aspect, the present invention provides a fabric conditioning composition, which comprises:
- (i) an encapsulated volatile benefit agent;
- (ii) an encapsulated phase change active, said phase change active having a phase change temperature of from 24 to 39°C;
- (iii) at least one softening agent selected from a cationic softening agent, a non-ionic softening agent and mixtures thereof; and
- (iv) a non-encapsulated volatile benefit agent.
- In a second aspect of the present invention there is provided a process for treating fabric comprising the step of treating a fabric article with a composition as defined by the first aspect.
- The encapsulated volatile benefit agent comprises a capsule and a volatile benefit agent. The capsule comprises a shell and a core.
- The capsule comprising the volatile benefit agent comprises a shell that is comprised of materials including but not limited to polyurethane, polyamide, polyolefin, polysaccaharide, protein, silicone, lipid, modified cellulose, gums, polyacrylate, polyphosphate, polystyrene, polyesters or combinations of these materials. Other encapsulating material which may be used effectively in the present invention, such as polymethylmethacrylate. Preferred encapsulating polymers include those formed from melamine formaldehyde or urea formaldehyde condensates, as well as similar types of aminoplasts. Most preferably the shell comprises melamine formaldehyde.
- Additionally, microcapsules made via the simple or complex coacervation of gelatin are suitable for use in compositions of the invention.
- A representative process used for aminoplast encapsulation is disclosed in
U.S. Patent No. 3,516,941 though it is recognised that many variations with regard to materials and process steps are possible. A representative process used for gelatin encapsulation is disclosed inU.S. Patent No, 2,800,457 though it is recognized that many variations with regard to materials and process steps are possible. Both of these processes are discussed in the context of fragrance encapsulation for use in consumer products inU.S. Patent Nos. 4,145,184 and5,112,688 respectively. - Encapsulation can provide pore vacancies or interstitial openings depending on the encapsulation techniques employed.
- Fragrance capsules known in the art and suitable for use in the present invention comprise a wall or shell comprising a three-dimensional cross-linked network of an aminoplast resin, more specifically a substituted or un-substituted acrylic acid polymer or co-polymer cross-linked with a urea-formaldehyde pre-condensate or a melamine-formaldehyde pre-condensate.
- Microcapsule formation using mechanisms similar to the foregoing mechanism, using (i) melamine-formaldehyde or urea-formaldehyde pre-condensates and (ii) polymers containing substituted vinyl monomeric units having proton-donating functional group moieties (e.g. sulfonic acid groups or carboxylic acid anhydride groups) bonded thereto is disclosed in
U.S. Patent 4,406,816 (2-acrylamido-2-methyl-propane sulfonic acid groups), UK published Patent ApplicationGB 2,062,570 A GB 2,006,709 A - The capsules for use in the invention may further comprise a carrier oil in the core. The carrier oils are hydrophobic materials that are miscible in the volatile benefit agent materials used in the present invention. Suitable oils are those having reasonable affinity for the benefit agent. Where the benefit agent is a perfume, suitable materials include, but are not limited to triglyceride oil, mono and diglycerides, mineral oil, silicone oil, diethyl phthalate, polyalpha olefins, castor oil and isopropyl myristate. Preferably, the oil is a triglyceride oil, most preferably a capric/caprylic triglyceride oil.
- For liquid fabric conditioner compositions, the capsules may be used in the form of a slurry, which preferably comprises about 40% solids.
- Particle size and average diameter of the capsules can vary from about 10 nanometers to about 1000 microns, preferably from about 50 nanometers to about 100 microns, more preferably from about 2 to about 40 microns, even more preferably from about 4 to 15 microns. A particularly preferred range is from about 5 to 10 microns, for example 6 to 7 microns. The capsule distribution can be narrow, broad or multimodal. Multimodal distributions may be composed of different types of capsule chemistries.
- The shell may further comprise a deposition aid, which is preferably covalently attached.
- A preferred deposition aid is a polysaccharide. The polysaccharide preferably has a ß-1,4-linked backbone.
- Preferably the polysaccharide is a cellulose, a cellulose derivative, or another β-1,4-linked polysaccharide having an affinity for cellulose, such as polymannan, polyglucan, polyglucomannan, polyxyloglucan and polygalactomannan or a mixture thereof. More preferably, the polysaccharide is selected from the group consisting of polyxyloglucan and polygalactomannan.
- Highly preferred polysaccharides are selected from locust bean gum, tamarind gum, xyloglucan, non-ionic guar gum, cationic starch and mixtures thereof. Most preferably, the deposition aid is locust bean gum.
- Preferably, the polysaccharide backbone has only ß-1,4 linkages. Optionally, the polysaccharide has linkages in addition to the ß-1,4 linkages, such as ß-1,3 linkages. Thus, optionally some other linkages are present. Polysaccharide backbones which include some material which is not a saccharide ring are also within the ambit of the present invention (whether terminal or within the polysaccharide chain).
- The polysaccharide may be straight or branched. Many naturally occurring polysaccharides have at least some degree of branching, or at any rate at least some saccharide rings are in the form of pendant side groups (which are therefore not in themselves counted in determining the degree of substitution) on a main polysaccharide backbone.
- Preferably, the polysaccharide is present at levels of between 0.1% to 10% w/w by weight of the total amount of the particle.
- The deposition aid, which is preferably a polysaccharide, is attached to the particle by means of a covalent bond, entanglement or strong adsorption, preferably by a covalent bond or entanglement and most preferably by means of a covalent bond. By entanglement as used herein is meant that the deposition aid is adsorbed onto the particle as the polymerisation proceeds and the particle grows in size, part of the adsorbed deposition aid becomes buried within the interior of the particle. Hence at the end of the polymerisation, part of the deposition aid is entrapped and bound in the polymer matrix of the particle, whilst the remainder is free to extend into the aqueous phase.
- By strong adsorption as used herein is meant strong adsorption of the deposition aid to the surface of the particle; such adsorption can, for example, occur due to hydrogen bonding, Van Der Waals or electrostatic attraction between the deposition aid and the particle.
- The deposition aid is thus mainly attached to the particle surface and is not, to any significant extent, distributed throughout the internal bulk of the particle. This is distinct from graft copolymers in which e.g. a polysaccharide may be grafted along the length of a polymer chain. A particle which is formed from a graft copolymer would, therefore, contain polysaccharide throughout the internal bulk of the particle as well as on the particle surface and the present invention is not intended to cover such a particle. Thus the particle which is produced when using a polysaccharide as the deposition aid according to the process of the invention can be thought of as a "hairy particle", which is different from a graft copolymer. This feature of the invention provides significant cost reduction opportunities for the manufacturer as much less deposition aid is required to achieve the same level of activity as systems which utilise polysaccharide copolymers.
- The deposition aid is present in the outermost portion of the shell, which is made of melamine formaldehyde polymer having a thickness of from 5 to 20 nm. Polyesters of terephthalic and other aromatic dicarboxylic acids having soil release properties, in particular, the so-called PET/POET (polyethylene terephthalate/polyoxyethylene terephthalate) and PET/PEG (polyethylene terephthalate/polyethylene glycol) polyesters may be employed as deposition aids.
- The polymer must have at least one mole free OH group per mole polymer, to allow covalent binding to the reactive dye(s). Most preferably the polymer comprises at least two free OH groups. Preferably the OH groups are the terminal groups of the polymer.
- Preferably, the oxyalkyleneoxy [-O(CH2)tO-] is selected from: oxy-1,2-propyleneoxy [-OCH2CH(Me)O-]; oxy-1,3-propyleneoxy [O-CH2CH2CH2O-]; and, oxy-1,2-ethyleneoxy [-OCH2CH2O-] (t is an interger). As is evident one or more of the CH2 groups of the oxyalkyleneoxy may be substituted by C1 to C4 alkyl group(s).
- The polyoxyalkyleneoxy facilitates water solubility of the polymer. Preferably, the polyoxyalkyleneoxy [-O(CH2)w-]sO- is selected from: polyoxy-1,2-propyleneoxy [-O(CH2CH(Me)-]sO-; polyoxy-1,3-propyleneoxy [O-CH2CH2CH2-]sO-; and, polyoxy-1,2-ethyleneoxy [O-CH2CH2-] sO-; The polyoxyalkyleneoxy may be a mixture of different oxyalkyleneoxy. Different polyoxyalkyleneoxy types may present in the polymer. (s and w are integers).
- Preferably the phenyl dicarboxylate is a 1,4-phenyl dicarboxylate. Preferably the phenyl dicarboxylate is of the form: -OC(O)C6H4C(O)O-.
- Examples of preferred polymers are a PET/POET (Polyethylene terephthalate/polyoxyethylene terephthalate), PEG/POET (Polyethyleneglycol/ polyoxyethylene terephthalate) or PET/PEG (Polyethylene terephthalate/ Polyethyleneglycol) polymer. Most preferable a PET/POET.
-
- R2 is selected from H or CH3, preferably H;
- b is 2 or 3, preferably 2;
- y is 2 to 100, preferably 5 to 50;
- n and m are independently 1 to 100, preferably 2 to 30; and, the terminal (end) groups of the polymer are (CH2)bOH.
- The polymers may be synthesised by a variety of routes, for example an esterification reaction of dimethyl terephthalate with ethyleneglycol and polyethyleneglycol, this reaction is discussed in Polymer Bulletin 28, 451-458 (1992). Another example would be the direct esterification of terephthalic acid with ethylene glycol and/or propylene glycol and polypropylene glycol. A further example would be a transesterification of a polyethyleneterephthalate with a polyethyleneglycol or polypropylene gycol.
- It is preferred that the number average molecular weight of the polymer is in the range from 1000 to 50,000, preferably the average molecular weight of the polymer is in the range of from 1000 to 15000, more preferably from 2000 to 10000.
- The volatile benefit agent is an agent which is volatile and which confers a benefit to fabric.
- Suitable volatile benefit agents include but are not limited to perfumes, insect repellents, essential oils, sensates such as menthol and aromatherapy actives, preferably perfumes. Mixtures of volatile benefit agents may be used.
- The total amount of volatile benefit agent is preferably from 0.01 to 10 % by weight, more preferably from 0.05 to 5 % by weight, even more preferably from 0.1 to 4.0 %, most preferably from 0.15 to 4.0 % by weight, based on the total weight of the composition.
- The preferred volatile benefit agent is a perfume. The compositions of the compositions of the invention also comprise an unconfined (also called non-encapsulated) volatile benefit agent. Where the volatile benefit agent is a perfume, the perfumes described below are suitable for use as the encapsulated volatile benefit agent and also as the unconfined perfume component.
- Useful components of the perfume include materials of both natural and synthetic origin. They include single compounds and mixtures. Specific examples of such components may be found in the current literature, e.g., in Fenaroli's Handbook of Flavor Ingredients, 1975, CRC Press; Synthetic Food Adjuncts, 1947 by M. B. Jacobs, edited by Van Nostrand; or Perfume and Flavor Chemicals by S. Arctander 1969, Montclair, N.J. (USA). These substances are well known to the person skilled in the art of perfuming, flavouring, and/or aromatizing consumer products, i.e., of imparting an odour and/or a flavour or taste to a consumer product traditionally perfumed or flavoured, or of modifying the odour and/or taste of said consumer product.
- By perfume in this context is not only meant a fully formulated product fragrance, but also selected components of that fragrance, particularly those which are prone to loss, such as the so-called 'top notes'.
- Top notes are defined by Poucher (Journal of the Society of Cosmetic Chemists 6(2):80 [1955]). Examples of well known top-notes include citrus oils, linalool, linalyl acetate, lavender, dihydromyrcenol, rose oxide and cis-3-hexanol. Top notes typically comprise 15-25%wt of a perfume composition and in those embodiments of the invention which contain an increased level of top-notes it is envisaged at that least 20%wt would be present within the encapsulate.
- Some or all of the perfume or pro-fragrance may be encapsulated, typical perfume components which it is advantageous to encapsulate, include those with a relatively low boiling point, preferably those with a boiling point of less than 300, preferably 100-250 Celsius and pro-fragrances which can produce such components.
- It is also advantageous to encapsulate perfume components which have a low Clog P (i.e. those which will be partitioned into water), preferably with a Clog P of less than 3.0. These materials, of relatively low boiling point and relatively low Clog P have been called the "delayed blooming" perfume ingredients and include the following materials:
- Allyl Caproate, Amyl Acetate, Amyl Propionate, Anisic Aldehyde, Anisole, Benzaldehyde, Benzyl Acetate, Benzyl Acetone, Benzyl Alcohol, Benzyl Formate, Benzyl Iso Valerate, Benzyl Propionate, Beta Gamma Hexenol, Camphor Gum, Laevo-Carvone, d-Carvone, Cinnamic Alcohol, Cinamyl Formate, Cis-Jasmone, cis-3-Hexenyl Acetate, Cuminic Alcohol, Cyclal C, Dimethyl Benzyl Carbinol, Dimethyl Benzyl Carbinol Acetate, Ethyl Acetate, Ethyl Aceto Acetate, Ethyl Amyl Ketone, Ethyl Benzoate, Ethyl Butyrate, Ethyl Hexyl Ketone, Ethyl Phenyl Acetate, Eucalyptol, Eugenol, Fenchyl Acetate, Flor Acetate (tricyclo Decenyl Acetate), Frutene (tricyclco Decenyl Propionate), Geraniol, Hexenol, Hexenyl Acetate, Hexyl Acetate, Hexyl Formate, Hydratropic Alcohol, Hydroxycitronellal, Indone, Isoamyl Alcohol, Iso Menthone, Isopulegyl Acetate, Isoquinolone, Ligustral, Linalool, Linalool Oxide, Linalyl Formate, Menthone, Menthyl Acetphenone, Methyl Amyl Ketone, Methyl Anthranilate, Methyl Benzoate, Methyl Benyl Acetate, Methyl Eugenol, Methyl Heptenone, Methyl Heptine Carbonate, Methyl Heptyl Ketone, Methyl Hexyl Ketone, Methyl Phenyl Carbinyl Acetate, Methyl Salicylate, Methyl-N-Methyl Anthranilate, Nerol, Octalactone, Octyl Alcohol, p-Cresol, p-Cresol Methyl Ether, p-Methoxy Acetophenone, p-Methyl Acetophenone, Phenoxy Ethanol, Phenyl Acetaldehyde, Phenyl Ethyl Acetate, Phenyl Ethyl Alcohol, Phenyl Ethyl Dimethyl Carbinol, Prenyl Acetate, Propyl Bornate, Pulegone, Rose Oxide, Safrole, 4-Terpinenol, Alpha-Terpinenol, and/or Viridine.
- Preferred non-encapsulated perfume ingredients are those hydrophobic perfume components with a ClogP above 3. As used herein, the term "ClogP" means the calculated logarithm to base 10 of the octanol/water partition coefficient (P). The octanol/water partition coefficient of a perfume raw material (PRM) is the ratio between its equilibrium concentrations in octanol and water. Given that this measure is a ratio of the equilibrium concentration of a PRM in a non-polar solvent (octanol) with its concentration in a polar solvent (water), ClogP is also a measure of the hydrophobicity of a material--the higher the ClogP value, the more hydrophobic the material. ClogP values can be readily calculated from a program called "CLOGP" which is available from Daylight Chemical Information Systems Inc., Irvine Calif., USA. Octanol/water partition coefficients are described in more detail in
U.S. Pat. No. 5,578,563 . - Perfume components with a ClogP above 3 comprise: Iso E super, citronellol, Ethyl cinnamate, Bangalol, 2,4,6-Trimethylbenzaldehyde, Hexyl cinnamic aldehyde, 2,6-Dimethyl-2-heptanol, Diisobutylcarbinol, Ethyl salicylate, Phenethyl isobutyrate, Ethyl hexyl ketone, Propyl amyl ketone, Dibutyl ketone, Heptyl methyl ketone, 4,5-Dihydrotoluene, Caprylic aldehyde, Citral, Geranial, Isopropyl benzoate, Cyclohexanepropionic acid, Campholene aldehyde, Caprylic acid, Caprylic alcohol, Cuminaldehyde, 1-Ethyl-4-nitrobenzene, Heptyl formate, 4-Isopropylphenol, 2-Isopropylphenol, 3-Isopropylphenol, Allyl disulfide, 4-Methyl-1-phenyl-2-pentanone, 2-Propylfuran, Allyl caproate, Styrene, Isoeugenyl methyl ether, Indonaphthene, Diethyl suberate, L-Menthone, Menthone racemic, p-Cresyl isobutyrate, Butyl butyrate, Ethyl hexanoate, Propyl valerate, n-Pentyl propanoate, Hexyl acetate, Methyl heptanoate, trans-3,3,5-Trimethylcyclohexanol, 3,3,5-Trimethylcyclohexanol, Ethyl p-anisate, 2-Ethyl-1-hexanol, Benzyl isobutyrate, 2,5-Dimethylthiophene, Isobutyl 2-butenoate, Caprylnitrile, gamma-Nonalactone, Nerol, trans-Geraniol, 1-Vinylheptanol, Eucalyptol, 4-Terpinenol, Dihydrocarveol, Ethyl 2-methoxybenzoate, Ethyl cyclohexanecarboxylate, 2-Ethylhexanal, Ethyl amyl carbinol, 2-Octanol, 2-Octanol, Ethyl methylphenylglycidate, Diisobutyl ketone, Coumarone, Propyl isovalerate, Isobutyl butanoate, Isopentyl propanoate, 2-Ethylbutyl acetate, 6-Methyl-tetrahydroquinoline, Eugenyl methyl ether, Ethyl dihydrocinnamate, 3,5-Dimethoxytoluene, Toluene, Ethyl benzoate, n-Butyrophenone, alpha-Terpineol, Methyl 2-methylbenzoate, Methyl 4-methylbenzoate, Methyl 3, methylbenzoate, sec. Butyl n-butyrate, 1,4-Cineole, Fenchyl alcohol, Pinanol, cis-2-Pinanol, 2,4, Dimethylacetophenone, Isoeugenol, Safrole, Methyl 2-octynoate, o-Methylanisole, p-Cresyl methyl ether, Ethyl anthranilate, Linalool, Phenyl butyrate, Ethylene glycol dibutyrate, Diethyl phthalate, Phenyl mercaptan, Cumic alcohol, m-Toluquinoline, 6-Methylquinoline, Lepidine, 2-Ethylbenzaldehyde, 4-Ethylbenzaldehyde, o-Ethylphenol, p-Ethylphenol, m-Ethylphenol, (+)-Pulegone, 2,4-Dimethylbenzaldehyde, Isoxylaldehyde, Ethyl sorbate, Benzyl propionate, 1,3-Dimethylbutyl acetate, Isobutyl isobutanoate, 2,6-Xylenol, 2,4-Xylenol, 2,5-Xylenol, 3,5-Xylenol, Methyl cinnamate, Hexyl methyl ether, Benzyl ethyl ether, Methyl salicylate, Butyl propyl ketone, Ethyl amyl ketone, Hexyl methyl ketone, 2,3-Xylenol, 3,4, Xylenol, Cyclopentadenanolide and Phenyl ethyl 2 phenylacetate 2.
- It is commonplace for a plurality of perfume components to be present in a formulation. In the compositions of the present invention it is envisaged that there will be four or more, preferably five or more, more preferably six or more or even seven or more different perfume components from the list given of delayed blooming perfumes given above and/or the list of perfume components with a ClogP above 3 present in the perfume.
- The volatile benefit agent may be an insect repellent. In chemical terms, most repellent actives belong to one of four groups: amides, alcohols, esters or ethers. Those suitable for use in the present invention are liquids or solids with a relatively low melting point and a boiling point above 150 °C, preferably liquids. They evaporate slowly at room temperature. Where the volatile benefit agent is an insect repellent, the repellents described below are suitable for use as the encapsulated volatile benefit agent and also as the unconfined repellent component.
- Many suitable insect repellents are related to perfume species (many fall into both classes). The most commonly used insect repellents include: DEET (N,N-diethyl-m-toluamide), essential oil of the lemon eucalyptus (Corymbia citriodora) and its active compound p-menthane-3,8-diol (PMD), Icaridin, also known as Picaridin, D-Limonene, Bayrepel, and KBR 3023, Nepetalactone, also known as "catnip oil", Citronella oil, Permethrin, Neem oil and Bog Myrtle.
- Known insect repellents derived from natural sources include: Achillea alpina, alpha-terpinene, Basil oil (Ocimum basilicum), Callicarpa americana (Beautyberry), Camphor, Carvacrol, Castor oil (Ricinus communis), Catnip oil (Nepeta species), Cedar oil (Cedrus atlantica), Celery extract (Apium graveolens), Cinnamon (Cinnamomum Zeylanicum, leaf oil), Citronella oil (Cymbopogon fleusus), Clove oil (Eugenic caryophyllata), Eucalyptus oil (70%+ eucalyptol, also known as cineol), Fennel oil (Foeniculum vulgare), Garlic Oil (Allium sativum), Geranium oil (also known as Pelargonium graveolens), Lavender oil (Lavandula officinalis), Lemon eucalyptus (Corymbia citriodora) essential oil and its active ingredient p-menthane-3,8-diol (PMD), Lemongrass oil (Cymbopogon flexuosus), Marigolds (Tagetes species), Marjoram (Tetranychus urticae and Eutetranychus orientalis), Neem oil (Azadirachta indica), Oleic acid, Peppermint (Mentha x piperita), Pennyroyal (Mentha pulegium), Pyrethrum (from Chrysanthemum species, particularly C. cinerariifolium and C. coccineum), Rosemary oil (Rosmarinus officinalis), Spanish Flag Lantana camara (Helopeltis theivora), Solanum villosum berry juice, Tea tree oil (Melaleuca alternifolia) and Thyme (Thymus species) and mixtures thereof.
- Preferred encapsulated insect repellents are mosquito repellents available from Celessence, Rochester, England. Celessence Repel, containing the active ingredient Saltidin™ and Celessence Repel Natural, containing the active Citrepel™ 75. Saltidin is a man made molecule developed originally by the Bayer Corporation. Citrepel is produced from eucalyptus oils and is high in p-menthane-3,8-diol (PMD). A preferred non-encapsulated repellent is Citriodiol™ supplied by Citrefine.
- Another group of volatile benefit agents with which the present invention can be applied are the so-called 'aromatherapy' materials. These include components of essential oils such as Clary Sage, Eucalyptus, Geranium, Lavender, Mace Extract, Neroli, Nutmeg, Spearmint, Sweet Violet Leaf and Valerian.
- Phase change actives are materials that can absorb, store and release heat whilst the material changes its physical form. This is known as a phase change. Water changing from solid (ice) to liquid is an example of this phenomenon. During these phase changes large amounts of heat are absorbed or released.
- The phase change active has a thermal phase transition temperature (TPTT) in the range 24 to 39°C. The TPTT may conveniently be measured by the Perkin & Elmer thermal analysis system.
- The Perkin & Elmer thermal analysis system measures the heat flow into a material to be heated as a function of the temperature of the material. By investigating a material at various temperatures, a temperature profile is obtained. Such a temperature profile usually has one or more peaks, each peak corresponding to a maximum for the heat flow into the material at a specific temperature. The temperature corresponding to the major peak in the temperature profile is referred to as the thermal phase transition temperature. Generally a high TPTT corresponds to a high softening temperature of the material. The material has a TPTT in the range 24 to 39°C, preferably from 25 to 39°C, more preferably from 26 to 38°C and most preferably from 26 to 30°C.
- Phase change actives possess a latent heat and show a phase transition phenomena between phases at a phase transition temperature. The phase transition of the present invention incorporated solid to liquid, liquid to vapor, solid to vapor, gel to liquid-crystalline phase changes. In the present invention, preferable phase transitions are solid to liquid phase or liquid to solid phase changes. At these phase changes, PTMs reversibly absorb or release heat from the environment at around the phase transition temperature, which is accompanied with a corresponding change in the ambient temperature.
- The phase change active may be in the form of a composition (or mixture) provided that the total composition has a TPTT in the range 24 to 39°C, preferably from 25 to 39°C, more preferably from 26 to 38°C and most preferably from 26 to 30°C.
- Suitable compositions may comprise hydrocarbon materials comprising a linear or branched alkyl chain and preferably comprising an average of from 12 to 50 carbon atoms per molecule, preferably from 12 to 30 carbon atoms. Preferably, the hydrocarbon materials are either alkanes or alkenes. Relatively small amounts of non-alkyl substituent groups may be present provided the hydrocarbon nature of the product is not substantially affected. Mixtures of these materials may be used.
- Examples of suitable hydrocarbon materials for use in the hydrocarbon composition are the liquid hydrocarbon materials of natural source. Other liquid hydrocarbon materials including the liquid fractions derived from crude oil, such as mineral oil, liquid paraffins, cracked hydrocarbons and mixtures thereof. A preferred material is paraffin wax (n-Octadecane).
- Examples of solid or semi-solid hydrocarbon materials are the paraffinic materials of longer chain length, and hydrogenated versions of some of the liquid materials mentioned above.
- A particularly useful combination of hydrocarbon materials is a mixture of mineral oil (for example, M85 ex Daltons Company) and petroleum jelly (for example, Silkolene 910 ex Daltons), wherein the weight ratio of mineral oil to petroleum jelly is chosen such that the TPTT of the mixture is in the range of from 24 to 39 °C. In our experiments this result was obtained by using a ratio of mineral oil to petroleum jelly of less than 3:1, preferably from 2:1 to 1:3. The mineral oil was a liquid mixture of linear and branched hydrocarbons having an average number of carbon atoms per molecule of 26. Petroleum jelly was a semi-solid mixture of linear and branched hydrocarbons having an average number of carbon atoms per molecule of 26, and having a softening temperature of about 50°C.
- The encapsulated phase change active comprises a capsule and a phase change active. The capsule comprises a shell and a core. The capsule for the phase change material preferably has a shell that is permeable to the unconfined volatile benefit agent in the composition. A mixture of encapsulated phase change actives may be present.
- The phase change active is encapsulated in a polymer shell to form encapsulated particles having a preferred particle size of from 10 nm to 1000 µm, preferably 50 nm to 100 µm, more preferably 0.2 to 30 µm. The use of encapsulated materials has the advantage that the materials may be readily dispersed without interference or interaction with the fabric softener compound. An additional advantage in that the encapsulated material does not cause a "messiness" feeling when deposited on the fabric which may be present with materials of a semi-liquid nature.
- Suitable encapsulating polymers include those formed from melamine-formaldehyde or urea formaldehyde condensates, as well as similar types of aminoplasts. Additionally, capsules made via the simple or complex coacervation of gelatin are also preferred for use with the coating. Capsules having shell walls comprised of polyurethane, polyamide, polyolefin, polysaccaharide, protein, silicone, lipid, modified cellulose, gums, polyacrylate, polyphosphate, polystyrene, and polyesters or combinations of these materials are also functional.
- Further examples of suitable phase change actives are those materials disclosed in
WO 03/0144460 - A preferred material is Lurapret TX PMC 28 commercially available from BASF which is a material, specifically paraffin wax (comprising n-Octadecane), encapsulated in polymethylmethacrylate having a particle size in the range 0.2 to 20µm. This material has a phase transition temperature of about 28°C.
- The phase change actives are generally deposited to apply from 0.2 to 1 %, preferably 0.2 to 0.5 % by weight of the fabric after drying. The encapsulated phase change actives are preferably present in an amount of from 0.01 to 15 wt %, more preferably 0.01 to 10 wt %, even more preferably from 0.05 to 5 wt %, still more preferably from 0.05 to 2 wt %, more preferably still from 0.05 to 1 wt % and most preferably from 0.05 to 0.5 wt % by weight of the fabric softening composition.
- The encapsulated phase change material comprises a shell that is permeable to the unconfined volatile benefit agent in the composition. Suitable encapsulating polymers include those formed from melamine-formaldehyde or urea formaldehyde condensates, as well as similar types of aminoplasts. Additionally, capsules made via the simple or complex coacervation of gelatin are also preferred for use with the coating. Capsules having shell walls comprised of polyurethane, polyamide, polyolefin, polysaccaharide, protein, silicone, lipid, modified cellulose, gums, polyacrylate, polyphosphate, polystyrene, and polyesters or combinations of these materials are also suitable. A preferred material is polymethylmethacrylate.
- The composition of the invention comprises a fabric softening active.
- The fabric softening active is preferably different from the phase change active. Suitable fabric softening compounds are described below.
- The fabric conditioning agents (also referred to herein as a fabric softening active or compound) may be cationic, non-ionic or mixtures thereof.
- Fabric conditioning compositions in accordance with the invention may be dilute or concentrated. Dilute products typically contain up to about 8 %, generally about 2 to 8 % by weight of softening active, whereas concentrated products may contain up to about 50 wt %, preferably from about 8 to about 50 %, more preferably from 8 to 25 % by weight active. Overall, the products of the invention may contain from 2 to 50 wt %, preferably from 3 to 25 wt % of softening active.
- The preferred softening active for use in rinse conditioner compositions of the invention is a quaternary ammonium compound (QAC). The preferred quaternary ammonium fabric conditioner for use in compositions of the present invention are the so called "ester quats".
- Particularly preferred materials are the ester-linked triethanolamine (TEA) quaternary ammonium compounds comprising a mixture of mono-, di- and tri-ester linked components.
- Typically, TEA-based fabric softening compounds comprise a mixture of mono, di- and tri-ester forms of the compound where the di-ester linked component comprises no more than 70 % by weight of the fabric softening compound, preferably no more than 60 wt % of the fabric softening compound and at least 10 % of the monoester linked component.
- A first group of quaternary ammonium compounds (QACs) suitable for use in the present invention is represented by formula (I):
- Especially preferred agents are preparations which are rich in the di-esters of triethanolammonium methylsulphate, otherwise referred to as "TEA ester quats".
- Commercial examples include Stepantex™ UL85, ex Stepan, Prapagen™ TQL, ex Clariant, and Tetranyl™ AHT-1, ex Kao, (both di-[hardened tallow ester] of triethanolammonium methylsulphate), AT-1 (di-[tallow ester] of triethanolammonium methylsulphate), and L5/90 (di-[palm ester] of triethanolammonium methylsulphate), both ex Kao, and Rewoquat™ WE15 (a di-ester of triethanolammonium methylsulphate having fatty acyl residues deriving from C10-C20 and C16-C18 unsaturated fatty acids), ex Witco Corporation.
- Also, soft quaternary ammonium actives such as Stepantex VK90, Stepantex VT90, SP88 (ex-Stepan), Prapagen TQ (ex-Clariant), Dehyquart AU-57 (ex-Cognis), Rewoquat WE18 (ex-Degussa) and Tetranyl L190 P, Tetranyl L190 SP and Tetranyl L190 S (all ex-Kao) are suitable.
- A second group of QACs suitable for use in the invention is represented by formula (II):
- Preferred materials of this second group include 1,2 bis[tallowoyloxy]-3-trimethylammonium propane chloride, 1,2 bis[hardened tallowoyloxy]-3-trimethylammonium propane chloride, 1,2-bis[oleoyloxy]-3-trimethylammonium propane chloride, and 1,2 bis[stearoyloxy]-3-trimethylammonium propane chloride. Such materials are described in
US 4,137,180 (Lever Brothers ). Preferably, these materials also comprise an amount of the corresponding monoester. - A third group of QACs suitable for use in the invention is represented by formula (III):
(R1)2-N+-[(CH2)n-T-R2]2 X- (III)
wherein each R1 group is independently selected from C1-4 alkyl, or C2-4 alkenyl groups; and wherein each R2 group is independently selected from C8-28 alkyl or alkenyl groups; and n, T, and X- are as defined above. Preferred materials of this third group include bis(2-tallowoyloxyethyl)dimethyl ammonium chloride, partially hardened and hardened versions thereof. - The iodine value of the quaternary ammonium fabric conditioning material is preferably from 0 to 80, more preferably from 0 to 60, and most preferably from 0 to 45. The iodine value may be chosen as appropriate. Essentially saturated material having an iodine value of from 0 to 5, preferably from 0 to 1 may be used in the compositions of the invention. Such materials are known as "hardened" quaternary ammonium compounds.
- A further preferred range of iodine values is from 20 to 60, preferably 25 to 50, more preferably from 30 to 45. A material of this type is a "soft" triethanolamine quaternary ammonium compound, preferably triethanolamine di-alkylester methylsulphate. Such ester-linked triethanolamine quaternary ammonium compound comprise unsaturated fatty chains.
- Iodine value as used in the context of the present invention refers to the measurement of the degree of unsaturation present in a material by a method of nmr spectroscopy as described in Anal. Chem., 34, 1136 (1962) Johnson and Shoolery.
- A further type of softening compound is a non-ester quaternary ammonium material represented by formula (IV):-
- The compositions of the invention may contain a non-cationic softening material, which is preferably an oily sugar derivative. An oily sugar derivative is a liquid or soft solid derivative of a cyclic polyol (CPE) or of a reduced saccharide (RSE), said derivative resulting from 35 to 100 % of the hydroxyl groups in said polyol or in said saccharide being esterified or etherified. The derivative has two or more ester or ether groups independently attached to a C8-C22 alkyl or alkenyl chain.
- Advantageously, the CPE or RSE does not have any substantial crystalline character at 20°C. Instead it is preferably in a liquid or soft solid state as herein defined at 20°C.
- The liquid or soft solid (as hereinafter defined) CPEs or RSEs suitable for use in the present invention result from 35 to 100% of the hydroxyl groups of the starting cyclic polyol or reduced saccharide being esterified or etherified with groups such that the CPEs or RSEs are in the required liquid or soft solid state. These groups typically contain unsaturation, branching or mixed chain lengths.
- Typically the CPEs or RSEs have 3 or more ester or ether groups or mixtures thereof, for example 3 to 8, especially 3 to 5. It is preferred if two or more of the ester or ether groups of the CPE or RSE are independently of one another attached to a C8 to C22 alkyl or alkenyl chain. The C8 to C22 alkyl or alkenyl groups may be branched or linear carbon chains.
- Preferably 35 to 85 % of the hydroxyl groups, most preferably 40-80 %, even more preferably 45-75 %, such as 45-70 % are esterified or etherified.
- Preferably the CPE or RSE contains at least 35 % tri or higher esters, e.g. at least 40%.
- The CPE or RSE has at least one of the chains independently attached to the ester or ether groups having at least one unsaturated bond. This provides a cost effective way of making the CPE or RSE a liquid or a soft solid. It is preferred if predominantly unsaturated fatty chains, derived from, for example, rape oil, cotton seed oil, soybean oil, oleic, tallow, palmitoleic, linoleic, erucic or other sources of unsaturated vegetable fatty acids, are attached to the ester/ether groups.
- These chains are referred to below as the ester or ether chains (of the CPE or RSE).
- The ester or ether chains of the CPE or RSE are preferably predominantly unsaturated. Preferred CPEs or RSEs include sucrose tetratallowate, sucrose tetrarapeate, sucrose tetraoleate, sucrose tetraesters of soybean oil or cotton seed oil, cellobiose tetraoleate, sucrose trioleate, sucrose triapeate, sucrose pentaoleate, sucrose pentarapeate, sucrose hexaoleate, sucrose hexarapeate, sucrose triesters, pentaesters and hexaesters of soybean oil or cotton seed oil, glucose tiroleate, glucose tetraoleate, xylose trioleate, or sucrose tetra-,tri-, penta- or hexa- esters with any mixture of predominantly unsaturated fatty acid chains. The most preferred CPEs or RSEs are those with monounsaturated fatty acid chains, i.e. where any polyunsaturation has been removed by partial hydrogenation. However some CPEs or RSEs based on polyunsaturated fatty acid chains, e.g. sucrose tetralinoleate, may be used provided most of the polyunsaturation has been removed by partial hydrogenation.
- The most highly preferred liquid CPEs or RSEs are any of the above but where the polyunsaturation has been removed through partial hydrogenation.
- Preferably 40 % or more of the fatty acid chains contain an unsaturated bond, more preferably 50 % or more, most preferably 60% or more. In most cases 65 % to 100 %, e.g. 65 % to 95 % contain an unsaturated bond.
- CPEs are preferred for use with the present invention. Inositol is a preferred example of a cyclic polyol. Inositol derivatives are especially preferred.
- In the context of the present invention, the term cyclic polyol encompasses all forms of saccharides. Indeed saccharides are especially preferred for use with this invention. Examples of preferred saccharides for the CPEs or RSEs to be derived from are monosaccharides and disaccharides.
- Examples of monosaccharides include xylose, arabinose, galactose, fructose, sorbose and glucose. Glucose is especially preferred. Examples of disaccharides include maltose, lactose, cellobiose and sucrose. Sucrose is especially preferred. An example of a reduced saccharide is sorbitan.
- The liquid or soft solid CPEs can be prepared by methods well known to those skilled in the art. These include acylation of the cyclic polyol or reduced saccharide with an acid chloride; trans-esterification of the cyclic polyol or reduced saccharide fatty acid esters using a variety of catalysts; acylation of the cyclic polyol or reduced saccharide with an acid anhydride and acylation of the cyclic polyol or reduced saccharide with a fatty acid. See for instance
US 4 386 213 andAU 14416/88 - It is preferred if the CPE or RSE has 3 or more, preferably 4 or more ester or ether groups. If the CPE is a disaccharide it is preferred if the disaccharide has 3 or more ester or ether groups. Particularly preferred CPEs are esters with a degree of esterification of 3 to 5, for example, sucrose tri, tetra and penta esters.
- Where the cyclic polyol is a reducing sugar it is advantageous if each ring of the CPE has one ether or ester group, preferably at the C1 position. Suitable examples of such compounds include methyl glucose derivatives.
- Examples of suitable CPEs include esters of alkyl(poly)glucosides, in particular alkyl glucoside esters having a degree of polymerisation of 2.
- The length of the unsaturated (and saturated if present) chains in the CPE or RSE is C8-C22, preferably C12-C22. It is possible to include one or more chains of C1-C8, however these are less preferred.
- The liquid or soft solid CPEs or RSEs which are suitable for use in the present invention are characterised as materials having a solid:liquid ratio of between 50:50 and 0:100 at 20°C as determined by T2 relaxation time NMR, preferably between 43:57 and 0:100, most preferably between 40:60 and 0:100, such as, 20:80 and 0:100. The T2 NMR relaxation time is commonly used for characterising solid:liquid ratios in soft solid products such as fats and margarines. For the purpose of the present invention, any component of the signal with a T2 of less than 100 µs is considered to be a solid component and any component with T2 ≥ 100 µs is considered to be a liquid component.
- For the CPEs and RSEs, the prefixes (e.g. tetra and penta) only indicate the average degrees of esterification. The compounds exist as a mixture of materials ranging from the monoester to the fully esterified ester. It is the average degree of esterification which is used herein to define the CPEs and RSEs.
- The HLB of the CPE or RSE is typically between 1 and 3.
- Where present, the CPE or RSE is preferably present in the composition in an amount of 0.5-50% by weight, based upon the total weight of the composition, more preferably 1-30% by weight, such as 2-25%, e.g. 2-20%.
- The CPEs and RSEs for use in the compositions of the invention include sucrose tetraoleate, sucrose pentaerucate, sucrose tetraerucate and sucrose pentaoleate.
- Co-softeners may be used. When employed, they are typically present at from 0.1 to 20% and particularly at from 0.5 to 10%, based on the total weight of the composition. Preferred co-softeners include fatty esters, and fatty N-oxides. Fatty esters that may be employed include fatty monoesters, such as glycerol monostearate, fatty sugar esters, such as those disclosed
WO 01/46361 (Unilever - The compositions of the present invention may comprise a fatty complexing agent.
- Especially suitable fatty complexing agents include fatty alcohols and fatty acids. Of these, fatty alcohols are most preferred.
- Fatty complexing material may be used to improve the viscosity profile of the composition.
- Preferred fatty acids include hardened tallow fatty acid (available under the tradename Pristerene™, ex Uniqema). Preferred fatty alcohols include hardened tallow alcohol (available under the tradenames Stenol™ and Hydrenol™, ex Cognis and Laurex™ CS, ex Albright and Wilson).
- The fatty complexing agent is preferably present in an amount greater than 0.3 to 5% by weight based on the total weight of the composition. More preferably, the fatty component is present in an amount of from 0.4 to 4%. The weight ratio of the mono-ester component of the quaternary ammonium fabric softening material to the fatty complexing agent is preferably from 5:1 to 1:5, more preferably 4:1 to 1:4, most preferably 3:1 to 1:3, e.g. 2:1 to 1:2.
- The compositions of the present invention may further comprise a nonionic surfactant. Typically these can be included for the purpose of stabilising the compositions. These are particularly suitable for compositions comprising hardened quaternary ammonium compounds.
- Suitable nonionic surfactants include addition products of ethylene oxide and/or propylene oxide with fatty alcohols, fatty acids and fatty amines. Any of the alkoxylated materials of the particular type described hereinafter can be used as the nonionic surfactant.
- Suitable surfactants are substantially water soluble surfactants of the general formula:
R-Y-(C2H4O)z-CH2-CH2-OH
where R is selected from the group consisting of primary, secondary and branched chain alkyl and/or acyl hydrocarbyl groups (when Y = -C(O)O, R ≠ an acyl hydrocarbyl group); primary, secondary and branched chain alkenyl hydrocarbyl groups; and primary, secondary and branched chain alkenyl-substituted phenolic hydrocarbyl groups; the hydrocarbyl groups having a chain length of from 8 to about 25, preferably 10 to 20, e.g. 14 to 18 carbon atoms. - In the general formula for the ethoxylated nonionic surfactant, Y is typically:
-O-, -C(O)O-, -C(O)N(R)- or -C(O)N(R)R-
in which R has the meaning given above or can be hydrogen; and Z is at least about 8, preferably at least about 10 or 11. - Preferably the nonionic surfactant has an HLB of from about 7 to about 20, more preferably from 10 to 18, e.g. 12 to 16. Genapol™ C200 (Clariant) based on coco chain and 20 EO groups is an example of a suitable nonionic surfactant.
- If present, the nonionic surfactant is present in an amount from 0.01 to 10%, more preferably 0.1 to 5 by weight, based on the total weight of the composition.
- Optional shading dyes can be used. Preferred dyes are violet or blue. Suitable and preferred classes of dyes are discussed below. Moreover the unsaturated quaternary ammonium compounds are subject to some degree of UV light and/or transition metal ion catalysed radical auto-oxidation, with an attendant risk of yellowing of fabric. The presence of a shading dye also reduces the risk of yellowing from this source.
- Different shading dyes give different levels of colouring. The level of shading dye present in the compositions of the present invention depend, therefore, on the type of shading dye. Preferred overall ranges, suitable for the present invention are from 0.00001 to 0.1 wt %, more preferably 0.0001 to 0.01 wt %, most preferably 0.0005 to 0.005 wt % by weight of the total composition.
- Direct dyes (otherwise known as substantive dyes) are the class of water soluble dyes which have an affinity for fibres and are taken up directly. Direct violet and direct blue dyes are preferred.
- Preferably the dye are bis-azo or tris-azo dyes are used.
-
- ring D and E may be independently naphthyl or phenyl as shown;
- R1 is selected from: hydrogen and C1-C4-alkyl, preferably hydrogen;
- R2 is selected from: hydrogen, C1-C4-alkyl, substituted or unsubstituted phenyl and substituted or unsubstituted naphthyl, preferably phenyl;
- R3 and R4 are independently selected from: hydrogen and C1-C4-alkyl, preferably hydrogen or methyl;
- X and Y are independently selected from: hydrogen, C1-C4-alkyl and C1-C4-alkoxy; preferably the dye has X= methyl; and, Y = methoxy and n is 0, 1 or 2, preferably 1 or 2.
- Preferred dyes are direct violet 7, direct violet 9, direct violet 11, direct violet 26, direct violet 31, direct violet 35, direct violet 40, direct violet 41, direct violet 51, and direct violet 99. Bis-azo copper containing dyes such as direct violet 66 may be used.
- The benzidene based dyes are less preferred.
- Preferably the direct dye is present at 0.00001 wt% to 0.0010 wt% of the formulation.
- In another embodiment the direct dye may be covalently linked to the photo-bleach, for example as described in
WO2006/024612 . -
- wherein Ra, Rb, Rc and Rd are selected from: H, a branched or linear C1 to C7-alkyl chain, benzyl a phenyl, and a naphthyl;
- the dye is substituted with at least one SO3 - or -COO- group;
- the B ring does not carry a negatively charged group or salt thereof;
- and the A ring may further substituted to form a naphthyl;
- the dye is optionally substituted by groups selected from: amine, methyl, ethyl, hydroxyl, methoxy, ethoxy, phenoxy, Cl, Br, I, F, and NO2.
- Preferred azine dyes are: acid blue 98, acid violet 50, and acid blue 59, more preferably acid violet 50 and acid blue 98.
- Other preferred non-azine acid dyes are acid violet 17, acid black 1 and acid blue 29.
- Preferably the acid dye is present at 0.0005 wt% to 0.01 wt% of the formulation.
- The composition of the invention may comprise one or more hydrophobic dyes selected from benzodifuranes, methine, triphenylmethanes, napthalimides, pyrazole, napthoquinone, anthraquinone and mono-azo or di-azo dye chromophores. Hydrophobic dyes are dyes which do not contain any charged water solubilising group. Hydrophobic dyes may be selected from the groups of disperse and solvent dyes. Blue and violet anthraquinone and mono-azo dye are preferred.
- Preferred dyes include solvent violet 13, disperse violet 27 disperse violet 26, disperse violet 28, disperse violet 63 and disperse violet 77.
- Preferably the hydrophobic dye is present at 0.0001 wt% to 0.005 wt% of the formulation.
- Basic dyes are organic dyes which carry a net positive charge. They deposit onto cotton. They are of particular utility for used in composition that contain predominantly cationic surfactants. Dyes may be selected from the basic violet and basic blue dyes listed in the Colour Index International.
- Preferred examples include triarylmethane basic dyes, methane basic dye, anthraquinone basic dyes, basic blue 16, basic blue 65, basic blue 66, basic blue 67, basic blue 71, basic blue 159, basic violet 19, basic violet 35, basic violet 38, basic violet 48; basic blue 3, basic blue 75, basic blue 95, basic blue 122, basic blue 124, basic blue 141.
- Reactive dyes are dyes which contain an organic group capable of reacting with cellulose and linking the dye to cellulose with a covalent bond. They deposit onto cotton.
- Preferably the reactive group is hydrolysed or reactive group of the dyes has been reacted with an organic species such as a polymer, so as to the link the dye to this species. Dyes may be selected from the reactive violet and reactive blue dyes listed in the Colour Index International.
- Preferred examples include reactive blue 19, reactive blue 163, reactive blue 182 and reactive blue 96.
- Dye conjugates are formed by binding direct, acid or basic dyes to polymers or particles via physical forces.
- Dependent on the choice of polymer or particle they deposit on cotton or synthetics. A description is given in
WO2006/055787 . They are not preferred. - Particularly preferred dyes are: direct violet 7, direct violet 9, direct violet 11, direct violet 26, direct violet 31, direct violet 35, direct violet 40, direct violet 41, direct violet 51, direct violet 99, acid blue 98, acid violet 50, acid blue 59, acid violet 17, acid black 1, acid blue 29, solvent violet 13, disperse violet 27 disperse violet 26, disperse violet 28, disperse violet 63, disperse violet 77 and mixtures thereof.
- The compositions of the invention may contain one or more other ingredients. Such ingredients include further preservatives (e.g. bactericides), pH buffering agents, perfume carriers, hydrotropes, anti-redeposition agents, soil-release agents, polyelectrolytes, anti-shrinking agents, anti-wrinkle agents, anti-oxidants, sunscreens, anti-corrosion agents, drape imparting agents, anti-static agents, ironing aids, silicones, antifoams, colourants, pearlisers and/or opacifiers, natural oils/extracts, processing aids, e.g. electrolytes, hygiene agents, eg anti-bacterials and antifungals, thickeners and skin benefit agents.
- The Fabric softening compositions may also comprise viscosity modifiers. Suitable viscosity modifiers are disclosed, for example, in
WO 02/081611 US 2004/0214736 ,US 6827795 ,EP 0501714 ,US 2003/0104964 ,EP 0385749 andEP 331237 - The compositions of the present invention are preferably rinse-added softening compositions.
- The compositions have a pH ranging from about 2.5 to 6, preferably from about 2.5 to 4.5, most preferably about 2.5 to 2.8. The compositions of the invention may also contain pH modifiers such as hydrochloric acid or lactic acid.
- A composition of the invention is preferably in liquid form. The composition may be a concentrate to be diluted in a solvent, including water, before use. The composition may also be a ready-to-use (in-use) composition. Preferably the composition is provided as a ready to use liquid comprising an aqueous phase. The aqueous phase may comprise water-soluble species, such as mineral salts or short chain (C1-4) alcohols.
- The composition is preferably for use in the rinse cycle of a home textile laundering operation, where, it may be added directly in an undiluted state to a washing machine, e.g. through a dispenser drawer or, for a top-loading washing machine, directly into the drum. Alternatively, it can be diluted prior to use. The compositions may also be used in a domestic hand-washing laundry operation. It is also possible for the compositions of the present invention to be used in industrial laundry operations, e.g. as a finishing agent for softening new clothes prior to sale to consumers.
- Compositions of the invention can be prepared by any method suitable for preparing dispersed, emulsified systems. One method involves the forming of a molten premixture of the active materials in water at an elevated temperature, adding additional water to obtain the desired active concentration, and then cooling to ambient temperature. When desired, some minor ingredients such as electrolytes, colouring agents, etc. may be post-dosed. A second method involves the forming of the product by phase inversion of a water in hydrocarbon emulsion, wherein the cationic material is either part of the hydrocarbon phase or added as a separate predispersion. This method is advantageous, because this provides very finely divided hydrocarbon particles in the final product. In an alternative method the encapsulated phase change active may be post dosed in the form of an aqueous slurry.
- The capsules can be combined with the composition at any time during the preparation of the laundry treatment composition. The capsules can be added to the composition comprising the unconfined perfume or vice versa. For example, the capsules may be post dosed to a pre-made composition comprising the unconfined volatile benefit agent or may be combined with other ingredients such as water, during the preparation of the composition comprising the unconfined benefit agent.
- Embodiments of the invention will now be illustrated by the following non-limiting examples. Further modifications will be apparent to the person skilled in the art.
- Examples of the invention are represented by a number. Comparative examples are represented by a letter.
- Unless otherwise stated, amounts of components are expressed as a percentage of the total weight of the composition.
- Conditioner 1 and Comparative Example A were concentrated liquid fabric conditioners, comprising about 12 % of softening active.
- A is a commercially available fabric conditioner, with the brand name Comfort containing encapsulated perfume and free perfume.
- Encapsulated phase change material, Lurapret TX PMC 28, available from BASF was post dosed into fabric conditioner A at a level of 0.1 wt %, to form Conditioner 1.
- 100 % cotton terry towelling monitors were treated with Conditioner 1 and Comparative Example A using a method that simulated a domestic machine wash, as follows:-
- 1. 40 g of fabric was treated in 1000 ml of water containing 0.75 g of fabric conditioner (Conditioner 1 or Comparative Example A).
- 2. The fabric and liquor were then treated in a Tergotometer at 20°C for 10 minutes.
- 3. The fabric wash then spun in a Creda Debonair Autopump spin drier for 30 seconds and allowed to dry in air at ambient temperature.
- An untreated monitor was used as a control.
- The dry monitors were then assessed using a standard perfume test (blind sequential monadic, randomised, using 8 expert assessors). Assessments were made both prior to rubbing and after rubbing.
Table 2: Perfume intensity of washed only fabric (control), and fabric treated with comparative example A and Conditioner 1. Perfume intensity upon Shear1 No Treatment (control) 0.21875 A 0.6875 1 2.15625 At 95 % confidence limits 0.3098477 1Perfume intensity upon shear = difference in perfume intensity between un-rubbed and rubbed fabric. - The higher the number, the higher the perfume intensity.
- It will be seen that fabric treated in accordance with the invention provided improved perfume boost.
- The boost on rubbing for 1 is significantly larger than that for comparative example A. This is a surprising effect given the low level of encapsulated phase change material used in the composition.
Claims (15)
- A fabric conditioning composition, which comprises:(i) an encapsulated volatile benefit agent;(ii) an encapsulated phase change active, said phase change active having a phase change temperature of from 24 to 39°C;(iii) at least one softening agent selected from a cationic softening agent, a non-ionic softening agent and mixtures thereof; and(iv) a non-encapsulated volatile benefit agent.
- A composition according to any preceding claim, wherein the cationic softening agent is a quaternary ammonium compound.
- A composition according to claim 2, wherein the quaternary ammonium compound is an ester-linked triethanolamine (TEA) quaternary ammonium compound comprising a mixture of mono-, di- and tri-ester linked components.
- A composition according to claim 1, wherein the nonionic softening agent is a sugar polyester.
- A composition according to any preceding claim, wherein the volatile benefit agent is selected from a perfume, insect repellent, aromatherapy oil, sensates such as menthol and an essential oil.
- A composition according to claim 5, wherein the volatile benefit agent is a perfume.
- A composition according to any preceding claim, wherein the volatile benefit agent is present in an amount of from 0.01 to 10 % by weight, based on the total weight of the composition.
- A composition according to any preceding claim, wherein the encapsulated phase change active is present in an amount of from 0.01 to 15 wt % by total weight of the composition.
- A composition according to any preceding claim, wherein the phase change active comprises hydrocarbon materials comprising a linear or branched alkyl chain comprising an average of from 12 to 50 carbon atoms per molecule.
- A composition according to claim 9, wherein the phase change active is selected from mineral oil, liquid paraffins, cracked hydrocarbons and mixtures thereof.
- A composition according to claim 10, wherein the phase change active is n-Octadecane.
- A composition according to claim 9, wherein the phase change active comprises a mixture of mineral oil and petroleum jelly.
- A composition according to any preceding claim, wherein the encapsulated phase change active has a particle size of from 10 nm to 1000 microns.
- A composition according to any preceding claim, which is a rinse added fabric conditioning composition.
- A process for treating fabric comprising the step of treating a fabric article with a composition as defined in any preceding claim.
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EP3390600B1 (en) * | 2015-12-15 | 2019-05-08 | Unilever Plc. | Fabric conditioning composition |
CN106049030A (en) * | 2016-06-27 | 2016-10-26 | 江苏田园新材料股份有限公司 | Finishing method of mosquito repelling pure cotton fabric |
WO2019141530A1 (en) | 2018-01-17 | 2019-07-25 | Unilever Plc | Laundry detergent |
CN111615551B (en) | 2018-01-17 | 2021-10-01 | 联合利华知识产权控股有限公司 | Laundry detergent |
EP3900696B1 (en) | 2020-04-21 | 2023-04-19 | Takasago International Corporation | Encapsulated fragrance composition |
CN112373136B (en) * | 2020-11-13 | 2023-04-25 | 苏州斯诺服饰有限公司 | Air layer fabric and jacket using same |
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GB8904749D0 (en) | 1989-03-02 | 1989-04-12 | Unilever Plc | Fabric softening composition |
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