CN1276004A - Mid-chain branched surfactands with cellulose derivatives - Google Patents

Mid-chain branched surfactands with cellulose derivatives Download PDF

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CN1276004A
CN1276004A CN 97182474 CN97182474A CN1276004A CN 1276004 A CN1276004 A CN 1276004A CN 97182474 CN97182474 CN 97182474 CN 97182474 A CN97182474 A CN 97182474A CN 1276004 A CN1276004 A CN 1276004A
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methyl
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alcohol
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胜田伦子
川崎江利子
村田将
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Procter and Gamble Co
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Abstract

The present invention relates to detergent compositions, for exmaple those useful for laundering fabrics, washing dishes, or cleaning hard surfaces, comprising; at least about 0.5% of a longer alkyl chain, mid-chain branched surfactant compounds; nd from about 0.001% to about 10%, by weight, of a cellulose derivative.

Description

The tensio-active agent of mid-chain branched and derivatived cellulose
Invention field
The present invention relates to comprise the detergent composition of a selected amount of derivatived cellulose and mid-chain branched tensio-active agent.This mid-chain branched tensio-active agent is the long alkyl chain mid-chain branched surfactant mixtures of being derived and being obtained by the hydrophilic group of mid-chain branched primary alkyl hydrophobic group and selection, this mixture comprises and has on average greater than 14.5 carbon atoms, be preferably greater than the primary alkyl hydrophobic group of the mid-chain branched of about 15 carbon atoms, this paper preferred surfactants is the primary alkyl sulphates tensio-active agent of mid-chain branched and the primary alkyl alkoxy sulfate surfactant of mid-chain branched.Therefore, the present invention relates to derivatived cellulose and be applicable to laundry and cleaning combination, the combination of the mid-chain branched surfactant mixture of particularly granular and liquid detergent composition.
Background of invention
Conventional detergent surfactant comprises having the substituting group (hydrophilic group) that is solubilized into water and the molecule of oleophylic substituting group (hydrophobic group).This tensio-active agent generally comprises hydrophilic group, for example carboxylate radical, sulfate radical, sulfonate radical, amine oxide, polyoxyethylene etc., and they are connected on alkyl, alkenyl or the alkaryl hydrophobic group that contains about 20 carbon atoms of the 10-that has an appointment usually.Therefore, the manufacturers of this tensio-active agent must utilize the hydrophobic group source that can connect required hydrophilic group by chemical process.Hydrophobic group source the earliest comprises natural fat and oil, and they change into soap (being the carboxylate radical hydrophilic group) by the saponification reaction with alkali.Oleum Cocois and plam oil still are used to prepare soap, and the tensio-active agent that is used to prepare alkyl-sulphate (" AS ") type.Other hydrophobic group can derive from petroleum chemicals, comprises alkylating benzene, and it is used to prepare alkyl benzene sulfonate surfactant (" LAS ").
There is some branching hydrophobic materials of documents claim to can be used to help preparation alkyl-sulphate detergent surfactant; Referring to: the U.S. Pat 3480556 of the deWitt that authorized on November 25th, 1969 etc. for example.Yet, confirm at this that β-branched surfactants of describing in the patent of ' 556 is being poor aspect some solubility parameters, confirm as Krafft temperature by them.Further confirming has the tensio-active agent of branching to have lower Krafft temperature at the carbochain center near hydrophobic materials, referring to: " the water character of tensio-active agent " (The AqueousPhase Behavior of Surfactants), R.G.Laughlin, Academic Press, the 347th page of N.Y. (1994).Therefore, confirmed that now this tensio-active agent is preferred for particularly cold water or cold water washing condition (for example 20 ℃-5 ℃).
Usually, alkyl-sulphate is that the technician in detergent surfactant field is known.Its effect of the alkyl-sulphate of being developed has than traditional soap surfactant improves and finds solvability and the surfactant properties that it has improvement.Straight-chain alkyl sulfate is the most normally used alkyl sulfate surfactant, and is easy to get most.For example, the straight-chain alkyl sulfate of long-chain, for example tallow alkyl vitriol is used in the detergent for washing clothes.But these tensio-active agents have the restriction of tangible cleaning performance, particularly for cold washing this trend are arranged.
In addition, as above-mentioned, 2-alkyl or " β " branched-alkyl vitriol are known.Except US3480556 discussed above, the EP684300 that EP439316 that announce 31 days more recent July in 1991 and November 29 nineteen ninety-five announce has described these β-branched-alkyl vitriol.Other recent scientific paper in branched-alkyl vitriol field comprises R.Varadaraj etc., physical chemistry magazine (J.Phys.Chem.), the 95th volume (1991), the 1671-1676 page or leaf, it has described the surface tension that various " straight chain Guerbet " and " branching Guerbet " type list surface-active agent comprise alkyl-sulphate." straight chain Guerbet " type mainly is " a Y shape ", in the 2-position branching is arranged, and this side chain is a long straight chain, as:
Figure A9718247400071
Wherein Z for example is OSO 3Na." branching Guerbet " type is 2-position branching equally, but it also has other substitution in side chain base, as: Wherein Z for example is OSO 3Na.Also referring to Varadaraj etc., colloid and interface science magazine (J.Colloid and Interface Sic.) the 140th volume (1990), the 31-34 page or leaf, it relates to tensio-active agent, comprises the C12 that contains 3 and 4 methyl branches respectively and the foaming data (especially referring to the 32nd page) of C13 alkyl-sulphate.
Known alkyl-sulphate also comprises: 1. primary alkyl sulphates, it is by the pure deutero-by propylene or n-butene oligopolymer are carried out the carbongl group synthesis reaction preparation, for example is described in the U.S. Pat 5245072 that transfers Mobil Corp..2. primary alkyl sulphates, it is by containing oleic lipid deutero-, for example so-called " iso stearyl " type; Referring to the EP401462A that transfers Henkel that announces December 12 nineteen ninety, it has described the pure and mild ethoxylation iso stearyl alcohol of some iso stearyl, and their sulfations generate corresponding alkyl-sulphate, for example iso stearyl sodium sulfate.3. primary alkyl sulphates, for example so-called " tridecyl " type, they obtain by carbongl group synthesis reaction then by with acid catalyst oligomerization propylene.4. primary alkyl sulphates, it is obtained by " Neodol " or " Dobanol " process alcohols: they are the products of oxo synthesis of linear internal or the products of oxo synthesis of straight chain a-alkene.This alkene is to close reaction formation a-alkene by ethylene oligomerization to obtain, and it directly is used or is formed internal olefin and replaced the internal olefin that obtains different chain length by isomerization.5. primary alkyl sulphates, under " Neodol " or " Dobanol " type of use catalyzer, derive and obtain by being different from the internal olefin that obtains of those raw materials that is generally used for preparation " Neodol " or " Dobanol " alcohol, described internal olefin is that the paraffinic hydrocarbon that origin comes from oil obtains through dehydrogenation; 6. primary alkyl sulphates, it is to be obtained by the routine of internal olefin (for example high pressure, cobalt-catalysis) carbongl group synthesis reaction, described internal olefin is that the paraffinic hydrocarbon that origin comes from oil obtains through dehydrogenation; 7. primary alkyl sulphates, it is to be obtained by the routine of a-alkene (for example high pressure, cobalt-catalysis) carbongl group synthesis reaction; 8. primary alkyl sulphates, it is for example by Procter ﹠amp by natural straight-chain fatty alcohol; GambleCo. those alcohol that are purchased obtain; 9. primary alkyl sulphates, it is for example to be obtained by those alcohol that Albermarle is purchased by Ziegler alcohol; 10. primary alkyl sulphates, it is that (function of this well-known catalysts is to make common alcohol slough two moles of hydrogen by common alcohol and Guerbet catalyzer, form corresponding aldehyde, in aldol condensation condensation they, and product dewatered, this product is a-, beta-unsaturated aldehyde, is generated the alkyl-branched primary alconol of 2-by hydrogenation then, and institute responds all in a reaction " still ") react and obtain; 11. primary alkyl sulphates, the dimerization cooperation by iso-butylene be with forming 2,4,4 '-trimethylammonium-1-amylene, and it forms aldehyde, obtains alcohol through the cooperation of aldol dimerization with, dehydration and reduction through carbongl group synthesis reaction, and being derived by this alcohol obtains described primary alkyl sulphates; 12. secondary alkyl sulfate, its addition reaction by sulfuric acid and a-or internal olefin obtains; 13. primary alkyl sulphates, its oxidizing reaction by the paraffinic hydrocarbon following steps obtains: (a) the oxidized petroleum wax hydrocarbon forms aliphatic carboxylic acid; (b) this carboxylic acid is reduced into corresponding primary alconol; 14. secondary alkyl sulfate, it forms secondary alcohol by the direct oxidation paraffinic hydrocarbon and obtains; 15. uncle or secondary alkyl sulfate, it is derived by various plasticizer alcohols and obtains, and generally is carbongl group synthesis reaction, aldol condensation, dehydration and hydrogenation (example of suitable oxo catalyst is conventional Co, or more nearest be the Rh catalyzer) by alkene; With the uncle or the secondary alkyl sulfate of 16. non-linear primary types, for example by the isolated phytol in natural product source, farnesol.
Yet, except this known alkyl-sulphate, also having big other a possible alkylsurfuric acid salt compound and mixture of group, their physical properties can make them maybe can not make them be used as the tensio-active agent of detergent for washing clothes.(I)-(XI) only listed some possible variations (salt only is meant common sodium salt):
Figure A9718247400101
These structures also are used to illustrate the term of this area: thereby, (I) be " straight chain " alkyl-sulphate.(I) also contrasting " primary " alkyl-sulphate with (VII), (VII) is " second month in a season " alkyl-sulphate.(II) also be that " primary " alkyl-sulphate-but it is " branching ".As in so-called " straight chain Guerbet " alkyl-sulphate, branching is in " 2-position " fully: initial with C1, count carbon routinely, and it is the carbon atom covalently bound with sulphate moiety.(III) can be used for representing any in a series of branched-chain alkyl vitriol, when e is that numerical value is 1 or during bigger integer, it only has " non--2-position branching ".According to conventional knowledge, for the straight chain surfactant compounds, hydrocarbon partly need have at least 12 carbon atoms at least, and preferably more a plurality of carbon atoms are with the detergency that obtains.Subscript a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p, q can be conditioned in principle to satisfy this requirement.Compound (VIII) is by naturally occurring branched-chain alcoho, phytol deutero-alkyl-sulphate.Compound (IX) is highly branched alkyl-sulphate, its can be for example by two polymerization iso-butylenes and this product is carried out carbongl group synthesis reaction obtain alcohol, and sulfation should prepare by alcohol.Compound (X), when q=14, it is the iso stearyl alkyl-sulphate; Another kind of so-called " iso stearyl " alkyl-sulphate has general structure (III), this compound can prepare by sulfated alcohols, described alcohol is obtained by a kind of monomer by product that two polymerizations have the oleic acid generation of 18 carbon atoms, i.e. d+e=14 in (III).Compound (XI) is " newly " alkyl-sulphate.(XII) and (XIII) be to describe " adjacent " respectively (XII) and " geminal " or " together with the position " (XIII) substructure of dimethyl-branched.This substructure mainly occurs in alkyl-sulphate and other tensio-active agent.In addition, conventional alkyl-sulphate can be saturated or undersaturated.For example oil base sodium sulfate is undersaturated alkyl-sulphate.Undersaturated alkyl-sulphate, for example oleyl sulfate is possible relatively costly and/or relative and detergent formulation, and those washing composition that particularly contain SYNTHETIC OPTICAL WHITNER are incompatible.
Except above structural changes, also can produce the mixture that has quaternary carbon atom at hydrophobic part, highly branched primary alkyl sulphates mixture is for example produced by the oxo alcohol of acid catalyzed polymerisation gasoline prepared in reaction by sulfation; In addition, steric isomerism may appear in many branched-alkyl vitriol, and this has further increased the number of kind; Industrial alkyl-sulphate can contain impurity, comprises corresponding alcohol, inorganic salt for example sodium sulfate, hydrocarbon and their synthetic cyclic side products.
A kind of known material is an iso stearyl sodium sulfate, and it is to have along the methyl of another straight chained alkyl skeletal distribution and/or the mixture of ethyl branch, and wherein the total carbon atom number order in whole molecule is about 18.This iso stearyl " mixture " is to prepare with low-yield by a kind of method that produces branching from natural matter (being Yatall MA, soybean etc.), and described branching is to take place in uncontrollable mode, and can change, and this depends on the source of raw material.The EP401462 that transfers Henkel that announces December 12 nineteen ninety has described the iso stearyl alcohol of the pure and mild ethoxylation of some iso stearyl, generate for example " iso stearyl sodium sulfate " (CAS34481-82-8 is sometimes referred to as " isooctadecane base sodium sulfate ") of corresponding alkyl-sulphate with their sulfations.
In addition, R.G.Laughlin is at " the water character of tensio-active agent " (The AqueousPhase Behavior of Surfactants), Academic Press, N.Y. described in (1994) the 347th pages and observed the centre that moves to the alkyl hydrophobic part along with branching from 2-alkyl position, Krafft temperature (solution for 15%) just decreases, and this solvability observed result does not have the surfactivity of relevant these compounds of prompting or them to mix purposes in the detergent composition.In fact, business practice and the document announced are all certainly to the needs in medium chain scope branching.This comprises the above-mentioned patent documentation of β-branched-alkyl vitriol of describing required branching, and Finger etc. " detergent alcohol-pure structure and molecular weight are to the influence of surfactant properties ", U.S. oiling scholar understands will (J.Amer.Oil Chemists ' Society), the 44th volume, the 525th page (1967) or Technical Bulletin, ShellChemical Co., SC:364-80.These reference are claimed about harmful structural changes possible in alcohol sulfate, i.e. " mobile CH3 has less influence ".Data in table show the nonbranched primary alcohol sulfate, with respect to the C13 chain length, and to the washing force reduction by 29% of cotton, foam reduces by 77%.JP721232 has described with the chain primary alkyl sulfate replaced C 11 linear primary alkyl-sulphates of not stipulating branching and has produced negative washing force in addition.
In addition, K.P.Wormuth and S.Zushma, Langmuir, the 7th volume, (1991) 2048-2053 pages or leaves have been described the technical study to many branched-chain alkyl vitriol, " Guerbet of branching " type particularly, and they are to be obtained by highly branched " Exxal " alcohol by the Exxon preparation.The lipophilic grade has been established in research mutually, promptly is hydrophobic grade, and is as follows: the two side chain>methyl-branched of highly branched ≈>straight chain.Claim that branched chain surfactant mixing oil and water are effective not as the straight chain tensio-active agent.The grade of efficient be straight chain>two side chains>>methyl-branched ≈ is highly branched.By these results, the branched-alkyl vitriol that can not indicate exploitation further to improve immediately significantly.
Therefore, break away from and how to obtain a kind of pure surfactant compounds than the another kind of simple technique theory that excellent cleaning force is arranged, the developer of the tensio-active agent of detergent for washing clothes and prescription Shi Bixu consider the possibility of multiple limited situation (being inconsistent sometimes), make great efforts then to provide to one or more the comprehensive improvement in a collection of standard, be included in the performance under the complex surfaces active agent intermixture, trend to cold washing, the variation of prescription, comprise washing assistant, enzyme and SYNTHETIC OPTICAL WHITNER, the various variations of human consumer custom and practice and to the demand of biological degradability.These preliminary explanations are provided in this article, and the alkyl-sulphate that exploitation is used for the improvement of detergent for washing clothes and cleaning products obviously is complicated challenge.
Particularly under cold water or cold water washing condition (for example 20 ℃-5 ℃), the long chain alkyl sulfates composition that preferably contains mid-chain branched is two or more the combination in these mid-chain branched primary alkyl sulphates tensio-active agents, this provides a kind of surfactant mixture, and it has higher surfactivity and have better low-temperature water-soluble than any single branched-alkyl vitriol.This mixture of being produced comprises and is used for the required mid-chain branched of surfactant mixture and can mixes by the tensio-active agent with each mid-chain branched of aequum and prepare.The mixture of this excellence is not limited to the combinations-of surfactants of other mid-chain branched (but preferred) them and can be suitable for and one or more other conventional washing agent tensio-active agent (for example, other primary alkyl sulphates; Linear alkylbenzene sulfonate; Alkyl ethoxylated sulfate; Nonionogenic tenside etc.) combination is to provide the surfactant system of improvement.
The tensio-active agent of these mid-chain branched high purity relatively obtains, and makes them bring effective commercial cost for the prescription teacher.Suitable product mixture can be obtained by the technology of using fossil fuel sources.(term " is obtained by mineral fuel " or " mineral fuel obtain " is to be used to distinguish coal, Sweet natural gas, oil and other petroleum chemicals of deriving and obtaining herein, by natural biogenic domestic animal or plant " synthesizing " tensio-active agent of producing of those raw materials of obtaining of coconut palm tree for example for example).
Design a kind of like this method, provide and be mainly the branching reaction product of (85%, or more) a-alkene, it is converted to hydrophobic materials in the carbongl group synthesis reaction operation then.This side chain a-alkene contains the total carbon atom of about 18 (on average) of the 11-that has an appointment, and comprises and have the straight chain of mean length 10-18 carbon atom scope.Side chain mainly is a list-methyl, but some two-methyl and some ethyl branching can take place.Advantageously, that this method produces is few (1%, or still less), and two branching " four " replace carbon, if promptly have also considerably less.In addition, few (being lower than about 20%) ortho position branching also takes place.Certainly, some in the total raw material that uses in follow-up carbonylic preparation method (about 20%) can keep not branching.Generally, consider from cleaning performance and biological degradability aspect, preferred this method is provided as the a-alkene of branched substances, and the average number of its side chain (in long-chain) is in the 0.4-2.5 scope, on 1,2 carbon potentials of the long-chain of this branched substances or do not have side chain basically on end carbon potential (position, end).
After side chain a-alkene formed and is refining, this raw material was through carbonylic synthesis technology.In this oxo process step, use can not be moved two keys from its original position catalyzer (for example Chang Gui cobalt-carbonyl).This has been avoided the formation of vinylidene intermediate (it finally produces disadvantageous tensio-active agent) and has made carrying out carbonylation on #1 and #2 carbon atom.
The detergent composition of now unexpectedly having determined to comprise the combination of a selected amount of derivatived cellulose and chain alkyl mid-chain branched surfactant compounds provides the cleaning combination with one or more advantages, is included in surfactivity bigger under the low use temperature, has improved water-fast hardness, surfactant system has higher effectiveness, improved from fabric to get on except that grease or human body dirt, improved with the consistency of detergent enzyme etc.Particularly, the combination of mid-chain branched tensio-active agent and a selected amount of derivatived cellulose unexpectedly provides whiteness to keep effect and has improved from fabric, particularly breaks away from dirt on the cotton fabric.
Background technology
The US3480556 of the deWitt that on November 25th, 1969 authorized etc., the EP684300 of the Lever that the EP439316 of the Lever that on July 31st, 1991 announced and November 29 nineteen ninety-five announce has described β-branched-chain alkyl vitriol.EP439316 has described some detergent for washing clothes, and it contains specific merchant sells C14/C15 chain primary alkyl sulfate, i.e. LIAL 145 vitriol.It is believed that the 2-position has 61% branching; Wherein 30% relates to and has 4 or the hydrocarbon chain branching of more a plurality of carbon atoms.US3480556 has described the mixture of primary alcohol sulfate, of β-branching (2-position branching) of the following formula of the linear primary alkyl-sulphate that contains 10-90 part and 90-10 part:
Figure A9718247400141
Wherein total carbon atom number is in the 12-20 scope, and R1 is the straight chained alkyl that contains 9-17 carbon atom, and R2 is the straight chained alkyl (being exemplified as 67%2-methyl and 33%2-ethyl branching) that contains 1-9 carbon atom.
As mentioned above, R.G.Laughlin is at " the water character of tensio-active agent " (TheAqueous Phase Behavior of Surfactants), Academic Press, N.Y. described in (1994) the 347th pages and observed the centre that moves to the alkyl hydrophobic part along with collateralization from 2-alkyl position, the Krafft temperature just decreases.Also referring to " detergent alcohol-pure structure and molecular weight are to the influence of surfactant properties " of Finger etc., U.S. oiling scholar understands will (J.Amer.Oil Chemists ' Society), the 44th volume, the 525th page (1967) and Technical Bulletin, Shell Chemical Co., SC:364-80.
The EP342917A of the Unilever that on November 23rd, 1989 announced has described the detergent for washing clothes that contains surfactant system, wherein main anion surfactant is an alkyl-sulphate, claim that it has the alkyl chain length (experiment shows the tensio-active agent that relates to cocounut oil and butter mixing chain length) of " wide region ".
US4102823 and GB1399966 have described other laundry composition that contains conventional alkyl-sulphate.
The GB1299966 of the Matheson that on July 2nd, 1975 announced etc. discloses detergent composition, and wherein surfactant system is made up of the mixture of tallow alkyl sodium sulfate and nonionogenic tenside.
Methyl substituted vitriol comprises known " iso stearyl " vitriol; They have the mixture of the heterogeneous vitriol of 18 carbon atoms altogether typically.For example, the EP401462A that transfers Henkel that announces December 12 nineteen ninety has described pure and mild their sulfations of the pure and mild ethoxylation iso stearyl of some iso stearyl and has produced for example iso stearyl sodium sulfate of corresponding alkyl-sulphate.Also referring to K.R.Wormuth and S.Zushma, Langmuir, the 7th volume (1991), 2048-2053 page or leaf (to multiple branched-chain alkyl vitriol, the particularly technical study of " Guerbet of branching " type); R.Varadaraj etc., physical chemistry magazine (J.Phys.Chem.), the 95th volume (1991), 1671-1676 page or leaf (surface tension that it has described multiple " straight chain Guerbet " and " side chain Guerbet " type list surface-active agent comprises alkyl-sulphate); Varadaraj etc., colloid and interface science magazine (J.Colloidand Interface Sic.) the 140th volume (1990), the 31-34 page or leaf, (it relates to tensio-active agent, comprises the C12 that contains 3 and 4 methyl branches respectively and the foam data of C13 alkyl-sulphate); With Varadaraj etc., Langmuir, the 6th volume (1990) 1376-1378 pages or leaves (it has described tensio-active agent, comprises the micropolar of the micellar aqueous solution of branched-chain alkyl vitriol).
" straight chain Guerbet " alcohol can obtain from Henkel, for example EUTANOL G-16.
The primary alkyl sulphates that is obtained by the alcohol for preparing by the carbongl group synthesis reaction to propylene or n-butene oligopolymer is described among the US5245072 that transfers Mobil Corp..Also referring to US5284989 (a kind of method for preparing basic straight chain hydrocarbon of transferring Mobil Oil Corp., by at high temperature, under the siliceous acid zeolite of conditional medium hole, the oligomerization light alkene), with the US5026933 that transfers Mobil Oil Corp. and US4870038 (a kind of method for preparing basic straight chain hydrocarbon, by at high temperature, under siliceous acid ZSM-23 zeolite, the oligomerization light alkene).
Also referring to tensio-active agent science book series (Surfactant ScienceSeries), Marcel Dekker, N.Y. (each is rolled up, comprise that exercise question is those of " anion surfactant " and " tensio-active agent biological degradation ", the latter is by the R.D.Swisher work, second edition was published in 1987, the 18th volume; Especially referring to 20-24 page or leaf " hydrophobic group and its source "; 28-29 page or leaf " alcohol ", 34-35 page or leaf " primary alkyl sulphates " and 35-36 page or leaf " secondary alkyl sulfate "); " senior " or " washing composition " pure document with about typically preparing alkyl-sulphate comprises: CEH Marketing Research Report " detergent alcohol ", R.F.Modler etc., Chemical Economics Handbook,, 609.5000-609.5002 in 1993; " chemical technology encyclopaedia " of Kirk Othmer (Kirk Othmer ' sEncyclopedia of Chemical Techno1ogy), the 4th edition, Wiley, N.Y., 1991, " high fatty alcohol " the 1st volume, 865-913 page or leaf and reference wherein.
Summary of the invention
The present invention relates to detergent composition, for example be applicable to those detergent composition of laundering of textile fabrics, wash dining set or cleaning crust, it comprises: (a) at least about 0.5%, preferably at least about 5%, more preferably at least about 10%, even more preferably at least about 20% weight long alkyl chain mid-chain branched surfactant compounds; (b) about 0.001%-10%, preferably about 0.01%-5%, the more preferably from about plain derivative of 0.1%-2% weight fibres.
(a) the long alkyl chain mid-chain branched surfactant compounds in has formula:
A b-X-B is wherein: (a) A bBe hydrophobic C9-C22 (total carbon atom number of this part), the moieties of preferably about C12-C18 mid-chain branched, it has: (1) and-the longest linear carbochain 8-21 carbon atom scope that X-B partly is connected; (2) one or more C of branching on this longest linear carbochain 1-C 3Moieties; (3) at least one branched-chain alkyl part directly with the longest linear carbochain on the 2-carbon location (from-carbon #1 number that X-B partly is connected) to the carbon atom connection between ω-2 carbon location (end carbon atom deducts 2 carbon, promptly from the 3rd carbon atom of longest linear carbochain end); (4) A of this surfactant composition following formula b-X partly has average total carbon atom number for greater than 14.5-about 18 (it is about 17.5 to be preferably greater than 14.5-, more preferably from about 15-17); (b) B is a hydrophilic segment; it is selected from vitriol; sulfonate; amine oxide; polyoxyalkylene (for example polyoxyethylene and polyoxypropylene); oxyalkylated vitriol; the poly-hydroxy part; phosphoric acid ester; glycerol sulfonate; poly-gluconate; poly phosphate; phosphonate; sulfosuccinate; sulphosuccinamate; the poly-alkoxylation carboxylate salt; glucamide; taurate; sarcosinate; glycinate; isethionate; di alkanolamide; monoalkylol amide; monoalkylol amide vitriol; the Diethylene Glycol acid amides; Diethylene Glycol acid amides vitriol; glyceryl ester; sulphate of glyceryl ester; glyceryl ether; glycerol ether sulfate; polyglyceryl ether; polyglyceryl ether vitriol; sorbitan ester; the poly-alkoxylation sorbitan ester; amino alkane sulfonate (ammonioalkanesulfonate); amido propyl betaine; the alkylation quaternary ammonium salt; alkylation/polyhydroxy alkyl quaternary ammonium salt; the alkylation quaternary ammonium salt; alkylation/polyhydroxylated oxygen propyl group quaternary ammonium salt; tetrahydroglyoxaline; 2-base-succinate; sulfonated alkyl ester and alpha-sulfonated fatty acid [will be appreciated that; on B, can connect more than a hydrophobic part, for example (Ab-X) 2-B obtains dimethyl four substituents]; Be selected from X-CH 2-and-C (O)-.
A in the following formula further preferably bPart does not have any quaternary carbon atom composition of (promptly 4 carbon atoms directly connect a carbon atom).
The preferred detergent surfactant composition of the present invention comprises the mid-chain branched surfactant compounds of the long alkyl chain of following formula, wherein A bPart is the branched primary alkyl part with following formula:
Figure A9718247400171
Wherein the branched primary alkyl part in this formula (comprises R, R 1And R 2Side chain) total carbon atom number in is 13-19; R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl (preferable methyl), condition are R, R 1And R 2Not all be hydrogen and when z is 0, R or R at least 1Not hydrogen; W is the integer of 0-13; X is the integer of 0-13; Y is the integer of 0-13; Z is the integer of 0-13; And w+x+y+z is 7-13.
The present invention goes back the mid-chain branched surfactant compounds that the preferred surfactants composition comprises the long alkyl chain of following formula, wherein A bPart is to have branched primary alkyl part or its mixture that is selected from following formula:
Figure A9718247400172
Wherein a, b, d and e are integers, and a+b is 10-16, and d+e is 8-14, and in addition wherein: when a+b=10, a is the integer of 2-9 and the integer that b is 1-8; When a+b=11, a is the integer of 2-10 and the integer that b is 1-9; When a+b=12, a is the integer of 2-11 and the integer that b is 1-10; When a+b=13, a is the integer of 2-12 and the integer that b is 1-11; When a+b=14, a is the integer of 2-13 and the integer that b is 1-12; When a+b=15, a is the integer of 2-14 and the integer that b is 1-13; When a+b=16, a is the integer of 2-15 and the integer that b is 1-14; When d+e=8, d is the integer of 2-7 and the integer that e is 1-6; When d+e=9, d is the integer of 2-8 and the integer that e is 1-7; When d+e=10, d is the integer of 2-9 and the integer that e is 1-8; When d+e=11, d is the integer of 2-10 and the integer that e is 1-9; When d+e=12, d is the integer of 2-11 and the integer that e is 1-10; When d+e=13, d is the integer of 2-12 and the integer that e is 1-11; When d+e=14, d is the integer of 2-13 and the integer that e is 1-12.
Unless otherwise indicated, all percentage ratios of this paper, ratio and ratio are by weight.Unless otherwise indicated, all temperature be meant degree centigrade (℃).The relevant portion of all documents of quoting is quoted for referencial use at this paper.
Detailed Description Of The Invention
The present invention relates to comprise the detergent composition of a selected amount of derivatived cellulose and long alkyl chain mid-chain branched surfactant compounds as described herein.Except the mid-chain branched tensio-active agent, also can comprise other detergent surfactant, but not require a part as detergent composition.A. mid-chain branched tensio-active agent
In this mid-chain branched surfactant composition, some branch point (promptly in following formula along R, R 1And/or R 2The chain position of part) more preferred than other branch point of promoting agent skeleton surfacewise.Following formula has illustrated the alkyl A of monomethyl branching bThe mid-chain branched scope of part (that is, branching takes place which point), preferred mid-chain branched scope and preferred mid-chain branched scope.
Figure A9718247400181
It should be noted that the tensio-active agent that replaces for monomethyl, these scopes got rid of chain two end carbon atoms and with-carbon atom that the X-B group is right after.
Following formula has illustrated the alkyl A that useful dimethyl replaces bThe mid-chain branched scope of part, preferred mid-chain branched scope and preferred mid-chain branched scope.
Below be described in more detail the preferred branched surfactants composition that is applicable in the cleaning combination according to of the present invention.(1) the primary alkyl sulphates tensio-active agent of mid-chain branched
Detergent surfactant composition of the present invention can comprise one or more, and preferably two or more have the primary alkyl sulphates tensio-active agent of the mid-chain branched of following formula:
Figure A9718247400192
This surfactant mixture comprises the have linear primary alkyl-sulphate chain backbone molecule of (the longest linear carbochain that promptly comprises Sulfated carbon atom).These alkyl chain skeletons comprise 12-19 carbon atom; Comprise with other this molecule and to have at least 14 carbon atoms altogether, but be no more than the branched primary alkyl part of 20 carbon atoms.In addition, this surfactant mixture partly has average total carbon atom number greater than 14.5-about 18 with regard to the primary alkyl of branching.Therefore, this surfactant mixture comprises the primary alkyl sulphates surfactant compounds of at least a branching, it has the longest linear carbochain that is no less than 12 carbon atoms or no more than 19 carbon atoms, must be at least 14 with the total number of carbon atoms of the carbon atom that comprises side chain, in addition, for the branched primary alkyl chain, average total carbon atom number is greater than 14.5-about 18.
For example, must to have 1,2 or 3 branching unit (be R, R to the primary alkyl sulphates tensio-active agent that has the carbon of C16 altogether of 13 carbon atoms in skeleton 1And/or R 2), the total number of carbon atoms is at least 16 in this molecule thus.In this example, altogether the requirement of C16 carbon can be on an equal basis by for example having a propyl group branching unit or three methyl-branched unit satisfy.
R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl (preferred hydrogen or C 1-C 2Alkyl, more preferably hydrogen or methyl, and most preferable), condition is R, R 1And R 2Not all be hydrogen.In addition, when z is 1, R or R at least 1Not hydrogen.
Although the surfactant composition of following formula does not comprise wherein R, R 1And R 2The unit all is the molecule (being the primary alkyl sulphates of straight chain non-branching) of hydrogen, but will be appreciated that this surfactant composition also can comprise the primary alkyl sulphates of the straight chain non-branching of a tittle.In addition, the primary alkyl sulphates tensio-active agent of this straight chain non-branching can be used as a kind of process results and exists, described technology is the surfactant mixture that is used to prepare the primary alkyl sulphates with one or more required mid-chain branched, or in order to prepare the purpose of detergent composition, the primary alkyl sulphates of the straight chain non-branching of a tittle can be sneaked in the final formula for a product.
In addition, recognize equally that the alcohol of the mid-chain branched of non-sulfuric acidization can account for a tittle of mid-chain branched surfactant composition.This material can exist because of the pure incomplete Sulfated result who is used to prepare alkyl sulfate surfactant, or these alcohol can be separately add in the detergent composition of the present invention with the alkyl sulfate surfactant of mid-chain branched.
M is the salifiable positively charged ion of hydrogen or shape, and this depends on synthetic method.The salifiable cationic example of shape is lithium, sodium, potassium, calcium, magnesium, have the tetra-allkylammonium of following formula:
Figure A9718247400201
R wherein 3, R 4, R 5And R 6Be hydrogen, C independently 1-C 22Alkylidene group, C 4-C 22Sub-branched alkyl, C 1-C 6Alkanol, C 1-C 22Alkylene group, C 4-C 22The branching alkylene group, and composition thereof.Preferred cation is ammonium (R 3, R 4, R 5And R 6All be hydrogen), sodium, potassium, one, two and three alkanol ammoniums, and composition thereof.The R of this list alkanol ammonium compound 3Be C 1-C 6Alkanol, R 4, R 5And R 6Be hydrogen; The R of dialkanol ammonium 3And R 4Be C 1-C 6Alkanol, R 5And R 6Be hydrogen; The R of three alkanol ammonium compounds 3, R 4And R 5Be C 1-C 6Alkanol, R 6Be hydrogen.Preferred alkanol ammonium salt is one, two and three quaternary ammonium compound: H with following formula 3N +CH 2CH 2OH, H 2N +(CH 2CH 2OH) 2, HN +(CH 2CH 2OH) 3Preferred M is a sodium, potassium and above-mentioned C 2The alkanol ammonium salt; Most preferably be sodium.
About following formula, w is the integer of 0-13 in addition; X is the integer of 0-13; Y is the integer of 0-13; Z is at least 1 integer; With w+x+y+z be the integer of 8-14.
Be used for preferred surfactants mixture of the present invention and have weight at least 0.001% by this mixture, more preferably at least 5%, most preferably one or more of at least 20% have the branched primary alkyl sulphates of following formula:
Figure A9718247400211
Total carbon atom number comprising side chain is 15-18, and in addition for this surfactant mixture, the average total carbon atom number in having the branched primary alkyl part of following formula is greater than 14.5-about 18; R 1And R 2Be hydrogen or C independently of one another 1-C 3Alkyl; M is a water-soluble cationic; X is 0-11; Y is 0-11; Z is at least 2; With x+y+z be 9-13; Condition is R 1And R 2Not all be hydrogen.More preferably contain the composition of the mixture of at least 5% the primary alkyl sulphates that comprises one or more mid-chain branched, wherein x+y equals 9, and z is at least 2.
The preferred surfactant mixture comprises at least 5% R 1And R 2Be the primary alkyl sulphates of the mid-chain branched of hydrogen, methyl independently, condition is R 1And R 2Not all be hydrogen; X+y equals 8,9 or 10, and z is at least 2.More preferably surfactant mixture comprises at least 20% R 1And R 2Be the primary alkyl sulphates of the mid-chain branched of hydrogen, methyl independently, condition is R 1And R 2Not all be hydrogen; X+y equals 8,9 or 10, and z is at least 2.
The preferred detergent composition according to the present invention, for example a kind of detergent composition that is applicable to laundering of textile fabrics, it comprises the primary alkyl sulphates surfactant mixtures of the mid-chain branched of about 0.001%-about 99%, and described mixture comprises alkyl-sulphate or its mixture that has two or more mid-chain branched of following formula at least about 5% (weight):
Figure A9718247400212
Wherein M represents one or more positively charged ions; A, b, d and e are integers, and a+b is 10-16, and d+e is 8-14, and in addition wherein: when a+b=10, a is the integer of 2-9 and the integer that b is 1-8; When a+b=11, a is the integer of 2-10 and the integer that b is 1-9; When a+b=12, a is the integer of 2-11 and the integer that b is 1-10; When a+b=13, a is the integer of 2-12 and the integer that b is 1-11; When a+b=14, a is the integer of 2-13 and the integer that b is 1-12; When a+b=15, a is the integer of 2-14 and the integer that b is 1-13; When a+b=16, a is the integer of 2-15 and the integer that b is 1-14; When d+e=8, d is the integer of 2-7 and the integer that e is 1-6; When d+e=9, d is the integer of 2-8 and the integer that e is 1-7; When d+e=10, d is the integer of 2-9 and the integer that e is 1-8; When d+e=11, d is the integer of 2-10 and the integer that e is 1-9; When d+e=12, d is the integer of 2-11 and the integer that e is 1-10; When d+e=13, d is the integer of 2-12 and the integer that e is 1-11; When d+e=14, d is the integer of 2-13 and the integer that e is 1-12.In addition, for this surfactant mixture, the average the total number of carbon atoms with branched primary alkyl part of following formula is greater than 14.5-about 18.
In addition, this mid-chain branched surfactant composition can comprise the mixture of the branched primary alkyl sulphates with following formula: Wherein the total number of carbon atoms that comprises side chain of each molecule is 14-20, and in addition, for this surfactant mixture, the average the total number of carbon atoms with branched primary alkyl part of following formula is greater than 14.5 to about 18; R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl, condition are R, R 1And R 2Not all be hydrogen; M is a water-soluble cationic; W is the integer of 0-13; X is the integer of 0-13; Y is the integer of 0-13; Z is at least 1 integer; With w+x+y+z be 8-14; Condition is to work as R 2Be C 1-C 3During alkyl, z equals 1 tensio-active agent and z to be 2 or to be at least about 1: 1 greater than the ratio of 2 tensio-active agent, preferably at least about 1: 5, more preferably at least about 1: 10, most preferably at least about 1: 100.Further preferably following surfactant composition is worked as R 2Be C 1-C 3During alkyl, it comprises and is less than approximately 20%, preferably is less than 10%, more preferably less than 5%, most preferably is less than the branched primary alkyl sulphates that the 1% wherein z with following formula equals 1.
The primary alkyl sulphates of preferred monomethyl branching is selected from: 3-methyl pentadecylic alcohol vitriol, 4-methyl pentadecylic alcohol vitriol, 5-methyl pentadecylic alcohol vitriol, 6-methyl pentadecylic alcohol vitriol, 7-methyl pentadecylic alcohol vitriol, 8-methyl pentadecylic alcohol vitriol, 9-methyl pentadecylic alcohol vitriol, 10-methyl pentadecylic alcohol vitriol, 11-methyl pentadecylic alcohol vitriol, 12-methyl pentadecylic alcohol vitriol, 13-methyl pentadecylic alcohol vitriol, 3-methyl cetyl alcohol sulfate, 4-methyl cetyl alcohol sulfate, 5-methyl cetyl alcohol sulfate, 6-methyl cetyl alcohol sulfate, 7-methyl cetyl alcohol sulfate, 8-methyl cetyl alcohol sulfate, 9-methyl cetyl alcohol sulfate, 10-methyl cetyl alcohol sulfate, 11-methyl cetyl alcohol sulfate, 12-methyl cetyl alcohol sulfate, 13-methyl cetyl alcohol sulfate, 14-methyl cetyl alcohol sulfate and its mixture.
Preferred dimethyl-branched primary alkyl sulphates is selected from: 2,3-methyl tetradecanol vitriol, 2,4-methyl tetradecanol vitriol, 2,5-methyl tetradecanol vitriol, 2,6-methyl tetradecanol vitriol, 2,7-methyl tetradecanol vitriol, 2,8-methyl tetradecanol vitriol, 2,9-methyl tetradecanol vitriol, 2,10-methyl tetradecanol vitriol, 2,11-methyl tetradecanol vitriol, 2,12-methyl tetradecanol vitriol, 2,3-methyl pentadecylic alcohol vitriol, 2,4-methyl pentadecylic alcohol vitriol, 2,5-methyl pentadecylic alcohol vitriol, 2,6-methyl pentadecylic alcohol vitriol, 2,7-methyl pentadecylic alcohol vitriol, 2,8-methyl pentadecylic alcohol vitriol, 2,9-methyl pentadecylic alcohol vitriol, 2,10-methyl pentadecylic alcohol vitriol, 2,11-methyl pentadecylic alcohol vitriol, 2,12-methyl pentadecylic alcohol vitriol, 2,13-methyl pentadecylic alcohol vitriol and its mixture.
The branched primary alkyl sulphates with a branching unit that below comprises 16 carbon atoms is the example of preferred branched surfactants:
5-methyl pentadecyl vitriol with following formula:
Figure A9718247400231
6-methyl pentadecyl vitriol with following formula:
Figure A9718247400232
7-methyl pentadecyl vitriol with following formula:
8-methyl pentadecyl vitriol with following formula:
Figure A9718247400242
9-methyl pentadecyl vitriol with following formula:
Figure A9718247400243
10-methyl pentadecyl vitriol with following formula:
Figure A9718247400244
M sodium preferably wherein.
The branched primary alkyl sulphates with two branching units that below comprises 17 carbon atoms is the example of preferred branched surfactants:
Have 2 of following formula, 5-dimethyl pentadecyl vitriol:
Have 2 of following formula, 6-dimethyl pentadecyl vitriol:
Figure A9718247400251
Have 2 of following formula, 7-dimethyl pentadecyl vitriol:
Figure A9718247400252
Have 2 of following formula, 8-dimethyl pentadecyl vitriol:
Figure A9718247400253
Have 2 of following formula, 9-dimethyl pentadecyl vitriol:
Figure A9718247400254
Have 2 of following formula, 10-dimethyl pentadecyl vitriol:
Figure A9718247400255
M sodium preferably wherein.(2) the poly-hydrogenation alkene tensio-active agent of the primary alkyl of mid-chain branched
This branched surfactants composition can comprise the primary alkyl polyoxyalkylene surfactants of one or more mid-chain branched with following formula:
This surfactant mixture comprises the have linear primary polyoxyalkylene chain backbone molecule of (the longest linear carbochain that promptly comprises oxyalkylated carbon atom).These alkyl chain skeletons comprise 12-19 carbon atom; Comprise with other this molecule and to have at least 14 carbon atoms altogether, but be no more than the branched primary alkyl part of 20 carbon atoms.In addition, this surfactant mixture partly has average total carbon atom number for greater than 14.5-about 18 with regard to the primary alkyl of branching.Therefore, this surfactant mixture comprises at least a polyoxyalkylene compounds, it has the longest linear carbochain that is no less than 12 carbon atoms or no more than 19 carbon atoms, must be at least 14 with the total number of carbon atoms that comprises side chain, in addition, for the branched primary alkyl chain, average total carbon atom number is greater than 14.5-about 18.
For example, in skeleton, have 15 carbon atoms the carbon of C16 altogether (in moieties) uncle polyoxyalkylene surfactants must have methyl-branched unit (R, R 1Or R 2Be methyl), the total number of carbon atoms is 16 in this molecule thus.
R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl (preferred hydrogen or C 1-C 2Alkyl, more preferably hydrogen or methyl, and most preferable), condition is R, R 1And R 2Not all be hydrogen.In addition, when z is 1, R or R at least 1Not hydrogen.
Although the surfactant composition of following formula does not comprise wherein R, R 1And R 2The unit all is the molecule (being uncle's polyoxyalkylene of straight chain non-branching) of hydrogen, but will be appreciated that this surfactant composition also can comprise uncle's polyoxyalkylene of the straight chain non-branching of a tittle.In addition, the result that uncle's polyoxyalkylene surfactants of this straight chain non-branching can be used as a kind of technology exists, described technology is the surfactant mixture that is used to prepare the uncle's polyoxyalkylene with required mid-chain branched, or in order to prepare the purpose of detergent composition, uncle's polyoxyalkylene of the straight chain non-branching of a tittle can be sneaked in the final formula for a product.
In addition, it should be understood that equally the alcohol of non-oxyalkylated mid-chain branched can account for a tittle of this composition that contains polyoxyalkylene.This material can exist because of the pure incomplete oxyalkylated result who is used to prepare polyoxyalkylene surfactants, or these alcohol can be separately add in the detergent composition of the present invention with the polyoxyalkylene surfactants of mid-chain branched.
In addition, about following formula, w is the integer of 0-13; X is the integer of 0-13; Y is the integer of 0-13; Z is at least 1 integer; With w+x+y+z be the integer of 8-14.
EO/PO is the alkoxyl group part, is preferably selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, more preferably oxyethyl group, and wherein m is at least about 1, and preferably in about 30 scopes of about 3-, more preferably from about 5-is about 20, and most preferably from about 5-about 15.(EO/PO) mPart can be that the average degree of alkoxylation that has corresponding to m distributes (for example ethoxylation and/or propoxylation), or it can be the single specific chains with accurate alkoxylate (for example ethoxylation and/or propoxylation) the unit numerical value corresponding to m.
This preferred surfactants mixture has at least 0.001% by the weight of this mixture, and more preferably at least 5%, most preferably one or more of at least 20% have the primary alkyl polyoxyalkylene of the mid-chain branched of following formula:
Figure A9718247400271
Total carbon atom number comprising side chain is 15-18, and in addition for this surfactant mixture, the average total carbon atom number in having the branched primary alkyl part of following formula is greater than 14.5-about 18; R 1And R 2Be hydrogen or C independently of one another 1-C 3Alkyl; X is 0-11; Y is 0-11; Z is at least 2; With x+y+z be 9-13; Condition is R 1And R 2Not all be hydrogen; With EO/PO be the alkoxyl group part, it is selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, more preferably oxyethyl group, wherein m is at least approximately 1, it is about 30 to be preferably about 3-, more preferably from about 5-is about 20, most preferably from about 5-about 15.More preferably contain the composition of mixture of at least 5% the uncle's polyoxyalkylene that comprises one or more mid-chain branched, wherein z is at least 2.
Preferably, surfactant mixture comprises at least 5%, preferably at least about 20% R 1And R 2Be the primary alkyl polyoxyalkylene of the mid-chain branched of hydrogen or methyl independently, condition is R 1And R 2Not all be hydrogen; X+y equals 8,9 or 10, and z is at least 2.
The preferred detergent composition according to the present invention, for example a kind of detergent composition that is applicable to laundering of textile fabrics, it comprises the mixture of the primary alkyl polyoxyalkylene surfactants of about 99% mid-chain branched of about 0.001%-, and described mixture comprises alkyl polyoxyalkylene or its mixture that has one or more mid-chain branched of following formula at least about 5% (weight): Wherein a, b, d and e are integers, and a+b is 10-16, and d+e is 8-14, and in addition wherein: when a+b=10, a is the integer of 2-9 and the integer that b is 1-8; When a+b=11, a is the integer of 2-10 and the integer that b is 1-9; When a+b=12, a is the integer of 2-11 and the integer that b is 1-10; When a+b=13, a is the integer of 2-12 and the integer that b is 1-11; When a+b=14, a is the integer of 2-13 and the integer that b is 1-12; When a+b=15, a is the integer of 2-14 and the integer that b is 1-13; When a+b=16, a is the integer of 2-15 and the integer that b is 1-14; When d+e=8, d is the integer of 2-7 and the integer that e is 1-6; When d+e=9, d is the integer of 2-8 and the integer that e is 1-7; When d+e=10, d is the integer of 2-9 and the integer that e is 1-8; When d+e=11, d is the integer of 2-10 and the integer that e is 1-9; When d+e=12, d is the integer of 2-11 and the integer that e is 1-10; When d+e=13, d is the integer of 2-12 and the integer that e is 1-11; When d+e=14, d is the integer of 2-13 and the integer that e is 1-12.In addition, for this surfactant mixture, the average the total number of carbon atoms with branched primary alkyl part of following formula is greater than 14.5-about 18; With EO/PO be the alkoxyl group part, it is selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, wherein m is at least approximately 1, it is about 30 to be preferably about 3-, more preferably from about 5-is about 20, most preferably from about 5-about 15.
In addition, this surfactant composition can comprise the mixture of the branched primary alkyl polyoxyalkylene with following formula:
Figure A9718247400282
Wherein the total number of carbon atoms that comprises side chain of each molecule is 14-20, and in addition, for this surfactant mixture, the average the total number of carbon atoms with branched primary alkyl part of following formula is greater than 14.5 to about 18; R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl, condition are R, R 1And R 2Not all be hydrogen; W is the integer of 0-13; X is the integer of 0-13; Y is the integer of 0-13; Z is at least 1 integer; With w+x+y+z be 8-14; EO/PO is the alkoxyl group part, and it is preferably selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, and wherein m is at least approximately 1, and preferably about 3-is about 30, and more preferably from about 5-is about 20, and most preferably from about 5-about 15; Condition is to work as R 2Be C 1-C 3During alkyl, z equals 2 or be that the ratio of 1 tensio-active agent is at least about 1: 1 greater than 2 tensio-active agent and z, preferably at least about 1.5: 1, more preferably at least about 3: 1, most preferably at least about 4: 1.Further preferably following surfactant composition: work as R 2Be C 1-C 3During alkyl, it comprises and is less than approximately 50%, preferably is less than approximately 40%, more preferably less than about 25%, most preferably is less than the branched primary alkyl polyoxyalkylene that the about 20% wherein z with following formula equals 1.
The primary alkyl ethoxylate of preferred monomethyl branching is selected from: 3-methyl pentadecylic alcohol ethoxylate, 4-methyl pentadecylic alcohol ethoxylate, 5-methyl pentadecylic alcohol ethoxylate, 6-methyl pentadecylic alcohol ethoxylate, 7-methyl pentadecylic alcohol ethoxylate, 8-methyl pentadecylic alcohol ethoxylate, 9-methyl pentadecylic alcohol ethoxylate, 10-methyl pentadecylic alcohol ethoxylate, 11-methyl pentadecylic alcohol ethoxylate, 12-methyl pentadecylic alcohol ethoxylate, 13-methyl pentadecylic alcohol ethoxylate, 3-methyl cetyl alcohol ethoxylate, 4-methyl cetyl alcohol ethoxylate, 5-methyl cetyl alcohol ethoxylate, 6-methyl cetyl alcohol ethoxylate, 7-methyl cetyl alcohol ethoxylate, 8-methyl cetyl alcohol ethoxylate, 9-methyl cetyl alcohol ethoxylate, 10-methyl cetyl alcohol ethoxylate, 11-methyl cetyl alcohol ethoxylate, 12-methyl cetyl alcohol ethoxylate, 13-methyl cetyl alcohol ethoxylate, 14-methyl cetyl alcohol ethoxylate and its mixture, wherein compound is by ethoxylation, and its average degree of ethoxylation is about 5-about 15.
Preferred dimethyl-branched primary alkyl ethoxylate is selected from: 2,3-methyl tetradecanol ethoxylate, 2,4-methyl tetradecanol ethoxylate, 2,5-methyl tetradecanol ethoxylate, 2,6-methyl tetradecanol ethoxylate, 2,7-methyl tetradecanol ethoxylate, 2,8-methyl tetradecanol ethoxylate, 2,9-methyl tetradecanol ethoxylate, 2,10-methyl tetradecanol ethoxylate, 2,11-methyl tetradecanol ethoxylate, 2,12-methyl tetradecanol ethoxylate, 2,3-methyl pentadecylic alcohol ethoxylate, 2,4-methyl pentadecylic alcohol ethoxylate, 2,5-methyl pentadecylic alcohol ethoxylate, 2,6-methyl pentadecylic alcohol ethoxylate, 2,7-methyl pentadecylic alcohol ethoxylate, 2,8-methyl pentadecylic alcohol ethoxylate, 2,9-methyl pentadecylic alcohol ethoxylate, 2,10-methyl pentadecylic alcohol ethoxylate, 2,11-methyl pentadecylic alcohol ethoxylate, 2,12-methyl pentadecylic alcohol ethoxylate, 2,13-methyl pentadecylic alcohol ethoxylate and its mixture, wherein compound is by ethoxylation, and its average degree of ethoxylation is about 5-about 15.(3) primary alkyl alkoxy sulfate surfactant of mid-chain branched
This branched surfactants composition can comprise the primary alkyl alkoxy sulfate that one or more (preferably two or more mixtures) have the mid-chain branched of following formula:
This surfactant mixture comprises the have linear primary alkoxy sulfate chain backbone molecule of (the longest linear carbochain that promptly comprises alkoxyl group-Sulfated carbon atom).These alkyl chain skeletons comprise 12-19 carbon atom; Comprise with other this molecule and to have at least 14 carbon atoms altogether, but be no more than the branched primary alkyl part of 20 carbon atoms.In addition, this surfactant mixture partly has average total carbon atom number for greater than 14.5-about 18 with regard to the primary alkyl of branching.Therefore, this mixture comprises at least a alkoxy sulfate compound, it has the longest linear carbochain that is no less than 12 carbon atoms or no more than 19 carbon atoms, must be at least 14 with the total number of carbon atoms that comprises side chain, in addition, for the branched primary alkyl chain, average total carbon atom number is greater than 14.5-about 18.
For example, the primary alkyl alkoxy sulfate surfactant that has the carbon of C16 altogether (in alkyl chain) of 15 carbon atoms in skeleton must have methyl-branched unit (R, R 1Or R 2Be methyl), the total number of carbon atoms in the primary alkyl part of this molecule is 16 thus.
R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl (preferred hydrogen or C 1-C 2Alkyl, more preferably hydrogen or methyl, and most preferable), condition is R, R 1And R 2Not all be hydrogen.In addition, when z is 1, R or R at least 1Not hydrogen.
Although the surfactant composition of following formula does not comprise wherein R, R 1And R 2The unit all is the molecule (being uncle's alkoxy sulfate of straight chain non-branching) of hydrogen, but will be appreciated that this surfactant composition also can comprise uncle's alkoxy sulfate of the straight chain non-branching of a tittle.In addition, the result that uncle's alkoxy sulfate surfactant of this straight chain non-branching can be used as a kind of technology exists, described technology is the surfactant mixture that is used to prepare the uncle's alkoxy sulfate with required mid-chain branched, or in order to prepare the purpose of detergent composition, uncle's alkoxy sulfate of the straight chain non-branching of a tittle can be sneaked in the final formula for a product.
The alkyl-sulphate that also will be appreciated that the mid-chain branched of a tittle may reside in the composition.This generally be since the alcohol of the used mid-chain branched of the alkoxy sulfate that is suitable for of preparation the present invention after incomplete alkoxylate, the Sulfated result of remaining non-oxyalkylated alcohol.But will be appreciated that, also can consider in the present composition, to add separately the alkyl-sulphate of this mid-chain branched.
In addition, it should be understood that equally the alcohol of the mid-chain branched of non-sulfuric acidization can account for (comprising the polyoxygenated enol) tittle of the composition that contains alkoxy sulfate.This material is can be because of the alcohol (alkoxylate or non-oxyalkylated) that is used to prepare alkoxy sulfate surfactant incomplete Sulfated result exist, or these alcohol can be separately add in the detergent composition of the present invention with the alkoxy sulfate surfactant of mid-chain branched.
M as mentioned above.
About following formula, w is the integer of 0-13 in addition; X is the integer of 0-13; Y is the integer of 0-13; Z is at least 1 integer; With w+x+y+z be the integer of 8-14.
EO/PO is the alkoxyl group part, is preferably selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, and wherein m is at least approximately 0.01, and preferably about 0.1-is about 30, and more preferably from about 0.5-is about 10, and most preferably from about 1-about 5.(EO/PO) mPart can be that the average degree of alkoxylation that has corresponding to m distributes (for example ethoxylation and/or propoxylation), or it can be the single specific chains with accurate alkoxylate (for example ethoxylation and/or propoxylation) the unit numerical value corresponding to m.
The preferred surfactants mixture has at least 0.001%, and more preferably at least 5%, most preferably one or more of at least 20% (weight) have the mixture of primary alkyl alkoxy sulfate of the mid-chain branched of following formula: Total carbon atom number comprising side chain is 15-18, and in addition for this surfactant mixture, the average total carbon atom number in having the branched primary alkyl part of following formula is greater than 14.5-about 18; R 1And R 2Be hydrogen or C independently of one another 1-C 3Alkyl; M is a water-soluble cationic; X is 0-11; Y is 0-11; Z is at least 2; With x+y+z be 9-13; Condition is R 1And R 2Not all be hydrogen; With EO/PO be the alkoxyl group part, it is selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, wherein m is at least approximately 0.01, preferably about 0.1-is about 30, more preferably from about 0.5-is about 10, most preferably from about 1-about 5.More preferably contain at least 5% comprise one or more wherein z be at least the composition of mixture of uncle's alkoxy sulfate of 2 mid-chain branched.
Preferred this surfactant mixture comprises at least 5%, preferably at least about 20% R 1And R 2Be the primary alkyl alkoxy sulfate of the mid-chain branched of hydrogen or methyl independently, condition is R 1And R 2Not all be hydrogen; X+y equals 8,9 or 10, and z is at least 2.
The preferred detergent composition according to the present invention, for example a kind of detergent composition that is applicable to laundering of textile fabrics, it comprises the mixture of the primary alkyl alkoxy sulfate surfactant of about 98.998% mid-chain branched of about 0.001%-, and this mixture comprises alkyl alkoxylated suifate or its mixture that has one or more mid-chain branched of following formula at least about 5% (weight):
Figure A9718247400321
Wherein M represents one or more positively charged ions; A, b, d and e are integers, and a+b is 10-16, and d+e is 8-14, and in addition wherein: when a+b=10, a is the integer of 2-9 and the integer that b is 1-8; When a+b=11, a is the integer of 2-10 and the integer that b is 1-9; When a+b=12, a is the integer of 2-11 and the integer that b is 1-10; When a+b=13, a is the integer of 2-12 and the integer that b is 1-11; When a+b=14, a is the integer of 2-13 and the integer that b is 1-12; When a+b=15, a is the integer of 2-14 and the integer that b is 1-13; When a+b=16, a is the integer of 2-15 and the integer that b is 1-14; When d+e=8, d is the integer of 2-7 and the integer that e is 1-6; When d+e=9, d is the integer of 2-8 and the integer that e is 1-7; When d+e=10, d is the integer of 2-9 and the integer that e is 1-8; When d+e=11, d is the integer of 2-10 and the integer that e is 1-9; When d+e=12, d is the integer of 2-11 and the integer that e is 1-10; When d+e=13, d is the integer of 2-12 and the integer that e is 1-11; When d+e=14, d is the integer of 2-13 and the integer that e is 1-12.In addition, for this surfactant mixture, the average the total number of carbon atoms with branched primary alkyl part of following formula is greater than 14.5-about 18; With EO/PO be the alkoxyl group part, it is selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, wherein m is at least approximately 0.01, preferably about 0.1-is about 30, more preferably from about 0.5-is about 10, most preferably from about 1-about 5.
In addition, this surfactant composition can comprise the mixture of the branched primary alkyl alkoxylated sulphate with following formula:
Figure A9718247400331
Wherein the total number of carbon atoms that comprises side chain of each molecule is 14-20, and in addition, for this surfactant mixture, the average the total number of carbon atoms with branched primary alkyl part of following formula is greater than 14.5 to about 18; R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl, condition are R, R 1And R 2Not all be hydrogen; M is a water-soluble cationic; W is the integer of 0-13; X is the integer of 0-13; Y is the integer of 0-13; Z is at least 1 integer; With w+x+y+z be 8-14; EO/PO is the alkoxyl group part, is preferably selected from oxyethyl group, propoxy-and blended oxyethyl group/propoxy-group, and wherein m is at least approximately 0.01, and preferably in about 30 scopes of about 0.1-, more preferably from about 0.5-is about 10, and most preferably from about 1-about 5; Condition is to work as R 2Be C 1-C 3During alkyl, z equals 2 or be that the ratio of 1 tensio-active agent is at least about 1: 1 greater than 2 tensio-active agent and z, preferably at least about 1.5: 1, more preferably at least about 3: 1, most preferably at least about 4: 1.Further preferably following surfactant composition is worked as R 2Be C 1-C 3During alkyl, it comprises and is less than approximately 50%, preferably is less than approximately 40%, more preferably less than about 25%, most preferably is less than the branched primary alkyl alkoxylated sulphate that the about 20% wherein z with following formula equals 1.
The primary alkyl ethoxylated sulfate of preferred monomethyl branching is selected from: 3-methyl pentadecylic alcohol ethoxylated sulfate, 4-methyl pentadecylic alcohol ethoxylated sulfate, 5-methyl pentadecylic alcohol ethoxylated sulfate, 6-methyl pentadecylic alcohol ethoxylated sulfate, 7-methyl pentadecylic alcohol ethoxylated sulfate, 8-methyl pentadecylic alcohol ethoxylated sulfate, 9-methyl pentadecylic alcohol ethoxylated sulfate, 10-methyl pentadecylic alcohol ethoxylated sulfate, 11-methyl pentadecylic alcohol ethoxylated sulfate, 12-methyl pentadecylic alcohol ethoxylated sulfate, 13-methyl pentadecylic alcohol ethoxylated sulfate, 3-methyl cetyl alcohol ethoxylated sulfate, 4-methyl cetyl alcohol ethoxylated sulfate, 5-methyl cetyl alcohol ethoxylated sulfate, 6-methyl cetyl alcohol ethoxylated sulfate, 7-methyl cetyl alcohol ethoxylated sulfate, 8-methyl cetyl alcohol ethoxylated sulfate, 9-methyl cetyl alcohol ethoxylated sulfate, 10-methyl cetyl alcohol ethoxylated sulfate, 11-methyl cetyl alcohol ethoxylated sulfate, 12-methyl cetyl alcohol ethoxylated sulfate, 13-methyl cetyl alcohol ethoxylated sulfate, 14-methyl cetyl alcohol ethoxylated sulfate and its mixture, wherein compound is by ethoxylation, and its average degree of ethoxylation is about 0.1-about 10.
Preferred dimethyl-branched primary alkyl ethoxylated sulfate is selected from: 2,3-methyl tetradecanol ethoxylated sulfate, 2,4-methyl tetradecanol ethoxylated sulfate, 2,5-methyl tetradecanol ethoxylated sulfate, 2,6-methyl tetradecanol ethoxylated sulfate, 2,7-methyl tetradecanol ethoxylated sulfate, 2,8-methyl tetradecanol ethoxylated sulfate, 2,9-methyl tetradecanol ethoxylated sulfate, 2,10-methyl tetradecanol ethoxylated sulfate, 2,11-methyl tetradecanol ethoxylated sulfate, 2,12-methyl tetradecanol ethoxylated sulfate, 2,3-methyl pentadecylic alcohol ethoxylated sulfate, 2,4-methyl pentadecylic alcohol ethoxylated sulfate, 2,5-methyl pentadecylic alcohol ethoxylated sulfate, 2,6-methyl pentadecylic alcohol ethoxylated sulfate, 2,7-methyl pentadecylic alcohol ethoxylated sulfate, 2,8-methyl pentadecylic alcohol ethoxylated sulfate, 2,9-methyl pentadecylic alcohol ethoxylated sulfate, 2,10-methyl pentadecylic alcohol ethoxylated sulfate, 2,11-methyl pentadecylic alcohol ethoxylated sulfate, 2,12-methyl pentadecylic alcohol ethoxylated sulfate, 2,13-methyl pentadecylic alcohol ethoxylated sulfate and its mixture, wherein compound is by ethoxylation, and its average degree of ethoxylation is about 0.1-about 10.
The preparation of the tensio-active agent of mid-chain branched
Following reaction scheme has been summarized the general method of preparation mid-chain branched primary alconol, and this mid-chain branched primary alconol is suitable for alkoxylate and/or the sulfation primary alkyl tensio-active agent with the preparation mid-chain branched.
Alkylogen is converted into Grignard reagent, this Grignard reagent and halogenated ketone reaction.After conventional acid hydrolysis, acetylization reaction and heat are eliminated acetate, make intermediate alkene (in this route, not marking), its immediately with any suitable hydrogenation catalyzer for example Pd/C carry out hydrogenation.
This route is better than other method, and this is side chain, is the 5-methyl branch in this diagram, and it is introduced in reaction sequence early.
The alkylogen that is obtained by the first step hydrogenation obtains pure product through formylation, as shown in route.It can use the standard technique alkoxylate and/or use any suitable sulfur acidizing reagent, chlorsulfonic acid for example, SO 3/ air, or oleum is obtained final branched primary alkyl tensio-active agent by sulfation.This has handiness, can expand other exceed single formylation and can realize extraneous carbon atom of one of branching.This expansion can be by for example realizing with reacting ethylene oxide.Referring to: " Grignard reaction of nonmetallic substance " (Grignard Reactions ofNonmetallic Substances), M.S.Kharasch and O.Reinmuth, Prentice-Hall, N.Y., 1954; Organic chemistry magazine (J.Org.Chem.), J.Cason and W.R.Winans, the 15th volume (1950), 139-147 page or leaf; Organic chemistry magazine (J.Org.Chem.), J.Cason etc., the 13rd volume (1948) 239-248 pages or leaves; Organic chemistry magazine (J.Org.Chem.), J.Cason etc., the 14th volume (1949) 147-154 pages or leaves; With organic chemistry magazine (J.Org.Chem.), J.Cason etc., the 15th volume (1950), the 135-138 page or leaf, all these quote for referencial use at this paper.
In the variant of above method, can use other halogenated ketone or Grignard reagent.The PBr of the alcohol that obtains by formylation or ethoxylation 3Halogenation can be used for realizing that repeatedly chain link prolongs.
Also can be easily by the primary alkyl alkoxy sulfate of the preferred mid-chain branched of following path of preparing the present invention (and polyoxyalkylene and alkyl-sulphate, by selecting to make the intermediate ethanol that makes only carry out alkoxylate or sulfation):
Bromhydrin and triphenylphosphine reaction with routine then form the Wei Tixi adducts with the sodium hydride reaction aptly in dimethyl sulfoxide (DMSO)/tetrahydrofuran (THF).With this Wei Tixi adducts and the reaction of a-methyl ketone, the alcoholate of undersaturated methyl branchization in forming.Carry out alkoxylate and/or sulfation after the hydrogenation and obtain the primary alkyl tensio-active agent of required mid-chain branched.Although the Wei Tixi method can not make the experimenter as expand hydrocarbon chain in the Ge Liya sequence, the Wei Tixi method generally obtains higher yield.Referring to: agricultural and biological chemistry (Agricultural andBiological Chemistry), M.Horiike etc., the 42nd volume (1978), the 1963-1965 page or leaf, it is included in for referencial use herein.
Can use any other synthetic method to prepare the branched primary alkyl tensio-active agent.In addition, the primary alkyl tensio-active agent of mid-chain branched can be synthesized or prepare in the presence of conventional homologue, and for example any available commercial run in them makes, and this commercial run produces alkyl-branched as hydroformylation result's 2-.The surfactant mixture routine of this mid-chain branched is to join in other the known industrial alkyl surfactants that is contained in the final laundry product prescription.
In some preferred embodiment of this tensio-active agent, those that obtain by the fossil fuel sources that relates to commercial run particularly, it comprises the primary alkyl tensio-active agent of at least a kind of mid-chain branched, preferably at least 2 kinds, more preferably at least 5 kinds, most preferably at least 8 kinds.
What be particularly suitable for preparing some surfactant mixture is " oxo process " reaction, and wherein branched chain alkene carries out alkoxylate and/or sulfation then through isoversion and hydroformylation.The preferred method for preparing this mixture is to use mineral fuel as starting raw material.Preferable methods is that the normal olefine of finite quantity branching (a or interior position) is carried out carbongl group synthesis reaction.The skeleton of dimerization that the alkene that is fit to can be by straight chain a-or internal olefin or the oligomerization by control low molecular weight linear alkene or the alkene by detergent range is reset or the dehydrogenation/skeleton of the paraffinic hydrocarbon by detergent range is reset or by the Fischer-Tropsch prepared in reaction.These reactions are controlled to usually: 1) provide the alkene in the required scope of washing composition (allowing simultaneously to add carbon atom in follow-up carbongl group synthesis reaction) of vast scale, 2) produce a limited number of side chain, preferred medium chain, 3) produce C 1-C 3Side chain, more preferably ethyl, most preferable, 4) limit or eliminated two dialkyl group branching, promptly avoid forming quaternary carbon atom.The alkene that should be fit to can obtain primary alconol by corresponding aldehyde directly or indirectly through carbongl group synthesis reaction.When using internal olefin, use oxo catalyst usually, it can make internal olefin at first pre-isomerization before a-alkene.Though can realize the interior isomerization to a of independent catalysis (being non-oxo process), this chooses wantonly.On the other hand, directly produce a-alkene (the high pressure Fischer-Tropsch alkene that for example has detergent range) if form the step of alkene itself, it is possible then to use non-isomerized oxo catalyst to be not only, and is preferred.
This paper aforesaid method has obtained preferred 5-methyl hexadecyl tensio-active agent, and it is than not too preferred 2, the yield height of 4-dimethyl pentadecyl tensio-active agent.This mixture is that wherein every kind of product comprises 17 carbon atoms altogether, and linear alkyl chain has at least 13 carbon atoms.
X is in order to prepare wherein-C (O)-the tensio-active agent of chain branching herein, before carrying out the Jones oxidation, can obtain the carboxylic acid starting raw material of mid-chain branched from correspondent alcohol described herein, K.Bowden, I.M.Heilbron, E.R.H.Jones and B.C.L.Weedon, chemistry meeting will (J.Chem, Soc.) 1946,39, and H.O.House, modern synthesis (Modern Synthetic Reactions) (W.A.Benjamin, California, second edition, 263-264 page or leaf).It is for example under the aqueous sulfuric acid, alcohol to be carried out the reaction that the chromic acid oxidation generates carboxylic acid at acidic medium.Can use acetone to stablize alcohol and carboxylic acid.This reaction is at room temperature carried out rapidly usually.
Following examples provide the method for synthesizing all cpds of the tensio-active agent that is applicable to mid-chain branched.
Embodiment 1
7-methyl hexadecyl ethoxylation (E2) Preparation of sodium and
Synthesizing of bromination (6-hydroxyl hexyl) triphenyl phosphorus
Under nitrogen atmosphere, in the 5L 3 neck round-bottomed flasks that nitrogen inlet tube, condenser, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, add 6-bromo-1-hexanol (500g, 2.76mol), triphenylphosphine (768g, 2.9mol) and acetonitrile (1800ml).Reaction mixture is heated to reflux and kept 72 hours.Reaction mixture is cooled to room temperature, and is transferred in the 5L beaker.At 10 ℃, with this product of anhydrous diethyl ether (1.5L) recrystallization.Vacuum filtration with drying in ether washing and the vacuum oven 50 ℃ under 2 hours, obtains the required product of 1140g then, is white crystal.
Synthesizing of 7-methyl cetene-1-alcohol
In the dry 5L three neck round-bottomed flasks that mechanical stirrer, nitrogen inlet tube, dropping funnel, thermometer and nitrogen outlet pipe are housed, be added in the sodium hydride (1.76mol) of the 70.2g 60% in the mineral oil.Remove mineral oil with hexane wash.Add anhydrous dimethyl sulphoxide (500ml) in flask, mixture is heated to 70 ℃ and emits until hydrogen and to stop.Reaction mixture is cooled to room temperature, adds the 1L anhydrous tetrahydro furan then.(443.4g, 1mol) (50 ℃, 500ml) pulping, and slowly add in the reaction mixture by dropping funnel makes it remain on 25-30 ℃ simultaneously with warm anhydrous dimethyl sulphoxide with bromination (6-hydroxyl hexyl) triphenyl phosphorus.This mixture at room temperature stirred 30 minutes, and this moment, (187g 1.1mol) slowly added by dropping funnel with methyln nonyl ketone.React heat release slightly, need cooling to remain on 25-30 ℃.This mixture is stirred 18 hours, under agitation pours into then in the 5L beaker that contains the 1L Purified Water.Isolate oil phase (top) with separating funnel, remove water.Water washs and isolates organic phase with hexane (500ml), and merges with the oil phase that obtains from water washing.This organic mixture is water extraction 3 times (each 500ml) then, and then transparent oily product (132g) is collected in vacuum distilling under 140 ℃ and 1mmHg.
The hydrogenation of 7-methyl cetene-1-alcohol
To 3L wave in the autoclave liner add 7-methyl cetene-1-alcohol (130g, 0.508mol), methyl alcohol (300ml) and Pt/C (10% weight, 35g).Mixture is under 180 ℃, at 1200 pounds/inch 2Under the hydrogen by hydrogenation 13 hours.Cooling is also passed through diatomite 545 vacuum filtrations, uses washed with dichloromethane diatomite 545 aptly.If desired, repeat to filter to remove the Pt catalyzer of trace, this product of available dried over mgso.The solution of this product is concentrated on rotatory evaporator, obtain transparent oily matter (124g).
The alkoxylate of 7-methyl cetyl alcohol
To nitrogen inlet tube, mechanical stirrer being housed, being equipped with in the dry 1L three neck round-bottomed flasks of the y-shape pipe of thermometer and gas outlet tube and adding the alcohol that obtains by above-mentioned steps.In order to remove the moisture content of trace, should alcohol about 30 minutes under 80-100 ℃ with nitrogen purging.Continue to use nitrogen purging, the adding sodium Metal 99.5 is as catalyzer and make it stirring fusion under 120-140 ℃.Under vigorous stirring, in 140 minutes, add ethylene oxide gas, keep temperature of reaction at 120-140 ℃ simultaneously.Add accurate weight (equaling 2 normal oxyethane) afterwards, purge nitrogen, make the sample cooling by equipment 20-30 minute.Collect required 7-methyl hexadecyl ethoxylate (average 2 the ethoxylation groups of per molecule) then.
The sulfation of 7-methyl hexadecyl ethoxylate (E2)
The 7-methyl hexadecyl ethoxylate (E2) that in the dry 1L three neck round-bottomed flasks that nitrogen inlet tube, dropping funnel, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, adds chloroform and obtain by above-mentioned steps.In this stirred mixture, slowly add chlorsulfonic acid, keep 25-30 ℃ with ice bath simultaneously.Stop in case HCl emits, just slowly add sodium methylate (25%, in methyl alcohol), maintain the temperature at 25-30 ℃ simultaneously, until the sample aliquot maintenance pH10.5 of 5% concentration in water.The ethanol (55 ℃) and the vacuum filtration immediately that in this mixture, add heat.Filtrate is concentrated into slurries on rotatory evaporator, cooling is poured in the ether then.This mixture is chilled to 5 ℃, and vacuum filtration obtains required 7-methyl hexadecyl ethoxylate (average 2 the ethoxylation groups of per molecule) vitriol, sodium salt product.
Example II
7-methyl pentadecyl ethoxylation (E5) sodium sulfate synthetic and
Synthesizing of bromination (6-hydroxyl hexyl) triphenyl phosphorus
Under nitrogen atmosphere, in the 5L three neck round-bottomed flasks that nitrogen inlet tube, condenser, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, add 6-bromo-1-hexanol (500g, 2.76mol), triphenylphosphine (768g, 2.9mol) and acetonitrile (1800ml).Reaction mixture is heated to reflux and kept 72 hours.Reaction mixture is cooled to room temperature, and is transferred in the 5L beaker.At 10 ℃, with this product of anhydrous diethyl ether (1.5L) recrystallization.This mixture of vacuum filtration washs white crystal with ether subsequently, and in the vacuum oven under 50 ℃ dry 2 hours, obtain the required product of 1140g.
Synthesizing of 7-methyl 15 carbenes-1-alcohol
In the dry 5L three neck round-bottomed flasks that mechanical stirrer, nitrogen inlet tube, dropping funnel, thermometer and nitrogen outlet pipe are housed, be added in the sodium hydride (2.0mol) of the 80g 60% in the mineral oil.Remove mineral oil with hexane wash.In flask, add anhydrous dimethyl sulphoxide (500ml), and be heated to 70 ℃ and emit until hydrogen and to stop.Reaction mixture is cooled to room temperature, adds the 1L anhydrous tetrahydro furan then.With bromination (6-hydroxyl hexyl) triphenyl phosphorus (443.4g, 1mol) with warm anhydrous dimethyl sulphoxide (50 ℃, 500ml) pulping, and slowly add in the reaction mixture by dropping funnel, this reaction simultaneously remains on 25-30 ℃.This reaction was at room temperature stirred 30 minutes, and this moment, (171.9g 1.1mol) slowly added by dropping funnel with the 2-decanone.React heat release slightly, need cooling to remain on 25-30 ℃.Mixture is stirred 18 hours, pours into then in the separating funnel that contains 600ml Purified Water and 300ml hexane.After shaking, oil phase (top) is isolated, removed water.Water continues to extract oil phase, and is transparent until two-phase.Collect organic phase, vacuum distilling and process liquid chromatography (90: 10 hexanes: ethyl acetate, silica stationary phase) are purified, and obtain transparent oily product (119.1g).
The hydrogenation of 7-methyl 15 carbenes-1-alcohol
To 3L wave in the autoclave glass-lined (autoclave engineering) add 7-methyl 15 carbenes-1-alcohol (122g, 0.508mol), methyl alcohol (300ml) and Pt/C (10% weight, 40g).Mixture under 180 ℃, under 1200 pounds/in2 hydrogen by hydrogenation 13 hours, cooling and by diatomite 545 vacuum filtrations, with washed with dichloromethane diatomite 545.Because platinum catalyst, this organic mixture remain black, therefore repeat filtration step, on rotatory evaporator, concentrate; (500ml) dilutes with methylene dichloride, adds the dried over mgso product.By diatomite 545 vacuum filtrations and on rotatory evaporator concentrated filtrate obtain transparent oily matter (119g).
The alkoxylate of 7-methyl pentadecylic alcohol
To nitrogen inlet tube, mechanical stirrer being housed, being equipped with in the dry 1L three neck round-bottomed flasks of the y-shape pipe of thermometer and gas outlet tube and adding the alcohol that obtains by above-mentioned steps.In order to remove the moisture content of trace, should alcohol about 30 minutes under 80-100 ℃ with nitrogen purging.Continue to use nitrogen purging, the adding sodium Metal 99.5 is as catalyzer and make it stirring fusion under 120-140 ℃.Under vigorous stirring, in 140 minutes, add ethylene oxide gas, keep temperature of reaction at 120-140 ℃ simultaneously.Add accurate weight (equaling 5 normal oxyethane) afterwards, purge nitrogen, make the sample cooling by equipment 20-30 minute.Collect required 7-methyl pentadecyl ethoxylate (average 5 the ethoxylation groups of per molecule) then.
The sulfation of 7-methyl pentadecyl ethoxylate (E5)
The 7-methyl pentadecyl ethoxylate (E5) that in the dry 1L three neck round-bottomed flasks that nitrogen inlet tube, dropping funnel, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, adds chloroform and obtain by above-mentioned steps.In this stirred mixture, slowly add chlorsulfonic acid, keep 25-30 ℃ with ice bath simultaneously.In case HCl emits when stopping, just slowly add sodium methylate (25%, in methyl alcohol), maintain the temperature at 25-30 ℃ simultaneously, until the sample aliquot maintenance pH10.5 of 5% concentration in water.In this mixture, add methyl alcohol and 1-butanols.Vacuum filtration goes out inorganic salt precipitates, removes methyl alcohol on rotatory evaporator from filtrate.Be cooled to room temperature, add ether and allow it place 1 hour.By vacuum filtration collecting precipitation thing, obtain required 7-methyl pentadecyl ethoxylate (average 5 the ethoxylation groups of per molecule) vitriol, the sodium salt product.
EXAMPLE III
7-methyl heptadecyl ethoxylation (E1.5) sodium sulfate synthetic and
Synthesizing of bromination (6-hydroxyl hexyl) triphenyl phosphorus
Under nitrogen atmosphere, in the 5L three neck round-bottomed flasks that nitrogen inlet tube, condenser, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, add 6-bromo-1-hexanol (500g, 2.76mol), triphenylphosphine (768g, 2.9mol) and acetonitrile (1800ml).Reaction mixture is heated to reflux and kept 72 hours.Reaction mixture is cooled to room temperature, and is transferred in the 5L beaker.At 10 ℃, with this product of anhydrous diethyl ether (1.5L) recrystallization.This mixture of vacuum filtration washs white crystal with ether subsequently, and in the vacuum oven under 50 ℃ dry 2 hours, obtain the required product of 1140g.
Synthesizing of 7-methyl heptadecene-1-alcohol
In the dry 5L three neck round-bottomed flasks that mechanical stirrer, nitrogen inlet tube, dropping funnel, thermometer and nitrogen outlet pipe are housed, be added in 80g 60% sodium hydride (2.0mol) in the mineral oil.Remove mineral oil with hexane wash.In flask, add anhydrous dimethyl sulphoxide (500ml), and be heated to 70 ℃ and emit until hydrogen and to stop.Reaction mixture is cooled to room temperature, adds the 1L anhydrous tetrahydro furan then.With bromination (6-hydroxyl hexyl) triphenyl phosphorus (443.4g, 1mol) with warm anhydrous dimethyl sulphoxide (50 ℃, 500ml) pulping, and slowly add in the reaction mixture by dropping funnel, this reaction simultaneously remains on 25-30 ℃.This reaction was at room temperature stirred 30 minutes, and this moment, (184.3g 1.1mol) slowly added by dropping funnel with 2-dodecane ketone.React heat release slightly, need cooling to remain on 25-30 ℃.Mixture is stirred 18 hours, pours into then in the separating funnel that contains 600ml Purified Water and 300ml hexane.After shaking, oil phase (top) is isolated, removed the turbid water phase.Water is proceeded extraction, and is transparent until water and oil phase.Collect organic phase, purify, obtain transparent oily product (116g) through liquid chromatography (moving phase-hexane, stationary phase-silica gel).The HNMR of this final product (under water-d2) indicates CH 2-OSO 3 -Triplet is at the response of 3.8ppm place, CH 2-CH 2-OSO 3 -Multiplet is at the response of 1.5ppm place, the CH of alkyl chain 2At the response of 0.9-1.3ppm place, CH-CH 3Branch point is overlapping R-CH 2CH 3The terminal methyl peak responds at the 0.8ppm place.
The hydrogenation of 7-methyl heptadecene-1-alcohol
To 3L wave in the autoclave glass-lined (autoclave engineering) add 7-methyl heptadecene-1-alcohol (116g, 0.433mol), methyl alcohol (300ml) and Pt/C (10% weight, 40g).Mixture is under 180 ℃, and by hydrogenation 13 hours, cooling was also by diatomite 545 vacuum filtrations, with washed with dichloromethane diatomite 545 under 1200 pounds/in2 hydrogen.By diatomite 545 vacuum filtrations and on rotatory evaporator concentrated filtrate obtain transparent oily matter (108g).
The alkoxylate of 7-methyl heptadecanol
To nitrogen inlet tube, mechanical stirrer being housed, being equipped with in the dry 1L three neck round-bottomed flasks of the y-shape pipe of thermometer and gas outlet tube and adding the alcohol that obtains by above-mentioned steps.In order to remove the moisture content of trace, should alcohol about 30 minutes under 80-100 ℃ with nitrogen purging.Continue to use nitrogen purging, the adding sodium Metal 99.5 is as catalyzer and make it stirring fusion under 120-140 ℃.Under vigorous stirring, in 140 minutes, add ethylene oxide gas, keep temperature of reaction at 120-140 ℃ simultaneously.Add accurate weight (equaling 1.5 normal oxyethane) afterwards, purge nitrogen, make the sample cooling by equipment 20-30 minute.Collect required 7-methyl heptadecyl ethoxylate (average 1.5 the ethoxylation groups of per molecule) then.
The sulfation of 7-methyl heptadecyl ethoxylate (E1.5)
The 7-methyl heptadecyl ethoxylate (E1.5) that in the dry 1L three neck round-bottomed flasks that nitrogen inlet tube, dropping funnel, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, adds chloroform and obtain by above-mentioned steps.In this stirred mixture, slowly add chlorsulfonic acid, keep 25-30 ℃ with ice bath simultaneously.In case HCl emits when stopping, just slowly add sodium methylate (25%, in methyl alcohol), maintain the temperature at 25-30 ℃ simultaneously, until the sample aliquot maintenance pH10.5 of 5% concentration in water.Add hot methanol (45 ℃) with the dissolving branched sulfates in this mixture, then inorganic salt precipitates is removed in vacuum filtration immediately, repeats for the second time.Filtrate is cooled to 5 ℃ then, adds ether this moment and allows it place 1 hour.By vacuum filtration collecting precipitation thing, obtain required 7-methyl heptadecyl ethoxylate (average 1.5 the ethoxylation groups of per molecule) vitriol, the sodium salt product.
EXAMPLE IV
Following Shell Research tests pure sample by the following method by ethoxylation (average degree of ethoxylation 2.5), then by sulfation.
Prepared branching alcohol 13C-NMR result
The total number of carbon atoms 16 17 18
The average side chain number of per molecule 2.0 1.7 2.1
Average side chain position with respect to hydroxyl carbon
At the C4 and the % of eminence more 56% 55% 52%
% at the C3 place 26% 21% 25%
% at the C2 place 18% 24% 23%
The side chain type
The % of propyl group and Geng Gao 31% 35% 30%
Ethyl % 12% 10% 12%
Methyl % 57% 55% 58%
To nitrogen inlet tube, mechanical stirrer are housed, be equipped with add in the dry 250ml three neck round-bottomed flasks of the y-shape pipe of thermometer and gas outlet tube above C16 alcohol (48.4g, 0.2mol).In order to remove the moisture content of trace, should alcohol about 30 minutes under 80-100 ℃ with nitrogen purging.Continue use nitrogen purging, (0.23g is 0.01mol) as catalyzer and make it 120-140 ℃ of stirring fusion down to add sodium Metal 99.5.Under vigorous stirring, (22g 0.5mol), keeps temperature of reaction at 120-140 ℃ simultaneously to add ethylene oxide gas in 140 minutes.The oxyethane (average 2.5 the ethoxylation groups of per molecule) that adds accurate weight purges nitrogen afterwards by equipment 20-30 minute, makes the sample cooling.Under nitrogen atmosphere, the golden liquid product is bottled (69g, 0.196mol).
Use this C16 ethoxylate of following method sulfation.To gas inlet pipe, dropping funnel, mechanical stirrer are housed, the C16 ethoxylate that adds above-mentioned steps in the 500ml three neck round-bottomed flasks of the y-shape pipe of thermometer and gas outlet tube are housed (63.4g, 0.18mol) and diethyl ether (75ml).(22.1g 0.19mol), keeps temperature of reaction at 5-15 ℃ with ice-water bath simultaneously slowly to add chlorsulfonic acid in this stirred mixture.After adding chlorsulfonic acid, begin slowly to purge and begin to vacuumize (10-15 inch Hg), to remove HCl with nitrogen.With warm water bath reaction is warmed to 30-40 ℃.After about 45 minutes, vacuum tightness is increased to 25-30 inch Hg, kept again 45 minutes.(43.2g is 0.2mol) and in the beaker of methyl alcohol (200ml) slowly to pour this acidic reaction mixture 25% sodium methylate that is equipped with of in ice-water bath refrigerative vigorous stirring into.After confirming pH>12, made solution stirring about 15 minutes, pour in the glass disc then.In stink cupboard, spend the night and make most of solvent evaporations.In morning next day, this dish is transferred in the vacuum drying oven.Make sample drying a whole day, and under 40-60 ℃, spend the night under the 25-30 inch Hg vacuum.Collect xanchromatic viscous solid (80.9g, 93% activity) C16 ethoxylation (E2.5) vitriol, the sodium salt product.
EXAMPLE V
The preparation of 7-methyl Sodium palmityl sulfate
The sulfation of 7-methyl cetyl alcohol
In the dry 1L three neck round-bottomed flasks that nitrogen inlet tube, dropping funnel, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, add among chloroform (300ml) and the embodiment 1 preparation intermediate 7-methyl cetyl alcohol (124g, 0.484mol).(60g 0.509mol), keeps 25-30 ℃ with ice bath simultaneously slowly to add chlorsulfonic acid in this stirred mixture.Stop (1 hour) in case HCl emits, just slowly add sodium methylate (25%, in methyl alcohol), maintain the temperature at 25-30 ℃ simultaneously, until the sample aliquot maintenance pH10.5 of 5% concentration in water.In this mixture, add hot ethanol (55 ℃, 2L).Vacuum filtration mixture immediately.With filtrate simmer down to slurry, cooling is poured in the 2L ether then on rotatory evaporator.Crystallization, vacuum filtration are taken place this moment by quenching to 5 ℃ in this mixture.Crystal in 50 ℃ of vacuum ovens dry 3 hours, (136g, 92% actives is by catalysis SO to obtain white solid 3Titration).
Example VI
Synthesizing of 7-methyl pentadecyl sodium sulfate
The sulfation of 7-methyl pentadecylic alcohol
In the dry 1L three neck round-bottomed flasks that nitrogen inlet tube, dropping funnel, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, add the intermediate 7-methyl pentadecylic alcohol for preparing in chloroform (300ml) and the example II (119g, 0.496mol).(61.3g 0.52mol), keeps 25-30 ℃ with ice bath simultaneously slowly to add chlorsulfonic acid in this stirred mixture.Stop (1 hour) in case HCl emits, just slowly add sodium methylate (25%, in methyl alcohol), maintain the temperature at 25-30 ℃ simultaneously, until the sample aliquot maintenance pH10.5 of 5% concentration in water.In this mixture, add methyl alcohol (1L) and 300ml 1-butanols.Vacuum filtration goes out inorganic salt precipitates, removes methyl alcohol on rotatory evaporator from filtrate.Be cooled to room temperature, add the 1L ether and allow it place 1 hour.By vacuum filtration collecting precipitation thing.Product in 50 ℃ of vacuum ovens dry 3 hours, (82g, 90% actives is by catalysis SO to obtain white solid 3Titration).
Example VII A
Synthesizing of 7-methyl heptadecyl sodium sulfate
The sulfation of 7-methyl heptadecanol
In the dry 1L three neck round-bottomed flasks that nitrogen inlet tube, dropping funnel, thermometer, mechanical stirrer and nitrogen outlet pipe are housed, add the intermediate 7-methyl heptadecanol for preparing in chloroform (300ml) and the EXAMPLE III (102g, 0.378mol).(46.7g 0.40mol), keeps 25-30 ℃ with ice bath simultaneously slowly to add chlorsulfonic acid in this stirred mixture.Stop (1 hour) in case HCl emits, just slowly add sodium methylate (25%, in methyl alcohol), maintain the temperature at 25-30 ℃ simultaneously, until the sample aliquot maintenance pH10.5 of 5% concentration in water.(45 ℃, 1L) to dissolve this branched sulfates, then inorganic salt precipitates is removed in vacuum filtration immediately, repeats for the second time to add hot methanol in this mixture.Filtrate is cooled to 5 ℃ then, adds the 1L ether this moment and allows it place 1 hour.By vacuum filtration collecting precipitation thing.Product in 50 ℃ of vacuum ovens dry 3 hours, (89g, 88% actives is by catalysis SO to obtain white solid 3Titration).The HNMR of these the finished product (under water-d2) indicates CH 2-OSO 3 -Triplet is at the response of 3.8ppm place, CH 2-CH 2-OSO 3 -Multiplet is at the response of 1.5ppm place, the CH of alkyl chain 2At the response of 0.9-1.3ppm place, CH-CH 3Branch point is overlapping R-CH 2CH 3The terminal methyl peak responds at the 0.8ppm place.Mass-spectrometric data shows that quality is that 349.1 molecular ion peak is corresponding to 7-methyl heptadecyl sulfate ion.Shown that also the methyl-branched in the 7-position is owing to lose the result of 29 mass units in this position.
Below two kinds of analytical procedures that are characterized in the branching in the mid-chain branched surfactant composition be useful: 1) separate and identify composition (for analysis purposes, before the alkoxylate or after the alcohol sulfate hydrolysis) in Fatty Alcohol(C12-C14 and C12-C18).Determine that by the GC/MS technology position of the branching that exists and length are [referring to D.J.Harvey, Biomed, Environ.MassSpectrom (1989) .18 (9), 719-23 in the precursor fatty alcohol material; D.J.Harvey, J.M.GIFfany, J.Chromatogr, (1984) 301 (1), 173-87; K.A.Karlsson, B.E.Samuelsson, G.O.Steen, Chem.Phys.Lipids (1973), 11 (1), 17-38].2) identify isolating Fatty Alcohol(C12-C14 and C12-C18) alkoxy sulfate component by MS/MS.Also isolating aliphatic alcohol sulfate component is in advance determined the position and the length of side chain by ion injection-MS/MS or FAB-MS/MS technology.
After can pressing the usual way hydrolysis by the hydroxyl value of precursor fatty alcohol mixture or by the alcohol sulfate mixture, by the average total carbon atom number that calculates the primary alkyl tensio-active agent of this paper branching by the hydroxyl value that extracts the alcohol that reclaims, for example in following document, summarize: " industry oil of Bailey and fatty prod (Industrial Oil and Fat Products) ", the 2nd volume, the 4th edition, edit the 440-441 page or leaf by Daniel Swern.B. derivatived cellulose
Detergent composition of the present invention comprises about 0.001%-10%, preferably about 0.01%-5%, the more preferably from about plain derivative of 0.1%-2% weight fibres.
Preferred derivatived cellulose comprises the water-soluble cellulose ether derivative, for example nonionic and cationic cellulose derivative.Anionic cellulose derivative (for example Xylo-Mucine) is not included in the derivatived cellulose definition of the object of the invention.
Nonionic cellulose derivatives is particularly preferred.The basic structure of this derivatived cellulose is illustrated by following formula:
Figure A9718247400461
In this structure, n is the integer of about 100-10000 scope, and R ' represents alkyl, hydroxyalkyl or blended alkyl and hydroxyalkyl substituting group, and is as mentioned below.The alkyl that is suitable for comprises methyl, ethyl, propyl group, butyl, amyl group, isobutyl-, hexyl, nonyl etc.Preferred alkyl comprises methyl, ethyl, propyl group and butyl, and methyl is most preferred.Preferred hydroxyalkyl comprises methylol, hydroxyethyl, hydroxypropyl and hydroxyl butyl, and the hydroxyl butyl is most preferred.The R ' of highly preferred commercially available material is the mixture of methyl and hydroxyl butyl.
Preferred one group of derivatived cellulose comprises methylcellulose gum, Vltra tears, hydroxyethylmethyl-cellulose and its mixture.Example comprises the METELOSE that can buy from Shin Etsu company TMThe METHOCEL that buys from Dow Chemical TMC 1-C 4Alkylcellulose and C 4Hydroxy alkyl cellulose.
The preferred cation derivatived cellulose is: C. additional detergent components
Therefore detergent composition of the present invention also can contain additional detergent components.The exact nature of these annexing ingredients and its incorporation will depend on the physical form of composition and the exact nature of its washing operation that is used for.Cleaning combination of the present invention includes, but are not limited to: particle, liquid laundry detergent etc.This composition can contain various conventional scrubbed component.
For being convenient to teacher of the prescription, below having listed these components, but be not the type of the component that can use with derivatived cellulose and branched chain surfactant of restriction.The present composition preferably contains one or more additional detergent components, is selected from: tensio-active agent, washing assistant, alkaline system, organic polymer, suds suppressor, dirt suspension and anti redeposition agent and corrosion inhibitor.Bleaching compounds-SYNTHETIC OPTICAL WHITNER and bleach-activating agent
Detergent composition of the present invention preferably also contains SYNTHETIC OPTICAL WHITNER or contains SYNTHETIC OPTICAL WHITNER and the bleaching composition of one or more bleach-activating agents.The content of SYNTHETIC OPTICAL WHITNER is generally detergent composition, in particular for about 1% to 30%, more preferably about 5% to about 20% of the detergent composition of laundering of textile fabrics.If contain bleach-activating agent, its content is generally about 0.1% to about 60%, more preferably about 0.5% to about 40% of the bleaching composition that contains SYNTHETIC OPTICAL WHITNER and bleach-activating agent.
SYNTHETIC OPTICAL WHITNER used herein can be to be applicable to cleaning fabric, cleans crust, or other is known now or with any SYNTHETIC OPTICAL WHITNER in the detergent composition of known cleaning use.This comprises oxygen bleaching agent and other SYNTHETIC OPTICAL WHITNER.Can use perborate bleach herein, for example Sodium peroxoborate (for example its monohydrate or tetrahydrate).
Unrestricted operable another kind of SYNTHETIC OPTICAL WHITNER comprises percarboxylic acids SYNTHETIC OPTICAL WHITNER and its salt.The suitable example of this class SYNTHETIC OPTICAL WHITNER comprises monoperphthalic acid magnesium hexahydrate, metachloroperbenzoic acid magnesium, 4-nonyl amino-4-oxo Perbutyric Acid magnesium and diperoxy dodecanedioic acid magnesium.These SYNTHETIC OPTICAL WHITNER are disclosed in the U.S. Pat 4483781 of the Hartman that authorized on November 20th, 1984, the people's such as Burns of application on June 3rd, 1985 U.S. Patent application 740446, February in 1985 people such as disclosed Banks on the 20th european patent application 0133354 and the people's such as Chung that authorize November 1 nineteen eighty-three U.S. Pat 4412934 in.Highly preferred SYNTHETIC OPTICAL WHITNER also comprises 6-nonyl amino-6-oxo-mistake oxy hexanoic acid of describing as in the U.S. Pat 4634551 that licenses to people such as Burns on January 6th, 1987.
The present invention also can use peroxygen bleach.Suitable peroxy bleaching compound comprises yellow soda ash peroxyhydrate and its equivalent " percarbonate " SYNTHETIC OPTICAL WHITNER, trisodium phosphate peroxyhydrate, urea peroxyhydrate, and sodium peroxide.Also can use persulphate SYNTHETIC OPTICAL WHITNER (for example, OXONE is by the DuPont commercial production).
Preferred percarbonate bleach comprises having average particle size at about 500 dried particles to about 1000 micrometer ranges, be no more than about 10% (weight) less than about 200 microns described particle, be no more than about 10% (weight) greater than about 1250 microns described particle.Percarbonate can optionally use silicate, borate or water soluble surfactant active to apply.Percarbonate can be from various commercial source such as FMC, and Solvay and Tokai Denka obtain.
Also can use the mixture of SYNTHETIC OPTICAL WHITNER.
Peroxygen bleach, perborate, percarbonate etc. preferably are used in combination with bleach-activating agent, and this causes producing on the spot the peroxy acid corresponding to bleach-activating agent in the aqueous solution (promptly at washing process).The various non-limiting examples of activator are disclosed in and license in people's such as Mao the U.S. Pat 4915854 and U.S. Pat 4412934 April 10 nineteen ninety.Nonanoly acyloxy benzene sulfonate (NOBS) and tetra acetyl ethylene diamine (TAED) activator are typical activators, also can use their mixture.Typical SYNTHETIC OPTICAL WHITNER of useful herein other and activator are in addition referring to U.S. Pat 4634551.
Amido very preferably-deutero-bleach-activating agent has formula:
R 1N (R 5) C (O) R 2C (O) L or R 1C (O) N (R 5) R 2C (O) L is R wherein 1Be to contain 6 the alkyl of having an appointment, R to about 12 carbon atoms 2Be to contain 1 alkylidene group, R to about 6 carbon atoms 5Be that have an appointment 1 alkyl to about 10 carbon atoms, aryl or alkylaryl and L of H or contain is any suitable leavings group.Leavings group is that the result is from the substituted any group of bleach-activating agent owing to cross hydrolysis negatively charged ion nucleophilic attack bleach-activating agent.Preferred leavings group is a phenylbenzimidazole sulfonic acid salt.
The preferred embodiment of following formula bleach-activating agent comprises (6-decoyl amino-caproyl) oxygen base benzene sulfonate of describing as in U.S. Pat 4634551 (document is quoted as a reference by this paper); (the amino caproyl of 6-nonanoyl) oxygen base benzene sulfonate; (6-caprinoyl amino-caproyl) oxygen base benzene sulfonate and their mixture.
Another kind of bleach-activating agent is included in (this patent is quoted as a reference by this paper) disclosed benzo oxazinyl activator in the people's such as Hodge that authorize October 30 nineteen ninety the U.S. Pat 4966723.The activator very preferably of benzo oxazinyl is:
Figure A9718247400491
Another kind of preferred bleach-activating agent comprises the acyl lactam activator, especially the acyl caprolactam of following formula and acyl group Valerolactim: R wherein 6Be H or have 1 alkyl, aryl, alkoxy aryl, or alkylaryl to about 12 carbon atoms.Lactan activator very preferably comprises benzoyl caprolactam, capryloyl hexanolactam, 3; 5,5-trimethyl acetyl base hexanolactam, nonanoyl hexanolactam; the decanoyl hexanolactam, undecylene acyl caprolactam, benzoyl Valerolactim; the capryloyl Valerolactim, decanoyl Valerolactim, undecylene acyl group Valerolactim; the nonanoyl Valerolactim; 3,5,5-trimethyl acetyl base Valerolactim and their mixture.Also referring to the U.S. Pat 4545784 of the Sanderson that authorized on October 8th, 1985, this patent is quoted as a reference by this paper, wherein discloses acyl caprolactam, comprises benzoyl caprolactam, and they are adsorbed in the Sodium peroxoborate.
Those SYNTHETIC OPTICAL WHITNER of non-oxygen bleaching agent also are well known in the art, and can be used for the present invention.The special non-oxygen bleaching agent of being concerned about of one class comprises photoactivation SYNTHETIC OPTICAL WHITNER such as sulfonated Phthalocyanine Zinc and/or aluminium.License to people's such as Holcombe U.S. Pat 4033718 referring on July 5th, 1977.If necessary, detergent composition generally contains have an appointment 0.025% such SYNTHETIC OPTICAL WHITNER to about 1.25% (weight), especially Phthalocyanine Zinc sulfonate.
If necessary, bleaching compounds can come catalysis with manganic compound.This compounds is a compound well known in the art, comprises, for example in U.S. Pat 5246621, US5244594, US5194416, the open EP549271A1 of US5114606 and european patent application, EP549272A1, disclosed manganese among EP544440A2 and the EP544490A1-catalyst based; The preferred embodiment of such catalyzer comprises Mn IV 2(u-O) 3(1,4,7-trimethylammonium-1,4,7-7-triazacyclononane) 2(PF 6) 2, Mn III 2(u-O) 1(u-OAc) 2(1,4,7-trimethylammonium-1,4,7-7-triazacyclononane) 2(ClO 4) 2, Mn IV 4(u-O) 6(1,4, the 7-7-triazacyclononane) 4(ClO 4) 4, Mn IIIMn IV 4(u-O) 1(u-OAc) 2(1,4,7-trimethylammonium-1,4,7-7-triazacyclononane) 2(ClO 4) 3, Mn IV(1,4,7-trimethylammonium-1,4,7-7-triazacyclononane) (OCH 3) 3(PF 6) and their mixture.Other metal matrix-bleaching catalysts are included in those disclosed among U.S. Pat 4430243 and the US5114611.The manganese that use has various complex ligands is used for improving bleaching power and also is in the news at following United States Patent (USP): US4728455, US5284944, US5246612, US5256779, US5280117, US5274147, US5153161, US5227084.
In actual applications, be not subjected to limitation, the present composition and method can be conditioned so that provide in wash water solution at least about per active bleaching catalyst of 1/10000000th, preferably provide about 0.1ppm to about 700ppm in washing soln, more preferably from about 1ppm is to the catalyst substance of about 500ppm.
It is known being used for cobalt bleaching catalyst of the present invention, and it is described in for example M.L.Tobe, " basic hydrolysis of transition metal complex ", the inorganic mechanism of high lithotroph (Adv.Inorg.Bioinorg.Mech.), (1983) are in 2, the 1-94 pages or leaves.Being suitable for most preferred cobalt catalyst of the present invention is to have formula [Co (NH 3) 5OAc] T yCobalt five amine acetates, " OAc " expression acetate moiety part wherein, " T y" be negatively charged ion, cobalt chloride five amine acetate [Co (NH particularly 3) 5OAc] Cl 2And [Co (NH 3) 5OAc] (OAc) 2[Co (NH 3) 5OAc] (PF 6) 2[Co (NH 3) 5OAc] (SO 4); [Co (NH 3) 5OAc] (BF 4) 2[Co (NH 3) 5OAc] (NO 3) 2(this paper " PAC ").
These cobalt catalyst with known method preparation, were for example told about in the Tobe article neutralizes the reference of wherein quoting easily, authorized the United States Patent (USP) 4,810,410 of Diakun etc. on March 7th, 1989; J.Chem.Ed. (1989), 66 (12), 1043-1045; Synthetic and the sign of mineral compound, W.L.Jolly (Prentice-Hall; 1970), 461-463 page or leaf; Inorganic chemistry, 18,1497-1502 (1979); Inorganic chemistry, 21,2881-2885 (1982); Inorganic chemistry, 18,2023-2025 (1979); Inorganic synthetic, 173-176 (1960); With the physical chemistry magazine, 56, tell about among the 22-25 (1952).
In actual applications, be not subjected to limitation, the present composition and purging method can be conditioned so that provide in the washing water-bearing media at least about per active bleaching catalyst of 1/1st, preferably in washing soln, provide about 0.01ppm to about 25ppm, more preferably from about 0.05ppm is to about 10ppm, and most preferably from about 0.1ppm is to the bleaching catalyst of about 5ppm.In order in the wash water solution of automatic washing process, to reach this amount, the typical composition of the present invention will comprise, and by cleaning combination weight, about 0.0005%-about 0.2%, more preferably from about about 0.08% bleaching catalyst, particularly manganese of 0.004%-or cobalt catalyst.
Preferably comprise enzyme in enzyme-detergent composition of the present invention to reach various purposes, comprise from substrate and remove protein-based, carbohydrate-based or triglyceride level base spot, and for fear of the dye migration that in the fabric washing process, comes off with for the recovery of fabric.Suitable enzyme comprises proteolytic enzyme, amylase, lipase, cellulase, peroxidase, and their mixture, and they can be from any suitable source, for example plant, animal, bacterium, mould and yeast source.They preferably select to be subjected to some factor affecting, as pH-activity and/or optimal stability value, thermostability with to the stability of activated detergent and washing assistant etc.Aspect this, bacterium or fungous enzyme are preferred, as bacterial amylase and proteolytic enzyme and mould cellulase.
" detersive enzyme " used herein refers to have washing in laundry, hard surface cleaning or personal care detergent composition, decontamination is steeped or any enzyme of other beneficial effect.Preferred detersive enzyme is lytic enzyme such as proteolytic enzyme, amylase and lipase.The enzyme of purposes of preferably being used to do washing includes, but are not limited to proteolytic enzyme, cellulase, lipase and peroxidase.It is highly preferred that amylase and/or proteolytic enzyme about automatic dishwashing, comprise type and improved type that common commerce can be buied, though increasing SYNTHETIC OPTICAL WHITNER has tolerability through constantly improving, but still keep SYNTHETIC OPTICAL WHITNER inactivation susceptibility to a certain degree.
Usually the enzyme that mixes q.s in washing composition or laundry additive composition is to provide " effectively flushing dose ".Term " effectively flushing dose " refers to provide cleaning, removes spot, decontamination dirt on substrate such as fabric, tableware etc., brighten, and deodorizing or change newly improve any amount of effect.In the practical situation of present commercial formulation, the general quantity of the organized enzyme of every gram detergent composition is up to about 5 milligrams of weight, and more typical is 0.01 milligram to 3 milligrams.In other words, composition herein generally comprises 0.001% to 5%, preferred 0.01%-1% (weight) commercial enzyme preparation.Proteolytic enzyme is usually to be enough to the providing 0.005 active content to 0.1Anson unit (AU) to be present in this commodity preparation in every gram composition.For some washing composition, for example the washing composition that uses in the automatic dishwashing may need to increase the organized enzyme content of this commercial formulation, so that make the total amount minimum of non-catalytic active substance, improves thus and removes spot/film-forming properties or other net result.In highly enriched detergent formulation, also need higher live vol.
Suitable examples of proteases is a subtilisin, and it is that special bacterial strain by subtilis and Bacillus licheniformis obtains.Another kind of suitable proteolytic enzyme is to be obtained by bacillus strain, and it has maximum activity in the pH8-12 scope, and it is by the NovoIndustries A/S company exploitation of Denmark and with ESPERASE Sell, hereinafter be called " Novo ".The preparation of this kind of enzyme and similar enzyme is described among the british patent specification GB1243784 of Novo company.Other suitable proteolytic enzyme comprise the ALCALASE from Novo And SAVINASE With from the International Bio-Synthetics of Holland, the MAXATASE of Inc. And be described in the protease A among the european patent application 130756A on January 9th, 1985 and be described in the european patent application 303761A on April 28th, 1987 and the proteolytic enzyme B among the european patent application 130756A on January 9th, 1985.Simultaneously referring to the high pH proteolytic enzyme among the WO 9318140A that is described in Novo from bacillus NCIMB 40338.Contain proteolytic enzyme, the enzyme detergent of one or more other enzymes and reversible protease inhibitors is described among the WO 9203529A of Novo.Other preferred proteolytic enzyme comprise and are described in P﹠amp; Those proteolytic enzyme among the WO9510591A of G company.When needs, as at P﹠amp; Describe among the WO 9507791 of G company, can obtain adsorbing the proteolytic enzyme of reduction and hydrolysis increase.The recombinant protein enzyme that is suitable for the trypsin-like of washing composition of the present invention is described among the WO 9425583 of Novo.
Particularly, the particularly preferred proteolytic enzyme that is called as " proteolytic enzyme D " is to have the carbonylic hydrolase variant that does not have the aminoacid sequence of discovery at occurring in nature, and it obtains from carbonylic hydrolase is precursor-derived, this deriving is numbering according to the bacillus amyloliquefaciens subtilysin, is equivalent to the amino-acid residue at position+76 places with different aminoacid replacement in described carbonylic hydrolase, also preferred combination replace be equivalent to be selected from+99, + 101 ,+103 ,+104, + 107 ,+123 ,+27, + 105 ,+109 ,+126, + 128 ,+135 ,+156, + 166 ,+195 ,+197, + 204 ,+206 ,+210, + 216, + 217 ,+218 ,+222, + 260, + 265, and/or+one or more amino-acid residues of 274 positions, as disclosed among the WO95/10615 that announces in the April 20 nineteen ninety-five of Genencor International.
The proteolytic enzyme that is fit to also is described in the PCT open source literature: The Procter ﹠amp; The WO95/30010 that announce the November 9 nineteen ninety-five of GambleCompany; The Procter ﹠amp; The WO95/30011 that announce the November 9 nineteen ninety-five of GambleCompany; The Procter ﹠amp; The WO95/29979 that announce the November 9 nineteen ninety-five of GambleCompany.
Be suitable for the present invention, especially for, but the amylase that is not limited to the automatic dishwashing purpose comprises, for example the α-Dian Fenmei of describing in the british patent specification GB1296839 of Novo; International Bio-Synthetics, the RAPIDASE of Inc. TERMAMYL with Novo FUNGAMYL from Novo Be useful especially.Improve stability, for example the enzyme engineering of oxidative stability is known.Referring to, for example " journal of biological chemistry ", the 260th volume, o. 11th, in June, 1985,6518-6521 page or leaf.Some embodiment preferred of the present composition can be utilized at the washing composition amylase of improved stability in the washing composition of automatic dishwashing type for example, especially at the TERMAMYL that used in commerce in 1993 The amylase of the oxidation-stabilized property improvement measured of reference point.These preferred amylase have the diastatic feature of " stability strengthens " among the present invention, compare with top definite reference point amylase, its feature is to have one or more detectable improvement at least: oxidative stability, for example, in the buffered soln of pH9-10 to the stability of hydrogen peroxide/tetra acetyl ethylene diamine; Thermostability, for example, in common wash temperature according to appointment under 60 ℃; Or alkaline stability, for example at pH from about 8 to about 11 times.Stability can be used disclosed any experimental technique mensuration in the prior art.Referring to, disclosed reference in WO 9402597 for example.Stability enhanced amylase can obtain from Novo or from Genencor International.Class amylase very preferably has a general character among the present invention, promptly uses site-directed mutagenesis method from one or more bacillus amylases, and especially the bacillus α-Dian Fenmei is derived and obtained, no matter and whether have a kind ofly, two or more amylase strains are direct precursors.Be preferred for especially in the bleach detergent compositions with top definite oxidative stability enhanced amylase of comparing with reference to the powder enzyme, be more preferably and be used for the oxygen bleaching detergent composition different with chlorine bleaching.This preferred amylase comprises the amylase among the WO9402597 on 3 days February in 1994 of the Novo that (a) above quotes, it can be further specified by mutant, wherein use L-Ala or Threonine, preferred Threonine replaces the methionine residue of 197 positions that are positioned at the Bacillus licheniformis α-Dian Fenmei, is called as TERMAMYL , or similar parent amylase, as bacillus amyloliquefaciens, subtilis, or the homology positional variant of bacstearothermophilus; (b) the stable enhanced amylase of being described by GenencorInternational, it is described in exercise question that C.Mitchinson delivers in " oxidation resistant α-Dian Fenmei " article in the 207th American Chemical Society's whole nation meeting holding 13-17 day in March, 1994.It should be noted that wherein the SYNTHETIC OPTICAL WHITNER in the automatic dishwashing washing composition makes the α-Dian Fenmei inactivation, but the amylase of oxidation-stabilized property improvement is made from Bacillus licheniformis NCIB8061 by Genencor.Methionine(Met) (Met) is confirmed as the residue that most probable is modified.Met is each to replace one, and the position of substitution is 8,15, and 197,256,304,366 and 438, obtain special mutant, particularly importantly M197L and M197T, wherein the M197T variant is the variant that the most stable quilt is expressed.Measured CASCADE And SUNLIGHT Stability; (c) particularly preferred amylase comprises the amylase mutation that has other modifications in direct parent as describing among the present invention in WO9510603A, and it can sentence DURAMYL from Novo transferee Bought.Other particularly preferred oxidative stability enhanced amylase are included in those amylase of describing among the WO9402597 of the WO 9418314 of Genencor International and Novo.Can use any other oxidative stability enhanced amylase, for example diastatic known chimeric from what can buy by site-directed mutagenesis, blended or simple mutant parent form are derived and are obtained.Other preferred enzyme modifications can reach.WO 9509909A referring to Novo.
Other amylase is included in those that describe among the application PCT/DK 96/00056 that do not wind up the case of WO95/26397 and Novo Nordisk.The concrete amylase that is used for detergent composition of the present invention comprises a-amylase, it is characterized in that passing through Phadebas (this Phadebas is measured in the check of a-amylase activity A-amylase activity check is described in the 9-10 page or leaf of WO95/26397), under the 8-10 scope, its specific activity is greater than Termamyl 25 ℃-55 ℃ and pH value At least 25% of specific activity.The present invention also comprises and the aminoacid sequence 80% homologous a-amylase shown in the SED ID sequence in this reference at least.These enzymes, by the weight of total composition, preferably with the pure enzyme of 0.00018%-0.060%, more preferably the pure enzyme content of 0.00024%-0.048% mixes in the laundry detergent composition.
Can be used for the cellulase that cellulase among the present invention comprises bacterium and mould type, preferably they have the best pH scope of 5-9.5.The U.S. Pat 4435307 of authorizing in 6 days March in 1984 of people such as Barbesgoard disclose from the suitable mould cellulase of Humicola insolens or humicola lanuginosa strain DSM 1800 or belong to cellulase 212 that the mould of Aeromonas produces and the hepatopancreas by extra large mollush Dolabella AuriculaSolander in the cellulase that extracts.Suitable cellulase also is disclosed in GB-A-2075028; Among GB-A-2095275 and the DE-OS-2247832.CAREZYME And CELLUZYME (Novo) be useful especially.Also referring to the WO 9117243 of Novo.
The spendable suitable lipase of washing composition comprises by the microorganism in the Rhodopseudomonas family, those lipase that produce as Situ Ci Shi (stutzeri) aeruginosa atcc 19.154, as be disclosed among the English Patent GB-1372034 those.Also referring to the lipase of speciallyying permit on February 24th, 1978 among the disclosed Japanese patent application 53-20487.This lipase can be from AmanoPharmaceutical Co.Ltd.Nagoya, and Japan has bought, commodity lipase P " Amano " by name or " Amano-P ".Other suitable commercial lipase comprise Amano-CES, by Chromobacter viscosum, for example, and the lipase that Chromobacter viscosum var.lipolyticum NRRLB 3673 obtains, they are from Toyo Jozo Co., Tagata, Japan; Chromobacter viscosum lipase, from U.S.BiochemicalCorp., U.S.A. and the Disoynth Co. of Holland and the lipase that obtains by gladiolus pseudomonas (Pseudomonas gladioli).Derive by fetal hair detritus bacterium (Humicolalanuginosa) and to obtain and at the commercial LIPOLASE that can buy by Novo (equally referring to EP341947) Enzyme is the preferred herein lipase that uses.Among the WO 9414951A that the stable lipase of peroxidase and amylase variant are described in Novo.Also referring to WO9205249 and RD 94359044.
Although lot of documents discloses lipase, only be found the additive that is widely used as fabric washing product so far by fetal hair detritus bacterium (Humicolalanuginosa) deutero-and the lipase that produces in as the host at aspergillus oryzae.As above-mentioned, it can be buied by trade(brand)name LipolaseTM by Novo Nordisk.Best for the decontamination stain performance that makes Lipolase, NovoNordisk has made many varients.As describing in WO92/05249, the D96L varient of natural fetal hair detritus bacterium lipase has improved the effectiveness of removing lard, and its effectiveness is 4.4 times (enzyme is to compare in every liter of 0.075-2.5mg protein mass scope) of the lipase of wild-type.The add-on that is disclosed lipase varient (D96L) by NovoNordisk in the Research Disclosure No.35944 that announced on March 10th, 1994 is equivalent to every liter of washings 0.001-100mg (5-500,000LU/l) lipase varient.The present invention is by using the D96L varient of low levels in the detergent composition that contains by the primary alkyl tensio-active agent of the mid-chain branched of this paper publicity pattern, provide the whiteness that fabric is improved to keep effect, particularly when D96L uses with every liter of about 8500LU amount of the about 50LU-of washing soln.
Be applicable to that at enzyme of the present invention is described among the WO 8809367A of Genencor.
Peroxidase can with oxygen source, for example, percarbonate, perborate, hydrogen peroxide etc. are used in combination, other substrate that they are used for " solution bleaching " or avoid existing to the washing soln in dyestuff that washing process comes off from substrate or pigment migration.Known peroxidase comprises horseradish peroxidase, lignoenzyme and halo peroxidase such as chloro or bromoperoxidase.The detergent composition that contains peroxidase be disclosed in Novo on October in 1989 19 disclosed WO 89099813A and the WO 8909813A of Novo in.
Various enzyme materials and their methods in the synthetic detergent composition of mixing also are disclosed in WO 9307263A and the WO 9307260A of Genencor International, in the people's such as McCarty that the WO 8908694A of Novo and on January 5th, 1971 authorize the U.S. Pat 3553139.Some enzymes also be disclosed in the people's such as Place that authorized on July 18th, 1978 U.S. Pat 4101457 and the U.S. Pat 4507219 of the Hughes that authorized on March 26th, 1985 in.The enzyme material that is used for liquid detergent formula is incorporated into the method for these prescriptions with them, is disclosed in the people's such as Hora that authorized on April 14th, 1981 the U.S. Pat 4261868.The enzyme that is used for washing composition can make its stabilization with various technology.The enzyme stabilization technology is open and illustrate the people's such as Gedge that authorize on August 17th, 1971 U.S. Pat 3600319, EP199405 and October in 1986 disclosed Venegas on the 29th European patent EP 200586 in.The enzyme stabilization system for example also is described in the U.S. Pat 3519570.The useful bacillus AC13 that produces proteolytic enzyme, zytase and cellulase is described among the WO 9401532A of Novo.
The enzyme stabilising system
The present invention contains enzyme composition and can also randomly contain and have an appointment 0.001% to about 10%, and preferred about 0.005% to about 8%, most preferably from about the 0.01% enzyme stabilising system to about 6% (weight).The enzyme stabilising system can be any stabilising system compatible with detersive enzyme.This system can be provided by other activess of filling a prescription itself, and perhaps the manufacturer by for example teacher of prescription or washing composition alternation enzyme adds separately.This stabilising system can contain, calcium ion for example, and boric acid, propylene glycol, the short chain carboxy acid, boric acid and their mixture, and design to be used to solve various stabilization problem according to the type and the physical form of detergent composition.
A kind of stabilization method is a water-soluble sources of using calcium and/or magnesium ion in final product composition having, and it provides these ions to enzyme.Calcium ion is more effective than magnesium ion usually, if only use one type positively charged ion, and the preferred calcium ion of this paper.Typical detergent composition, especially liquid detergent composition, contain in every liter of finished product detergent composition and have an appointment 1 to about 30, preferred about 2 to about 20,8 calcium ions more preferably from about to about 12 mmoles, but its content can comprise the kind diversity that is impregnated in enzyme according to some factors, type and content and change.Preferred water-soluble calcium or the magnesium salts of using comprises for example calcium chloride, calcium hydroxide, calcium formiate, calcium malate, calcium maleate, calcium hydroxide and lime acetate, more generally be can use calcium sulfate or corresponding to the magnesium salts of the calcium salt of institute's example.Further increase the content of calcium and/or magnesium yes useful, for example promoted the delipidation of the tensio-active agent of some type.
Another stabilising method are to use borate substance.U.S. Pat 4537706 referring to Severson.When using, the content of borate stablizer can up to composition 10% or more, but more generally be to be suitable for the liquid washing agent purposes up to the boric acid of about 3% (weight) content or other borate compounds such as borax or ortho-borate.The boric acid such as the phenyl-boron dihydroxide that replace, butane boric acid, right-bromophenyl boric acid etc. can be used to replace boric acid, though used the boron derivative of this replacement, still may reduce the total boron content in the detergent composition.
Some cleaning combination, for example the stabilising system of automatic dishwashing composition can also comprise 0 to about 10%, preferred about 0.01% chlorine bleach scavenging agent to about 6% (weight), its adding is the chlorine bleach material that exists in many water sources to the destruction of enzyme and makes enzyme deactivation, especially under alkaline condition.The content of the chlorine in water may be very little, generally be at about 0.5ppm to about 1.75ppm scope, and the chlorine in the overall ponding that contacts with enzyme when for example wash up or laundering of textile fabrics may be relative a large amount of; Therefore, in use enzyme has problem sometimes to the stability of chlorine.Because perborate or percarbonate have the ability with the chlorine bleach reaction, they can be present in some present composition with the quantity of calculating separately at stabilising system, the most common stablizer that needn't use additional anti-chlorine is although use them can improved result.The chlorine scavenger negatively charged ion thing that is fit to is known and obtains easily that if you are using, they can be the sulphite that contains ammonium cation, hydrosulphite, thiosulfite, thiosulphate, iodide etc.Also can use polyphenoils such as carbamate, ascorbate salt etc., organic amine such as ethylenediamine tetraacetic acid (EDTA) (EDTA) or its an alkali metal salt, monoethanolamine (MEA) and their mixture.Equally, can mix special enzyme inhibition system so that different enzymes has maximum consistency.If necessary, can use other conventional scavenging agent such as hydrosulfates, nitrate, muriate, hydrogen peroxide cource such as sodium perborate tetrahydrate, Sodium peroxoborate monohydrate and SPC-D, and phosphoric acid salt, condensed phosphate, acetate, benzoate, Citrate trianion, formate, lactic acid salt, malate, tartrate, salicylate etc., and their mixture.Usually, because the listed component with better affirmation function can play the effect of chlorine scavenger, (for example, hydrogen peroxide cource) in addition, therefore not absolute demand adds chlorine scavenger separately, lacks the compound that reaches this required degree function unless the present invention contains in the embodiment of enzyme; Even so, adding chlorine scavenger only is in order to obtain optimal results.In addition, the prescription teacher also can avoid using and most of inconsistent any enzyme scavenging agent of other active ingredients or stablizer when preparation according to the common sense in the chemistry.Relate to when using ammonium salt, this class salt can mix with detergent composition simply, but they tend to suction and/or discharge ammonia in storage process.Therefore, if there is this class material, they need be protected in the particle, as what describe in people's such as Baginski U.S. Pat 4652392.
The detergent builders of washing assistant-be selected from silico-aluminate and silicate is preferably included in the present composition, for example helps to be controlled at the mineral substance in the washing water, particularly Ca and/or Mg hardness, or helps to remove particulate fouling from the surface.
The silicate-like builder that is fit to comprises water miscible and hydration solid type, and comprise have chain structure, those and amorphous-solid or non-structured kind of liquid of layer structure or three-dimensional structure.Preferably alkalimetal silicate, particularly SiO 2: Na 2O is than 1.6: 1-3.2: 1 those liquid and solid silicate, comprise, and be 2 metaborate monohydrate silicate especially for the ratio of automatic dishwashing purpose, it is sold by Pq Corp., and commodity are called BRITESIL , BRITESIL H for example 2O; And layered silicate, for example those that in the US4664839 that authorizes 12 days Mays in 1987 of H.P.Rieck, describe.NaSKS-6, being abbreviated as " SKS-6 " sometimes is the crystalline layered no aluminium δ-Na that is sold by Hoechst 2SiO 5The silicate of form, it is particularly preferred in the granular laundry composition.See the preparation method in DE-A-3417649 and DE-A-3742043.Other layered silicate, for example those have the layered silicate of general formula NaMSixO2x+1.yH2O, and wherein M is sodium or hydrogen, and x is 1.9 to 4 numerical value, is preferably 2, and y is 0 to 20 numerical value, is preferably 0 and also can or be used for the present invention as an alternative.The layered silicate of buying from Hoechst also comprises NaSKS-5, NaSKS-7, and NaSKS-11, and they are layered silicates of α, β and γ form.Other silicate also is useful, Magnesium Silicate q-agent for example, and it can be used as crisp dose of particle product, as the stablizer of SYNTHETIC OPTICAL WHITNER and the component of control foam system.
Also being suitable for of the present invention is synthetic crystallization ion-exchange material or its hydrate, its have chain structure and by following general formula with forming that the form of acid anhydride is represented: xM 2O.ySiO 2.zM ' O, wherein M is Na and/or K, M ' is Ca and/or Mg; Y/x is 0.5-2.0, and z/x is 0.005-1.0, as what lecture among the US5427711 that authorizes in the June 27 nineteen ninety-five of Sakaguchi etc.
The silico-aluminate washing assistant is specially adapted in the granulated detergent, but also can mix liquid, in cream or the gel product.What be applicable to the object of the invention is to have those of following empirical formula: [M z(AlO 2) z(SiO 2) v] .xH 2O wherein z and v is at least 6 integer, and the mol ratio of z and v is in 1.0 to 0.5 scopes, and x is 15 to 264 integer.Silico-aluminate can be crystallization or unbodied, naturally occurring or synthetic obtaining.The method for preparing silico-aluminate is disclosed in the people's such as Krummel that authorized on October 12nd, 1976 the U.S. Pat 3985669.Preferred synthetic crystallization aluminosilicate ion exchange material can have been bought by zeolite A, zeolite P (B), X zeolite and so-called zeolite MAP (it is different from zeolite P to a certain extent).Natural type comprises clinoptilolite, also can use.Zeolite A has formula: Na 12[(A1O 2) 12(SiO 2) 12] .xH 2O, wherein x is 20 to 30, especially 27.Dehydration zeolite (x=0-10) also can use.Preferably aluminosilicate salt has the granularity of diameter 0.1-10 micron.
Except above-mentioned silicate and silico-aluminate or be used for replacing their detergent builders can randomly be included in the present composition, for example help to be controlled at the mineral substance in the washing water, particularly Ca and/or Mg hardness, or help to remove particulate fouling from the surface.Washing assistant can comprise with hardness ions forming solubility or insoluble title complex by multiple mechanism operation, is more suitable in the surface of precipitation hardness ions by ion-exchange with by providing than the article surface that is washed.Washing assistant content can change in a wide range, and this depends on the end-use and the physical form of composition.The washing composition that adds washing assistant generally comprises at least about 1% washing assistant.It is about 50% that liquid formulations generally comprises about 5%-, is more typically the 5%-35% washing assistant.Granular recipe, by detergent composition weight, it is about 80% generally to comprise about 10%-, is more typically the 15%-50% washing assistant.Do not get rid of the lower of washing assistant or high-content more.For example, some detergent additives or high surface agent prescription can not contain washing assistant.
The washing assistant that the present invention is fit to can be selected from phosphoric acid salt and poly-phosphate, particularly sodium salt; The carbonate mine material of carbonate, supercarbonate, sesquicarbonate and non-yellow soda ash or concentrated crystal soda; Organic list-, two-, three-and tetracarboxylic acid hydrochlorate, particularly water miscible nonsurfactant carboxylate salt, they are forms of acid, sodium, potassium or alkanol ammonium salt, and oligomerization or water-soluble low molecular weight polymerization of carboxylic acid salt, comprise aliphatic series and aromatics type; And phytinic acid.That can replenish also has borate, for example is used for the buffer pH purpose, or vitriol, particularly sodium sulfate and generation contained important any other filler or the carrier of the detergent composition of stabilized surfactant and/or washing assistant.
Can use the washing assistant mixture, be sometimes referred to as " builder system ", it generally comprises two or more conventional washing assistants, randomly can replenish sequestrant, pH buffer reagent or filler, but when describing the content of material herein, these materials of the latter are calculated respectively usually.About tensio-active agent and washing assistant relative consumption in washing composition of the present invention, preferred builder system is about 60 by the weight ratio of tensio-active agent and washing assistant generally: 1-was prepared in about 1: 80.Some preferred detergent for washing clothes has described ratio 0.90: 1.0-4.0: 1.0 scopes, and more preferably 0.95: 1.0-3.0: 1.0 scopes.
When rules allowed, the phosphorus-containing detergent washing assistant often was preferred, included, but not limited to basic metal, ammonium and the alkanol ammonium salt of polyphosphoric acid, and example is tri-polyphosphate, pyrophosphate salt, glassy polymeric metaphosphate and phosphonate.
The carbonate builders that is fit to comprises as disclosed basic metal and alkaline earth metal carbonate on November 15th, 1973 disclosed German patent application 2321001, but sodium bicarbonate, yellow soda ash, concentrated crystal soda and other carbonate mine material be urao for example, or any suitable composite salt of yellow soda ash and lime carbonate, for example when having the 2Na of consisting of when anhydrous 2CO 3.CaCO 3Those and even comprise the lime carbonate of calcite, graupel aragonite and vaterite, particularly have those of form of high surface area with respect to the calcite of densification, also be operable, for example as crystal seed or be used for the synthetic detergent bar.
The organic detergent washing assistant that is fit to comprises multi-carboxylate's compound, comprises the dicarboxylate and the tricarboxylate of water miscible nonsurfactant.More generally, the washing assistant multi-carboxylate has a plurality of carboxylate groups, preferably at least 3 carboxylate groups.The carboxylate salt washing assistant can be formulated into acid, part neutral, neutral or overbasic form.When being the form of salt, basic metal for example sodium, potassium and lithium or alkanol ammonium salt is preferred.The multi-carboxy acid salt washing agent comprises the ether multi-carboxylate, and oxygen di-succinate is for example seen the U.S. Pat 3635830 of authorizing in 18 days January in 1972 of people such as the U.S. Pat 3128287 of authorizing in 7 days April in 1964 of Berg and Lamberti; " TMS/TDS " washing assistant in the people's such as Bush that authorized on May 5th, 1987 the U.S. Pat 4663071 and other ether carboxylate comprise ring-type and alicyclic compound, as in U.S. Pat 3923679; US3835163; US4158635; Described in US4120874 and the US4102903 those.
Other washing assistants that are fit to are ether hydroxypolycarboxylic acid salt, the multipolymer of maleic anhydride and ethene or vinyl methyl ether; 1,3,5-trihydroxybenzene-2,4,6-trisulfonic acid; Carboxyl methyl oxygen base succsinic acid; Polyacetic acid, as various basic metal, ammonium and the substituted ammonium salt of ethylenediamine tetraacetic acid (EDTA) and nitrilotriacetic acid(NTA), and mellitic acid, succsinic acid, polymaleic acid, benzene-1,3,5-tricarboxylic acid, carboxymethyl oxygen base succsinic acid and their soluble salt.
Citrate trianion, for example citric acid and its soluble salt are for example to be used for the important carboxylate salt washing assistant of heavy duty liquid laundry detergent, reason is that they can be obtained and their biodegradability by renewable resource.Citrate trianion also can be used for particulate composition, especially can be used in combination with zeolite and/or layered silicate.Oxygen di-succinate also is useful especially in these compositions and mixture.
Under situation about allowing, particularly, can use alkali metal phosphate, for example tripoly phosphate sodium STPP, trisodium phosphate and sodium orthophosphate at the stick prescription that is used for hand-washing operation.Also can use the phosphonate washing assistant, ethane-1-hydroxyl-1 for example, 1-diphosphonate and other known phosphonate, for example U.S. Pat 3159581; 3213030; 3422021; Those disclosed in 3400148 and 3422137, they have required anti-incrustation character.
The homologue of some detergent surfactant or their short chains also has the washing assistant effect.For the prescription that offers some clarification on purpose, when they had surfactant properties, these materials were summed up as detergent surfactant.Illustrative examples with preferred type of washing assistant function is: 3, and 3-dicarboxyl-4-oxa--1,6-hexane diacid salt and relevant compound, it is disclosed in Bush, among the US4566984 on January 28th, 1986.The succsinic acid washing assistant comprises C 5-C 20Alkyl and alkenyl succinic and its salt.The succinate washing assistant also comprises lauryl succinate, myristyl succinate, palmityl succinate, 2-dodecenyl succinic succinate (preferably), 2-15 carbene base succinates etc.The lauryl succinate is described in european patent application 86200690.5/0,200, promulgation on November 5th, 263,1986.Lipid acid, for example C 12-C 18Monocarboxylic acid also can be separately mix in the present composition as tensio-active agent/builder material or with above-mentioned washing assistant combination, and particularly Citrate trianion and/or succinate washing assistant are to provide additional washing assistant activity.Other multi-carboxylate who is fit to be disclosed in the people's such as Crutchfield that authorized on March 13rd, 1979 U.S. Pat 4144226 and the U.S. Pat 3308067 of the Diehl that authorized on March 7th, 1967 in.Also referring to U.S. Pat 3723322.
The inorganic builders material of spendable other type has formula: (M x) iCa y(CO 3) z, wherein x and i are the integers of 1-15, and y is the integer of 1-10, and z is the integer of 2-25, M iBe positively charged ion, wherein at least a is water miscible, and satisfies the equation ∑ I=1-15(x iTake advantage of M iValence state)+2y=2z so that this formula has neutrality or " balance " electric charge.These washing assistants are called as " mineral substance washing assistant " at this paper.The water of hydration or the negatively charged ion of noncarbonate can add, and condition is that total charge is equilibrated or neutrality.This anionic electric charge or valence state influence should be added to the right of above equation.Preferably, have water miscible positively charged ion, it is selected from hydrogen, water-soluble metal, hydrogen, boron, amine, silicon and its mixture, more preferably sodium, potassium, hydrogen, lithium, ammonium and composition thereof, very preferably sodium and potassium.The anionic non-limiting example of noncarbonate comprises and is selected from following those: chlorine, sulfate radical, fluorine, oxygen, hydroxide radical, silicon-dioxide, chromate, nitrate radical, borate and its mixture.This class the most preferred washing assistant of independent form is selected from Na 2Ca (CO 3) 2, K 2Ca (CO 3) 2, Na 2Ca 2(CO 3) 3, NaKCa (CO 3) 2, NaKCa 2(CO 3) 3, K 2Ca 2(CO 3) 3With its mixture.The particularly preferred material that is used as the washing assistant of the present invention's description is the Na of any crystal modification 2Ca (CO 3) 2The suitable washing assistant of above define styles further specifies as follows, comprises the natural or synthesized form of any or its combination of following mineral substance: Ah's cancrinite, andersonite, ashcroftine Y, beyerite, the carbon kurchatovite, yellow carbon strontium sodium stone, aqueous carbonate potassium calcium stone, cancrinite, stone cerium sodium stone, the carbon canasite, davyne, carbon yttrium strontium city Y, carbon potassium calcium stone, Ferrisurite, the sulphur davyne, carbon boron manganese calcium stone, gaylussite, Girvasite, ilmenite, sulphur carbon calcium manganese stone, Kamphaugite Y, kettnerite, Khanneshite, Lepersonnite Gd, liottite, carbon barium yttrium ore deposit Y, microsommite, the carbon carlfriesite, Buddhist nun's charcoal sodium calcium stone, Buddhist nun's shortite, Remondite Ce, the Sa davyne, the plate carburane, shortite, the plumbous stone of carbon sial, carbon sodium mayenite, sulphur silico-calcium potassium stone, tyrolite, vishnevite and Zemkorite.The preferred mineral form comprises Buddhist nun's shortite, carbon potassium calcium stone and shortite.Detergent surfactant
Detergent composition of the present invention preferably also comprises additional surfactant, and this paper also is called cosurfactant.Will be appreciated that branched chain surfactant by the inventive method preparation can be used for cleaning combination separately or is used in combination with other detergent surfactant.Generally, the cleaning combination of complete formula contains the mixture of various surfactants, so that to various dirts and spot with obtain cleaning performance widely under various application conditions.An advantage of branched chain surfactant of the present invention is the ability that they have easily and other known combinations-of surfactants is prepared.Generally the unrestricted example that is used for additional surfactants of the present invention with about 55% (weight) of about 1%-comprises unsaturated vitriol, for example oleyl sulfate, C 10-C 18Alkyl alkoxy sulfate (" AE xS "; EO1-7 ethoxy sulfate particularly), C 10-C 18Alkyl alkoxy carboxylate salt (particularly EO1-5 ethoxy carboxylate), C 10-C 18Glycerol ether sulfate, C 10-C 18Alkyl polyglycoside and the many glycosides of they corresponding sulfations, and C 12-C 18A-sulfonated fatty acid ester.Also can use nonionogenic tenside, for example ethoxylation C 10-C 18Pure and mild alkylphenol, for example C 10-C 18EO (1-10).If necessary, in total composition of the present invention, also can comprise for example C of other conventional tensio-active agent 12-C 18Trimethyl-glycine and sultaine, C 10-C 18Amine oxide etc.Can also use C 10-C 18N-alkyl polyhydroxy fatty acid amide.Typical example comprises C 12-C 18The N-methyl glucose amide.Referring to WO9,206,154.Other sugared deutero-tensio-active agent comprises N-alkoxyl group polyhydroxy fatty acid amide, for example C 10-C 18N-(3-methoxy-propyl) glucamide.The N-propyl group is to N-hexyl C 12-C 18Glucamide can use when the low foaming of needs.Also can use C 10-C 20Conventional soap.High if desired foaming can be used side chain C 10-C 16Soap.C 10-C 14Alkylbenzene sulfonate (LAS), it is generally used in the laundry detergent composition, and it also can use with this paper branched surfactants.
In detergent composition of the present invention, can use these cosurfactants of wide region.Negatively charged ion, nonionic, both sexes and the general catalogue of zwitter-ion type tensio-active agent and the kind of these cosurfactants have been provided among the US3664961 of the Norris that authorizes on May 23rd, 1972.Amphoterics also is described in detail in " amphoterics, second edition ", and editor E.G.Lomax (announced in 1996, Marcel Dekker, Inc.).
It is about 35% that laundry detergent composition of the present invention generally comprises about 0.1%-, preferably about 0.5%-about 15% (weight) cosurfactant.Selected cosurfactant is further determined as follows: (1) negatively charged ion cosurfactant:
Being suitable for general consumption of the present invention comprising for the unrestricted example of the negatively charged ion cosurfactant of about 50% (weight) of about 0.1%-: conventional C 11-C 18The uncle and the random C of alkylbenzene sulfonate (" LAS ") and side chain 10-C 20Alkyl-sulphate (" AS "), formula CH 3(CH 2) x(CHOSO 3 -M +) CH 3And CH 3(CH 2) y(CHOSO 3 -M +) CH 2CH 3C 10-C 18Secondary (2,3) alkyl-sulphate, x and (y+1) be integer wherein at least about 7, preferably at least about 9, M is a water-soluble cationic, sodium particularly, unsaturated vitriol is oleyl sulfate for example, C 10-C 18A-sulfonated fatty acid ester, C 10-C 18Sulfated alkyl polyglycoside, C 10-C 18Alkyl alkoxy sulfate (" AE xS "; EO 1-7 ethoxy sulfate particularly), C 10-C 18Alkyl alkoxy carboxylate salt (particularly EO1-5 ethoxy carboxylate).C 12-C 18Trimethyl-glycine and sultaine, C 10-C 18Amine oxides etc. also can be included in the total composition.Also can use C 10-C 20Conventional soap.High if desired foaming can be used side chain C 10-C 16Soap.Other conventional negatively charged ion cosurfactant that is fit to is listed in the standard textbook.
Be suitable for alkyl alkoxy sulfate tensio-active agent of the present invention and preferably have formula RO (A) mSO 3The water-soluble salt of M or acid, wherein R is unsubstituted C 10-C 24Alkyl or have C 10-C 24The hydroxyalkyl of moieties, preferred C 12-C 18Alkyl or hydroxyalkyl, more preferably C 12-C 15Alkyl or hydroxyalkyl, A are oxyethyl group or propoxy-unit, and the m value is greater than 0,-as between about 0.5 to about 6, more preferably between about 0.5 to about 3, M is H or positively charged ion, and it can be the ammonium cation of metallic cation (for example sodium, potassium, lithium, calcium, magnesium etc.), ammonium or replacement for example.Alkyl ethoxylated sulfate and alkyl propoxylated sulphates are that this paper expects use.The specific examples of the ammonium cation that replaces comprises ethanol, three ethanol, methyl, dimethyl, trimethyl ammonium positively charged ion and quaternary ammonium cation for example tetramethyl-ammonium and dimethyl base pyridine positively charged ion, and those are by alkylamine for example ethamine, diethylamine, triethylamine and its mixture deutero-positively charged ion etc.The tensio-active agent that exemplifies has C 12-C 15Alkyl polyethoxylated (1.0) vitriol (C 12-C 15E (1.0) M), C 12-C 15Alkyl polyethoxylated (2.25) vitriol (C 12-C 15E (2.25) M), C 12-C 15Alkyl polyethoxylated (3.0) vitriol (C 12-C 15E (3.0) M) and C 12-C 15Alkyl polyethoxylated (4.0) vitriol (C 12-C 15E (4.0) M), suitable sodium and the potassium of being selected from of M wherein.
Be suitable for alkylsurfuric acid salt anionic surfactant of the present invention and preferably have formula ROSO 3The water-soluble salt of M or acid, wherein R C preferably 10-C 24Alkyl preferably has C 10-C 18The alkyl of moieties or hydroxyalkyl, more preferably C 12-C 15Alkyl or hydroxyalkyl, M is H or positively charged ion, for example the ammonium of alkali metal cation (for example sodium, potassium, lithium) or ammonium or replacement (for example methyl, dimethyl and trimethyl ammonium positively charged ion and quaternary ammonium cation for example trimethyl ammonium and dimethyl base pyridine positively charged ion and by alkylamine quaternary ammonium cation of obtaining of ethamine, diethylamine, triethylamine and their mixture etc. for example).
Other spendable suitable anion surfactant is an alkyl sulfonate surfactants, comprise according to " U.S. oiling scholar understands will " (The Journal of the AmericanOil Chemists Society), 52 (1975), the method for 323-329 page or leaf gaseous state SO 3Sulfonated C 8-C 20The linear ester of carboxylic acid (being lipid acid).The raw material that is fit to comprises as by butter, palm wet goods deutero-natural fat class material.
The preferred alkyl sulfonate surfactants that is particularly suitable for laundry applications comprises the alkyl sulfonate surfactants with following structural formula:
R 3-CH (SO 3M)-C (O)-OR 4R wherein 3Be C 8-C 20Alkyl, preferred alkyl, or its combination, R 4Be C 1-C 6Alkyl, preferred alkyl, or its combination, M is a positively charged ion, itself and alkyl ester sulfonate radical form water-soluble salt.The salt-forming cation that is fit to comprises metal for example sodium, potassium and lithium, and replacement or unsubstituted ammonium cation for example monoethanolamine, diethanolamine and trolamine.Preferred R 3Be C 10-C 16Alkyl, R 4Be methyl, ethyl or sec.-propyl.Particularly preferably be methyl ester sulfonate, wherein R 3Be C 10-C 16Alkyl.
Other negatively charged ion cosurfactant that can be used for washing purpose also can be included in the laundry detergent composition of the present invention.These can comprise salt (ammonium salt that comprises for example sodium, potassium, ammonium and replacement is for example single, two and triethanolamine salt), the C of soap 8-C 22Uncle or secondary paraffin sulfonate, C 8-C 24The sulfonated poly carboxylic acid that alkene sulfonate, the pyrolysis product by the sulfonation alkaline earth metal citrate make, for example at british patent specification No.1, described in 082,179, C 8-C 24Alkyl polyglycol ether sulfate (containing as many as 10 moles of ethylene oxide); Alkyl glycerol sulfonate, fatty acyl group glycerol sulfonate, fatty oil acylglycerol vitriol, alkyl phenol epoxy ethane ether salt, paraffin sulfonate, alkylphosphonic, isethionate be acyl isethinate, N-acyl taurine salt, amber alkyl amide salts and sulfosuccinate, sulfosuccinate monoesters (particularly saturated and undersaturated C for example 12-C 18Monoesters) and sulfosuccinate diester (particularly saturated and undersaturated C 6-C 12Diester), the vitriol of alkyl polysaccharide for example alkyl polyglucoside vitriol (compound of the non-sulfuric acidization of nonionic is described following) and alkyl polyethoxye carboxylate salt for example those have formula RO (CH 2CH 2O) kCH 2COO -M +Salt, wherein R is C 8To C 22Alkyl, k is 0 to 10 integer, M is the positively charged ion that forms soluble salt.Resinous acid and hydrogenated resin acid also are suitable for, for example rosin, staybelite, and be present in tallol or by tallol deutero-resinous acid and hydrogenated resin acid.Other example is described in " tensio-active agent and washing composition " (I and II volume, by Schwartz, Perry and Berch write) book.Many this tensio-active agents also are disclosed in the United States Patent (USP) 3,929,678 of authorizing people such as Laughlin on December 30th, 1975 prevailingly, and the 23rd hurdle 58 walks in 29 hurdles, 23 row (this paper quotes for referencial use).
Preferred dithionate tensio-active agent has following formula: Wherein R is that chain length is C 1-C 28, preferred C 3-C 24, C most preferably 8-C 20Alkyl, alkyl, alkenyl, aryl, alkaryl, ether, ester, amine or the amide group of replacement, or hydrogen; It is C that A and B are independently selected from chain length 1-C 28, preferred C 1-C 5, C most preferably 1Or C 2Alkyl, the alkyl and the alkenyl of replacement, or covalent linkage, A and B contain at least 2 carbon atoms altogether; A, B and R contain 4 altogether to about 31 carbon atoms; X and Y are the anionic groups that is selected from sulfate radical and sulfonate radical, and condition is that at least one is a sulfate groups among X or the Y; With M be cationic moiety, preferably replace or unsubstituted ammonium ion or basic metal or alkaline-earth metal ions.
Most preferred dithionate tensio-active agent has following formula, and wherein R is that chain length is C 10-C 18Alkyl, A and B are C independently 1Or C 2, X and Y are sulfate groups, M is potassium, ammonium or sodium ion.
It is about 50% that the general incorporation of dithionate tensio-active agent is counted about 0.1%-by the weight of detergent composition, and preferably about 0.1%-is about 35%, and most preferably from about 0.5%-about 15%.
The preferred dithionate tensio-active agent of the present invention comprises:
(a) 1,3 dithionate compound, preferred 1,3C7-C23 (i.e. total carbon atom number in this molecule) straight or branched alkyl or alkenyl dithionate, more preferably it has following formula:
Figure A9718247400661
Wherein R is that chain length is about C 4-Yue C 18Straight or branched alkyl or alkenyl;
(b) 1,4 dithionate compound, preferred 1,4 C8-C22 straight or branched alkyl or alkenyl dithionate more preferably have following formula: Wherein R is that chain length is about C 4-Yue C 18Straight or branched alkyl or alkenyl; Preferred R is selected from octyl group, nonyl, decyl, dodecyl, tetradecyl, hexadecyl, octadecyl and its mixture; With
(c) 1,5 dithionate compound, preferred 1,5C9-C23 straight or branched alkyl or alkenyl dithionate, more preferably it has following formula: Wherein R is that chain length is about C 4-Yue C 18Straight or branched alkyl or alkenyl.
The known synthetic method of some dithionate tensio-active agent generally is to use alkyl or alkenyl succinic anhydrides as main starting raw material.At first pass through reduction step, obtain glycol by it.This glycol obtains two Sulfated products through oversulfated step then.For example US-A-3634269 has described the reduction reaction by alkenyl succinic anhydrides and lithium aluminum hydride, produces alkenyl or alkyl diol, 2-alkyl or alkenyl-1, the 4 butyleneglycol dithionate that is prepared by sulfation then.In addition, US-A-3959334 and US-A-4000081 have described and have also used the reduction reaction that comprises alkenyl succinic anhydrides and lithium aluminum hydride, generation alkenyl or alkyl diol, the 2-alkyl-1 that is prepared by Sulfated method then, 4-butyleneglycol dithionate.
Also referring to US-A-3832408 and US-A-3860625, it has described the reduction reaction by alkenyl succinic anhydrides and lithium aluminum hydride, produce alkenyl or alkyl diol, it is by ethoxylation then, sulfation and the 2-alkyl or the alkenyl-1 that prepare subsequently, 4-butyleneglycol ethoxylate dithionate.
These compounds also can prepare by relating to by the method with the synthetic dithionate tensio-active agent of cyclic anhydride that contains the substituent replacement of one or more carbochains of at least 5 carbon atoms altogether, and it may further comprise the steps:
(i) reducing the cyclic anhydride of this replacement forms glycol; With
(ii) the wherein said reduction step of this glycol formation dithionate of sulfation is included in to add and depresses, in the hydrogenation reaction that contains in the presence of the hydrogenation catalyst of transition metal.
When being comprised, it is about 50% that laundry detergent composition of the present invention generally comprises about 0.1%-, preferably about 1%-about 40% (weight) anion surfactant.(2) nonionic cosurfactant
The general content that the present invention is suitable for comprises alcohol alcoxylates (AE ' s) and alkylphenol, polyhydroxy fatty acid amide (PFAA ' s), alkyl polyglycoside (APG ' s), C for the unrestricted example of the nonionic cosurfactant of about 50% (weight) of about 0.1%- 10-C 18Glyceryl ether etc.
More particularly, the primary and secondary Fatty Alcohol(C12-C14 and C12-C18) is suitable as nonionogenic tenside of the present invention with the condensation product of about 25 moles of ethylene oxide of about 1-(AE).The alkyl chain of Fatty Alcohol(C12-C14 and C12-C18) can be straight or branched, uncle or secondary type, and generally contains and have an appointment 8 to about 22 carbon atoms.Preferably have to contain and have an appointment 8 to about 20 carbon atoms, more preferably from about 10 to the alcohol of the alkyl of about 18 carbon atoms with by every mole of this alcohol about 1 to about 10 moles, preferred 2-7 mole, the condensation product of 2-5 moles of ethylene oxide most preferably.Particularly preferred such nonionogenic tenside is the C that every mol of alcohol contains the 3-12 moles of ethylene oxide 9-C 15Primary alcohol ethoxylate, particularly every mol of alcohol contains the C of 5-10 moles of ethylene oxide 12-C 15Primary alconol.
Commercial such ionic surfactant pack of buying is drawn together Tergitol TM15-S-9 (C 11-C 15The condensation product of straight chain alcohol and 9 moles of ethylene oxide), Tergitol TM24-L-6 NMW (C 12-C 14The condensation product of primary alconol and 6 moles of ethylene oxide, and have narrow molecular weight distribution), sell by Union Carbide Corporation for two kinds; Neodol by Shell Chemical Company sale TM45-9 (C 14-C 15The condensation product of straight chain alcohol and 9 moles of ethylene oxide), Neodol TM23-3 (C 12-C 13The condensation product of straight chain alcohol and 3 moles of ethylene oxide), Neodol TM45-7 (C 14-C 15The condensation product of straight chain alcohol and 7 moles of ethylene oxide), Neodol TM45-5 (C 14-C 15The condensation product of straight chain alcohol and 5 moles of ethylene oxide); Kyro TMEOB (C 13-C 15The condensation product of alcohol and 9 moles of ethylene oxide), by The Procter ﹠amp; Gamble Company sells; With the Genapol LA 030 or the 050 (C that sell by Hoechst 12-C 14The condensation product of alcohol and 3 or 5 moles of ethylene oxide).The preferred HLB scope of these AE nonionogenic tensides most preferably is 8-14 at 8-17.Can also use and the condenses of propylene oxide and butylene oxide ring.
Another kind ofly be applicable to that preferred nonionic cosurfactant of the present invention is the polyhydroxy fatty acid amide surfactant with following formula: R wherein 1Be H, or C 1-4Alkyl, 2-hydroxyethyl, 2-hydroxypropyl or its mixture, R 2Be C 5-31Alkyl, Z are the polyhydroxy alkyls with the straight-chain alkyl chain that is connected directly to few 3 hydroxyls, or its oxyalkylated derivative.Preferred R 1Be methyl, R 2It is straight chain C 11-15Alkyl or C 15-17Alkyl or alkenyl chain be Oleum Cocois alkyl or its mixture for example, and Z is that for example glucose, fructose, maltose, lactose obtain in reductive amination process by reducing sugar.Typical example comprises C 12-C 18And C 12-C 14The N-methyl glucose amide.See US5,194,639 and US5298636.Can also use N-alkoxyl group polyhydroxy fatty acid amide; See US5489393.
What also be suitable as nonionic cosurfactant of the present invention is alkyl polysaccharide, as the United States Patent (USP) 4 that is presented to Llenado on January 21st, 1986,565, those disclosed in 647, it has about 6 to about 30 carbon atoms, preferred about 10 hydrophobic grouping and a polysaccharide (for example many glycosides) hydrophilic radicals to about 16 carbon atoms, and this hydrophilic radical contains has an appointment 1.3 to about 10, preferred about 1.3 to about 3, and most preferably from about 1.3 to about 2.7 sugar units.Can use any reducing sugar that contains 5 or 6 carbon atoms, for example available glucose, semi-lactosi and galactosyl partly replace glycosyl part (hydrophobic group randomly is connected on the positions such as 2-, 3-, 4-, thereby obtains glucose or the semi-lactosi relative with glucoside or galactoside).Key can be for example between a position of 2-, 3-, 4-and/or 6-position and another sugar unit of previous sugar unit between sugar.
Preferred alkyl polyglycoside has following formula:
R 2O (C nH 2nO) t(glycosyl) xR wherein 2Be selected from alkyl, alkyl phenyl, hydroxyalkyl, hydroxyalkyl phenyl and its mixture, wherein alkyl contains and has an appointment 10 to about 18 carbon atoms, and preferred about 12 to about 14 carbon atoms; N is 2 or 3, preferred 2; T is 0 to about 10, preferred 0; X is about 1.3 to about 10, and preferred about 1.3 to about 3, most preferably from about 1.3 to about 2.7.Glycosyl is preferably by the glucose deutero-.For preparing these compounds, at first make alcohol or alkyl polyethoxye alcohol, form glucoside (being connected) with glucose or source of glucose reaction then at 1.Other glycosyl units can be connected between its 1 2-, 3-, 4-and/or the 6-position with previous glycosyl units then, preferably mainly connects between 2.The compound of these types and their purposes in washing composition are disclosed in EP-B 0070077,0075996 and 0094118.
The condensation product of the polyethylene oxide of alkylphenol, poly(propylene oxide) and polybutylene oxide also is suitable as the nonionogenic tenside in the surfactant system of the present invention, wherein polyethylene oxide condensation compound preferably.These compounds comprise having and contain about 6 to about 14 carbon atoms, and preferred about 8 to about 14 carbon atoms and be the alkylphenol of alkyl of straight or branched configuration and the condensation product of oxyalkylene.In preferred embodiments, the amount of the oxyethane that exists in every mole of alkylphenol equals about 2 to about 25 moles, more preferably from about 3 to about 15 moles.Commercial such ionic surfactant pack of buying is drawn together Igepal TMCO-630 is sold by GAFCorporation; And Triton TMX-45, X-114, X-100 and X-102, they all are by Rohm﹠amp; Haas company sells.These tensio-active agents are commonly referred to alkyl phenolic alkoxy thing (for example alkylphenol ethoxylate).
Oxyethane also is suitable as additional nonionogenic tenside of the present invention with the condensation product of the hydrophobic group that forms by propylene oxide and propylene glycol condensation.The hydrophobic part of these compounds preferably has molecular weight about 1500 to about 1800, and performance water outlet insoluble.The addition polyoxyethylene partly tends to increase the water-soluble of bulk molecule on this hydrophobic part, and the fluid characteristics of product is maintained to polyoxyethylated content when being about 50% this degree of condensation product gross weight, and this is equivalent to and the about 40 moles of ethylene oxide condensations of as many as.The example of this type compound comprises some commercial Pluronic that buy TMTensio-active agent, it is sold by BASF.
What also be suitable as nonionogenic tenside in the nonionic surfactant system of the present invention is oxyethane and the condensation product of the product that is obtained by propylene oxide and reacting ethylenediamine.The hydrophobic part of these products is made of the reaction product of quadrol and excessive propylene oxide, and generally has about 2500 to about 3000 molecular weight.This hydrophobic part and ethylene oxide condensation so far, promptly condensation product contains and has an appointment 40% to about 80% (weight) polyoxyethylene, and has about 5000 to about 11000 molecular weight.The example of this type nonionogenic tenside comprises some commercial Tetronic that buy TMCompound is sold by BASF.
Also preferred nonionic is an amine oxide surfactant.The present composition can comprise the amine oxide according to following general formula I:
R 1(EO) x(PO) y(BO) zN(O)(CH 2R’) 2.qH 2O??(I)
Can find out that generally this structure (I) provides a long-chain part R 1(EO) x(PO) y(BO) zWith two short chain parts, CH 2R '.R ' be preferably selected from hydrogen, methyl and-CH 2OH.General R 1Can be the hydrocarbyl portion of saturated or unsaturated uncle or side chain, preferred R 1It is the primary alkyl part.When x+y+z=0, R 1Be that chain length is about 8 to about 18 hydrocarbyl portion.When x+y+z was not 0, R can be slightly long, and chain length is at C 12-C 24Scope.This general formula also comprises wherein x+y+z=0, R 1=C 8-C 18, R '=H and q=0-2 are preferably 2 amine oxide.The example of these amine oxides is C 12-14Alkyl dimethyl amine oxide, cetyl dimethyl amine oxide, octadecyl amine oxide and their hydrate particularly are disclosed in United States Patent (USP) 5,075, the dihydrate in 501 and 5,071594, and the document is quoted for referencial use at this paper.
The present invention also comprises following amine oxide, and wherein x+y+z is not 0, and particularly x+y+z is about 1 to about 10, R 1Be to contain 8 to about 24 carbon atoms, preferred about 12 primary alkyls to about 16 carbon atoms; In these examples, y+z preferably 0, and x preferably about 1 is to about 6, and more preferably from about 2 to about 4; EO represents inferior ethoxyl; PO represents inferior propoxy-; BO represents inferior butoxy.This amine oxide can prepare with conventional synthetic method, and for example alkyl ethoxy sulfate and dimethylamine reaction is then with this ethoxylated amine of hydrogen peroxide oxidation.
The highly preferred amine oxide of the present invention at room temperature is a solution.Be applicable to that amine oxide of the present invention is prepared by many suppliers commercial, comprises Alzo Chemie, Ethyl Corp., and Procter﹠amp; Gamble.Referring to McCutcheon ' s compilation and Kirk-Othmer comment, comprising other amine oxide manufacturers.
R ' is H in some preferred examples, and about R ' some latitudes is arranged, and it can be slightly larger than H.Particularly, the present invention comprises that also wherein R ' is CH 2The example of OH, two (2-hydroxyethyl) amine oxides of hexadecyl for example, two (2-hydroxyethyl) amine oxides of tallow alkyl, two (2-hydroxyethyl) amine oxides of stearyl and two (2-hydroxyethyl) amine oxides of oil base, dimethyl dodecyl amine oxide dihydrate.(3) positively charged ion cosurfactant
Be suitable for general content of the present invention and comprise the quaternary salt of cholinesterase-type and alkoxy quaternary ammonium salt (AQA) surfactant compounds etc. for the unrestricted example of the positively charged ion cosurfactant of about 50% (weight) of about 0.1%-.
The positively charged ion cosurfactant that is suitable as the component in the surfactant system is positively charged ion cholinesterase-type quaternary surfactant, it preferably has the dispersible compound of water of surfactant properties, and comprise at least one ester bond (promptly-COO-) and at least one the band cationic charge group.The cationic ester tensio-active agent that is fit to comprises the cholinesterase tensio-active agent, for example is disclosed in United States Patent (USP) 4228042,4239660 and 4260529.
The preferred cation ester surfactant is to have those of following formula:
Figure A9718247400711
R wherein 1Be C 5-C 31Straight or branched alkyl, alkenyl or alkaryl chain, or M -N +(R 6R 7R 8) (CH 2) sX and Y are independently selected from COO, OCO, O, CO, OCOO, CONH, NHCO, OCONH and NHCOO, and wherein at least one X or Y are COO, OCO, OCOO, OCONH or NHCOO group; R 2, R 3, R 4, R 6, R 7And R 8Be independently selected from alkyl, alkenyl, hydroxyalkyl, hydroxyl alkenyl and alkaryl with 1-4 carbon atom; And R 5Be H or C independently 1-C 3Alkyl; Wherein m, n, s and t value are independently in the 0-8 scope, and the b value is in the 0-20 scope, and a, u and v value are 0 or 1 independently, and precondition is that at least one u or v must be 1; Wherein M is opposite negatively charged ion.
Preferred R 2, R 3And R 4Respectively be independently selected from CH 3And CH 2CH 2OH.
Preferred M is selected from halogen ion, methylsulfate, sulfate radical and nitrate radical, more preferably methylsulfate, chlorine, bromine or iodine.
The preferred dispersible cationic ester tensio-active agent of water is the cholinesterase with following formula:
Figure A9718247400712
R wherein 1Be C 11-C 19The straight or branched alkyl chain.
Particularly preferred such cholinesterase comprises the ammonium methyl halogenide (R of stearyl-cholinesterase seasonization 1=C 17Alkyl), the ammonium methyl halogenide (R of palmitoyl cholinesterase seasonization 1=C 15Alkyl), the ammonium methyl halogenide (R of myristoyl cholinesterase seasonization 1=C 13Alkyl), the ammonium methyl halogenide (R of lauroyl cholinesterase seasonization 1=C 11Alkyl), the ammonium methyl halogenide (R of coconut acyl group cholinesterase seasonization 1=C 11-C 13Alkyl), the ammonium methyl halogenide (R of butter acyl group cholinesterase seasonization 1=C 15-C 17Alkyl) and its any mixture.
The particularly preferred cholinesterase that more than provides can be by under acid catalyst, and the lipid acid and the dimethylaminoethanol direct esterification that will have required chain length prepare.Reaction product uses methyl halogenide quaternized then, preferably solvent for example ethanol, propylene glycol or preferred fat alcohol ethoxylate for example every mole have the C that ethoxylation degree is a 3-50 oxyethyl group 10-C 18Fatty alcohol ethoxylate exists down, forms required cationic substance.They also can be by in the presence of the acid catalyst material, and the longer chain fatty acid and the direct esterification of 2-ethylene halohydrin that will have required chain length prepare, and this reaction product is quaternized with Trimethylamine then, forms required cationic substance.
Other cationic ester tensio-active agent that is fit to has following structural formula, and wherein d can be 0-20: Aspect preferred, these cationic ester tensio-active agents are hydrolyzable under the condition of laundry washing methods.
The useful positively charged ion cosurfactant of the present invention also comprises oxyalkylated quaternary ammonium (AQA) surfactant compounds (hereinafter referred to as " AQA compound ") with following formula: R wherein 1Be to contain about 18 carbon atoms of the 8-that has an appointment, preferred about 16 carbon atoms of 10-, most preferably from about the straight or branched alkyl of about 14 carbon atoms of 10-or alkenyl part; R 2Be the alkyl that contains 1-3 carbon atom, preferable methyl; R 3And R 4Can change independently, they are selected from hydrogen (preferably), methyl and ethyl; X-is enough to provide electroneutral negatively charged ion, for example chlorine, bromine, methylsulfate, sulfate radical etc.A and A ' can change independently, respectively are selected from C 1-C 4Alkoxyl group, particularly oxyethyl group (promptly-CH 2CH 2O), propoxy-, butoxy and blended oxyethyl group/propoxy-; P is that 0-is about 30, and preferred 1-is about 4, and q is that 0-is about 30, and preferred 1-is about 4, and optimum chooses about 4; Preferred p and q are 1.See the The Procter﹠amp that on May 30th, 1979 announced; The EP2084 of Gamble Company, it has been described and also has been suitable for such positively charged ion cosurfactant of the present invention.
Hydrocarbyl substituent R wherein 1Be C 8-C 11, C particularly 10The AQA compound compare with having more the material of long-chain, strengthened laundry particulate dissolution rate, particularly under the cold water condition.Therefore, C 8-C 11The AQA tensio-active agent may be that some prescription teachers are preferred.The content that is used to prepare the AQA tensio-active agent of finished product laundry detergent composition can be about 5% at about 0.1%-, generally in about 0.45%-about 2.5% (weight) scope.
According to foregoing, below specify the AQA tensio-active agent that the present invention uses without limitation.The degree of alkoxylation that should be appreciated that described AQA tensio-active agent herein is by the mean value report, below is the common instance of conventional ethoxylated non-ionic surface active agent.This is because the general mixture with different ethoxylation degree materials that produces of ethoxylation.Therefore, usually total EO value of report and also non integer value, for example " EO2.5 ", " EO3.5 " etc.Title R 1R 2ApR 3A ' qR 4AQA-1 (also is called coconut palm C 12-C 14CH 3EO EO methyl EO2) AQA-2 C 12-C 16CH 3(EO) 2EOAQA-3 (coconut methyl C 12-C 14CH 3(EO) 2(EO) 2EO4) AQA-4 C 12CH 3EO EOAQA-5 C 12-C 14CH 3(EO) 2(EO) 3AQA-6 C 12-C 14CH 3(EO) 2(EO) 3AQA-7 C 8-C 18CH 3(EO) 3(EO) 2AQA-8 C 12-C 14CH 3(EO) 4(EO) 4AQA-9 C 12-C 14C 2H 5(EO) 3(EO) 3AQA-10 C 12-C 18C 3H 7(EO) 3(EO) 4AQA-11 C 12-C 18CH 3(propoxy-) (EO) 3AQA-12 C 10-C 18C 2H 5(isopropoxy) 2(EO) 3AQA-13 C 10-C 18CH 3(EO/PO) 2(EO) 3AQA-14 C 8-C 18CH 3(EO) 15 *(EO) 15 *AQA-15 C 10CH 3EO EOAQA-16 C 8-C 12CH 3EO EOAQA-17 C 9-C 11CH 3The average average EO3.5AQA-18 C of EO3.5 12CH 3The average average EO3.5AQA-19 C of EO3.5 8-C 14CH 3(EO) 10(EO) 10AQA-20 C 10C 2H 5(EO) 2(EO) 3AQA-21 C 12-C 14C 2H 5(EO) 5(EO) 3AQA-22 C 12-C 18C 3H 7Bu (EO) 2 *Oxyethyl group is randomly with methyl or ethyl capping.
The preferred two ethoxylation cats products of the present invention can be buied by trade(brand)name ETHOQUAD from Akzo NobelChemicals Company.
Be used for highly preferred pair of AQA compound of the present invention and have following formula:
Figure A9718247400741
R wherein 1Be C 10-C 18Alkyl and its mixture, preferred C 10, C 12, C 14Alkyl and its mixture, X provides any suitable negatively charged ion of charge balance, preferred chlorine.About above-mentioned AQA formula, because in preferred compound, R 1Be by cocounut oil (C 12-C 14Alkyl) partial fatty acid obtains, R 2Be methyl, ApR 3And A ' qR 4All are monosubstituted ethoxies, therefore the compound of this preferred type is referred to herein as " AQA-1 " in " CocoMeEO2 " or the above arrangement.
Other preferred AQA compound of the present invention comprises the compound of following formula:
Figure A9718247400751
R wherein 1Be C 10-C 18Alkyl, preferred C 10-C 14Alkyl, p is that 1-is about 3 independently, q is that 1-is about 3, R 2Be C 1-C 3Alkyl, preferable methyl, X is a negatively charged ion, particularly chlorine.
Other compound of the above-mentioned type comprises wherein oxyethyl group (CH 2CH 2O) unit (EO) is by butoxy (Bu), isopropoxy [CH (CH 3) CH 2O] and [CH 2CH (CH 3O] unit (i-Pr) or positive propoxy unit (Pr) or EO and/or Pr and/or the unitary mixture of i-Pr displaced those.
Below explanation can be used for various other annexing ingredients in the present composition, but is not limited to these.Though use routine techniques mid-chain branched primary alkyl tensio-active agent and this additive composition combination of components can be obtained the finished product of forms such as liquid, gel, bar, but the preparation of granular laundry detergent of the present invention needs some special processing technologies, to obtain best performance.Therefore, for being convenient to teacher of the prescription, the preparation of laundry particulate is described separately in the granules preparation part (hereinafter) hereinafter.
Other positively charged ion cosurfactant for example is described in " tensio-active agent science book series, the 4th volume, cats product " or " the industrial surface activity agent handbook ".The useful cats product type of describing in these reference comprises that the acid amides quaternary ammonium salt (is Lexquat AMG ﹠amp; Schercoquat CAS), glycidyl ether quaternary salt (being Cyostat609), hydroxyalkyl quaternary salt (being Dehyquat E), alkoxyl group propyl group quaternary salt (being TomahQ-17-2), poly-propoxy-quaternary salt (Emcol CC-9), cyclic alkyl ammonium compound (being pyridine or imidazoline quaternary ammonium salt) and/or alkyl dimethyl benzyl ammonium quaternary ammonium salt.The polymerization dirt release agent
Can randomly use known polymerization dirt release agent in the detergent composition of the present invention, hereinafter referred is " SRA " or " SRA ' s ".If you are using, SRA ' s generally accounts for 0.01% to 10.0% of composition weight, is typically 0.1% to 5%, and preferred 0.2% to 3.0%.
The hydrophobic part that preferred SRA ' s typically has the hydrophilic segment that makes hydrophobic fiber such as polyester and nylon surface hydrophilic and is deposited on the hydrophobic fiber and keeps being attached thereto in whole washing and rinse cycle is therefore as the fixture of hydrophilic segment.This can be so that spot easier being cleaned in washing process afterwards that produces subsequently of handling with SRA.
SRA ' s can comprise various charged, as negatively charged ion or or even positively charged ion (referring to US4956447) monomeric unit and uncharged monomeric unit, their structure can be straight chain, side chain or or even star.They can comprise the end-blocking part, and this part is effective especially to controlling molecular weight or change physics or surfactivity.Can adjustment structure with charge distribution to be applicable to different fibers or fabric type and various washing composition or detergent additive product.
Preferred SRA ' s comprises the terephthalate of oligomerisation, and it generally by comprising the method preparation of at least a transesterify/oligomerisation reaction, carries out under metal catalyst such as titanium alkoxide (IV) usually.This ester can use can by one, two, three, four or more position introduce other monomers preparations in this ester structure, certainly, do not form fine and close crosslinked overall structure.
SRA ' the s that is fit to comprises the sulfonated products of the ester oligomer that is straight chain basically; it contains oligomer ester skeleton and the oxyalkylene oxygen repeating unit and the allyl group deutero-sulfonation terminal portions covalently bound with skeleton of terephthaloyl, for example as described in the U.S. Pat 4968451 of the J.J.Scheibel that authorizes in November 6 nineteen ninety and E.P.Gosselink.This ester oligomer can prepare through the following steps: (a) ethoxylation allyl alcohol; (b) product and terephthalic acid dimethyl ester (" DMT ") and 1 that will (a) in two step transesterify/oligomerizations, 2-propylene glycol (" PG ") reacts; (c) in water with the product of (b) and sodium metabisulfite reaction; Nonionic end capped 1 in the people's such as Gosselink that on December 8th, 1987 authorized the U.S. Pat 4711730,2-propylidene/polyoxyethylene terephthalate polyester, for example by poly-(ethylene glycol) methyl ether, DMT, the product of transesterify/oligomerisation preparation of PG and poly-(ethylene glycol) (" PEG "); Part in the United States Patent (USP) 4721580 of the Gosselink that on January 26th, 1988 authorized and whole end capped oligomer ester of negatively charged ion, as derive from ethylene glycol (" EG "), PG, DMT and 3, the oligopolymer of 6-two oxa-s-8-hydroxyl perfluorooctane sulfonate; Nonionic end-blocking block polyester oligomerisation compound in the United States Patent (USP) 4702857 of the Gosselink that on October 27th, 1987 authorized, for example by DMT, (Me)-end capped PEG and EG and/or PG preparation, perhaps by DMT, EG and/or PG, the product of the mixture preparation of end capped PEG of Me-and 5-sulfoisophthalic acid dimethyl ester sodium; With the Maldonado that authorized on October 31st, 1989; negatively charged ion in people's such as Gosselink the U.S. Pat 4877896; especially the end capped terephthalate of sulfo group aroyl; the latter is typical useful SRA ' s in laundry and fabric-conditioning product; example be by-sulfosalicylic acid list sodium salt, the ester composition of PG and DMT preparation, but randomly preferably also contain the PEG of adding; for example, PEG3400.
SRA ' s also comprises: the simple copolymerization block thing of ethylene terephthalate or terephthalic acid propylene glycol ester and polyethylene oxide or poly(propylene oxide) terephthalate, and referring to the U.S. Pat 3959230 on May 25th, 1976 and the U.S. Pat 3893929 of the Basadur on July 8th, 1975.SRA ' the s that is fit to that is characterised in that poly-(vinyl ester) hydrophobic part comprises poly-(vinyl ester) graft copolymer, for example, and C 1-C 6Alkenyl esters, preferred poly-(vinyl-acetic ester), they are grafted on the polyoxyalkylene skeleton.European patent application EP 0219048 referring to the people such as Kud that published on April 22nd, 1987.Can comprise SOKALANSRA ' s such as SOKALAN HP-22 by the commercial example of buying, it can have been bought from BASF AG of Germany.Other SRA ' s has the polyester that contains 10-15% (weight) ethylene terephthalate and 90-80% (weight) polyoxyethylene terephthalate repeating unit, and it is that the polyoxyethylene glycol of 300-5000 is derived and obtained by molecular-weight average.Commercial examples comprises from the ZELCON 5126 of E.I.Du Pont Company with from the MILEASE of ICI.
Another preferred SRA is the formula of seeing service (CAP) 2(EG/PG) 5(T) 5(SIP) 1Oligopolymer; it contains terephthaloyl (T); sulfo group isophthaloyl base (SIP); oxygen ethylidene oxygen and oxygen-1; 2-propylidene (EG/PG) unit and preferably use END CAPPED GROUP (CAP); the isethionate end-blocking of preferred modification; as in oligopolymer, containing a sulfo group isophthaloyl base unit; 5 terephthaloyl unit; determine the oxygen ethylidene oxygen and the oxygen-1 of ratio; 2-propylidene oxygen unit, this ratio preferably about 0.5: 1 to about 10: 1 and two are from 2-(2-hydroxyl-oxethyl)-ethyl sulfonic acid sodium deutero-end-blocking unit.Described SRA preferably also contains the stablizer in the reduction degree of crystallinity of oligopolymer weight 0.5% to 20%, for example anion surfactant such as linear alkyl benzene sulphonate or be selected from dimethylbenzene-, cumene-, material with tosylate or their mixture, these stablizers or modifying agent are to be added in the synthesis reactor, the Gosselink that all these were authorized in May 16 nineteen ninety-five, Pan, referred in the U.S. Pat 5415807 of Kellett and Hall.The suitable monomer of above-mentioned SRA comprises 2-(2-hydroxyl-oxethyl)-ethylsulfonic acid sodium, DMT, 5-sulfoisophthalic acid dimethyl esters sodium, EG and PG.
Another preferred SRA ' s contains following oligomer ester: (1) one skeleton, it contains (a), and at least one is selected from following unit: dihydroxyl sulphonate, poly-hydroxy sulphonate, the unit of three-functionality-degree at least, form ester bond thus to obtain branched oligomer skeleton and their mixture; (b) at least one is the unit of terephthaloyl base section; (c) at least one is 1, the non-sulfonation unit of 2-oxyalkylene oxygen part; (2) one or more end-blocking unit; it is selected from nonionic end-blocking unit; negatively charged ion end-blocking unit such as alkoxylate; preferred ethoxylation; isethionate, alkoxylate propanesulfonic acid salt, alkoxylate third stilbene-4,4'-bis-(1-azo-3, 4-dihydroxy-benzene)-2,2'-disulfonate; alkoxylate phenolsulfonate, sulfo group aromatic acyl derivative and their mixture.Preferred this ester is the ester with following empirical formula:
{ (CAP) x(EG/PG) Y '(DEG) Y "(PEG) Y " '(T) z(SIP) Z '(SEG) q(B) mCAP wherein, EG/PG, PEG, T and SIP define as mentioned, (DEG) expression two (oxygen ethylidene) oxygen unit, (SEG) expression is by the sulfo group ethyl ether of glycerine the derive unit that obtains and the unit of relevant portion, (B) expression branching unit, and it is three-functionality-degree at least, form ester bond thus to obtain the branched oligomer skeleton, x is about 1 to about 12, and y ' is about 0.5 to about 25, y " be 0 to about 12; y " ' be 0 to about 10, y '+y "+y " ' sum is about 0.5 to about 25, z is about 1.5 to about 25, z ' is 0 to about 12; Z+z ' sum is about 1.5 to about 25, and q is about 0.05 to about 12; M is about 0.01 to about 10, and x, y ', y ", y " ', z, z ', q and m represent the average mol of the corresponding units of every mole of described ester, described ester has about 500 to about 5000 molecular weight.
The preferred SEG and the CAP monomer of above-mentioned ester comprise 2-(2-, 3-dihydroxyl propoxy-) ethyl sulfonic acid sodium (" SEG "), 2-{2-(2-hydroxyl-oxethyl) oxyethyl group } product of ethyl sulfonic acid sodium (" SE3 ") and its homologue and mixture and ethoxylation and sulfonation allyl alcohol.Preferred such SRA ester comprises 2-{2-(2-hydroxyl-oxethyl) oxyethyl group } ethyl sulfonic acid sodium and/or 2-[2-{2-(2-hydroxyl-oxethyl) oxyethyl group } oxyethyl group] ethyl sulfonic acid sodium, DMT, 2-(2,3-dihydroxyl propoxy-) ethyl sulfonic acid sodium, EG, and PG, at the transesterify and the oligomerization product that use under suitable Ti (IV) catalyzer, this product can be represented as (CAP) 2(T) 5(EG/PG) 1.4(SEG) 2.5(B) 0.13, wherein CAP is (Na +-O 3S[CH 2CH 20] 3.5)-and B be unit from glycerine, the molar ratio of EG/PG is about 1.7: 1, this ratio is the gas chromatographic measurement by routine complete hydrolysis after.
Another kind of SRA ' s comprises: (I) use vulcabond coupler and polyester construction banded nonionic terephthalate, referring to people's such as people's such as Violland U.S. Pat 4201824 and Lagasse U.S. Pat 4240918; (II) have the SRA ' s of carboxylate salt end group, it transforms terminal hydroxy group and becomes the trimellitate preparation by trimellitic acid 1,2-anhydride is added among known SRA ' s.By suitable selecting catalyst, trimellitic acid 1,2-anhydride forms the end group banded key with polymkeric substance, and this is by the isolated carboxylicesters of trimellitic acid 1,2-anhydride rather than by opening the acid anhydride key.Nonionic or negatively charged ion SRA ' s can be used as starting raw material, as long as have can esterified hydroxyl end groups for they, referring to people's such as Tung U.S. Pat 4525524; (III) SRA ' s based on the negatively charged ion terephthalate of binding urethanes is referring to people's such as Violland U.S. Pat 4201824; (IV) poly-(caprolactam) and relevant and multipolymer monomer such as vinyl pyrrolidone and/or dimethylaminoethyl acrylate methyl amino-ethyl ester comprise nonionic and cationic polymers, referring to people's such as Ruppert U.S. Pat 4579681; (V) graft copolymer also has the SOKALAN type of passing through grafted propylene acid mono preparation on sulfonated polyester from BASF AG in addition.These SRA be considered to have be similar to the plain ether of known fiber free dirt and antiredeposition activity; EP279134A in 1988 referring to Rhone-Poulenc; (VI) vinyl monomer such as vinylformic acid and the vinyl-acetic ester grafts on protein such as casein is referring to the EP457205A (1991) of BASF AG; (VII) by the condensation hexanodioic acid, the polyester-polyamide SRA ' s of hexanolactam and polyoxyethylene glycol preparation is in particular for handling tynex, referring to the DE2335044 that authorized Unilever N.V. in 1974 of Bevan etc.Other useful SRA ' s are described in U.S. Pat 4240918, and US4787989 is among US4525524 and the US4877896.
Go clay soil/anti redeposition agent-composition of the present invention optionally to contain and have the water-soluble ethoxylated amine of removing clay soil and antiredeposition performance.The granular detergent composition that contains these compounds generally contains the 0.01% water-soluble ethoxylated amine to about 10.0% (weight) of having an appointment; Liquid detergent composition generally contains the 0.01% water-soluble ethoxylated amine to about 5% (weight) of having an appointment.
Most preferred removal dirt and anti redeposition agent are the ethoxylation tetrens.The example of ethoxylated amine further is described in the U.S. Pat 4597898 of the VanderMeer of mandate on July 1st, 1986.Another kind of preferred removal clay soil-anti redeposition agent is a disclosed cation compound in the European patent application EP 111965 of on June 27th, 1984 disclosed 0h and Gosselink.Spendable other are removed disclosed ethoxylated amine polymer in the european patent application 111984 that clay soil/anti redeposition agents are included in disclosed Gosselink on the 27th June in 1984; July in 1984 disclosed Gosselink on the 4th European patent application EP 112592 in disclosed amphoteric ion polymer; With the amine oxide in the U.S. Pat 4548744 of the Connor that authorizes on October 22nd, 1985.As known in the art other remove clay soil and/or anti redeposition agent also can be used in the composition of the present invention.See the US4891160 of the VanderMeer that authorize January 2 nineteen ninety and the WO95/32272 of 30 announcements in November nineteen ninety-five.
Polymeric dispersant
Polymeric dispersant preferably is used for the present composition with about 0.1% content to about 7% (weight), especially when zeolite and/or layered silicate washing assistant exist.The polymeric dispersant that is fit to comprises polymeric multi-carboxylate and polyoxyethylene glycol, and other known polymeric dispersants of this area also can use.Do not limited by theoretical although do not wish, but can be sure of when polymeric dispersant with other washing assistants (comprising low-molecular-weight multi-carboxylate) when using, by the crystal growth restraining effect, free the peptization and the anti-redeposition of particulate fouling, can improve total detergent builders performance.
By making suitable unsaturated monomer, the polymerization of the unsaturated monomer of especially sour form or copolymerization can prepare the polymeric polycarboxylic acid salt material.Can comprise vinylformic acid, toxilic acid (or maleic anhydride), fumaric acid, methylene-succinic acid, equisetic acid, methylfumaric acid, citraconic acid and methylene radical propanedioic acid through the unsaturated monomer acid that polymerization forms suitable multi-carboxylate polymer.In multi-carboxylate polymer of the present invention, there be monomer segment such as the vinyl methyl ether that does not contain carboxylate group, vinylbenzene, ethene etc. also are fit to, as long as this part is no more than about 40% (weight).
Especially the multi-carboxylate polymer of Shi Heing can obtain from vinylformic acid.Such that can be used for the present invention is the water-soluble salt of polymeric acrylic acid based on the polymerizing acrylic acid thing.The molecular-weight average of this base polymer that exists with sour form is preferably about 2000-10000, and more preferably about 4000-7000 most preferably is about 4000-5000.The water-soluble salt of such acrylate copolymer can comprise, for example, and an alkali metal salt, ammonium salt and substituted ammonium salt.Such polymer soluble is known material.The application of such polyacrylate in detergent composition disclosed in the U.S. Pat 3308067 of the Diehl that on March 7th, 1967 authorized.
Multipolymer based on vinylformic acid/toxilic acid also can be as the preferred ingredient of dispersion/anti-deposition agent.This class material comprises the water-soluble salt of vinylformic acid and maleic acid.The molecular-weight average of this analog copolymer that exists with sour form is preferably about 2000-100000, and more preferably about 5000-75000 most preferably is about 7000-65000.The acrylate part was generally more preferably from about 10: 1 to 2: 1 about 30: 1 to about 1: 1 with the ratio of maleate part in this analog copolymer.The water-soluble salt of this class vinylformic acid/maleic acid can comprise, for example, and an alkali metal salt, ammonium salt and substituted ammonium salt.This class solubility acrylate/maleate copolymer is the known substance of describing in the disclosed European patent application EP 66915 in December 15 nineteen eighty-two, and the known substance of describing in the disclosed European patent EP 193360 on September 3rd, 1986, the latter has also described this base polymer that comprises the vinylformic acid hydroxy-propyl ester.Another kind of useful dispersion agent comprises toxilic acid/vinylformic acid/vinyl alcohol terpolymer.This material also is disclosed in EP193360, comprises, for example, vinylformic acid/toxilic acid of 45/45/10/vinyl alcohol terpolymer.
The another kind of polymeric material that can be comprised is polyoxyethylene glycol (PEG).PEG also has the performance of dispersion agent except can be used as removal clay soil-anti redeposition agent.It is about 100000 to be generally about 500-as the molecular-weight average of the polyoxyethylene glycol of this purposes, and it is about 50000 to be preferably about 1000-, more preferably about 1500-about 10000.
The present invention also can use polyaspartic acid salts and polyglutamic acid dipersant, especially is used in combination with zeolite builders.Dispersion agent such as polyaspartic acid salts preferably have about 10000 molecular weight (on average).
Whitening agent
Any white dyes well known in the art or other brighteners or whitening agent generally can mix in the detergent composition of the present invention by about 0.01% content to about 1.2% (weight).Can be used for commercially available white dyes of the present invention and can be divided into following group, it comprises, but needn't be so limited stilbene, pyrazoline, tonka bean camphor, carboxylic acid, methyne cyanines, dibenzothiophen-5, the 5-dioxide, pyrroles, 5-and 6-unit heterocyclic derivative, and other trace reagents.The example of these whitening agent is disclosed in " production of white dyes and application (The Productionand Application of Fluorescent Brightening Agents) ", and M.Zahradnik is by John Wiley ﹠amp; Sons, New York publishes (1982).
The specific examples of the white dyes that uses in the present composition is those that point out in the U.S. Pat 4790856 of the Wixon that authorized on December 13rd, 1988.These whitening agent comprise the PHORWHITE whitening agent series of Verona.Disclosed other whitening agent comprise in this reference: the Tinopal UNPA that can buy from Ciba-Geigy, Tinopal CBS and Tinopal 5BM; Artic White CC and Artic White CWD, 2-(4-styryl phenyl)-2H-naphtho-[1,2-d] triazole; 4,4 '-two (1,2,3-triazoles-2-yl) stilbene; 4,4 '-two (styryl) biphenyl; And aminocoumarin.The specific examples of these whitening agent comprises: 4-methyl-7-diethyl amino coumarin; 1, the two (ethene of benzimidazolyl-2 radicals-yl) of 2-; 1, the 3-diphenylpyrazoline; 2, the two (benzoxazoles of 5--2-yl) thiophene; 2-styryl-naphtho-[1,2-d] oxazole; And 2-(stilbene-4-yl)-2H-naphtho-[1,2-d] triazole.In addition referring to the U.S. Pat 3646015 of the Hamilton that authorized on February 29th, 1972.
Dye transfer inhibitor
The present composition can comprise that also one or more effectively suppress dyestuff from the material of a kind of fabric to another kind of fabric migration in cleaning process.Usually, this dye transfer inhibitor comprises polyvinylpyrrolidonepolymers polymers, polyamine N-oxide pllymers, the multipolymer of N-vinyl pyrrolidone and N-vinyl imidazole, manganese phthalocyanine, peroxidase and their mixture.If you are using, the content of these reagent be generally composition weight about 0.01% to about 10%, preferred about 0.01% to about 5%, more preferably from about 0.05% to about 2%.
More particularly, being preferred for polyamine N-oxide pllymers of the present invention contains and has following structural: R-A xThe unit of-P; Wherein P is a polymerizable unit, and wherein a part or the N-O base that the N-O base can be connected with this unit or the N-O base can constitute this polymerizable unit can be connected with two unit; A be down one of array structure :-NC (O)-,-C (O) O-,-S-,-O-,-N=; X is 0 or 1; With R be aliphatic group, the ethoxylation aliphatic group, aromatic group, heterocyclic radical or alicyclic radical or their any combinations, wherein the nitrogen-atoms in the N-O base can be connected with this group or the N-O group is the part of these groups.Preferred polyamine N-oxide compound is that wherein R is heterocyclic radical such as pyridine, pyrroles, imidazoles, tetramethyleneimine, those of piperidines and their derivative.
The N-O group can be represented with following formula: R wherein 1, R 2, R 3Be aliphatic series, aromatics, heterocycle or alicyclic group or their combination; X, y and z are 0 or 1; Can be connected on any aforementioned group with the nitrogen of N-O group or constitute the part of any aforementioned group.The amine oxide unit of polyamine N-oxide has pK a<10, preferred pK a<7, more preferably pK a<6.
The present invention can use any polymer backbone, as long as the amine oxide polymers that forms is water miscible and has the dye migration rejection.The example of suitable polymeric skeleton comprises polyvinyls, polyalkylene, polyester, polyethers, polymeric amide, polyimide, polyacrylate and their mixture.These polymkeric substance comprise random or segmented copolymer, and wherein a kind of monomer type is amine-N-oxide compound, and another kind of monomer type is the N-oxide compound.The amine n-oxide polymkeric substance generally has 10: 1 to 1: 1000000 the amine and the ratio of amine n-oxide.But the quantity that is present in the amine oxide group in the polyamine oxide polymer can change by suitable copolymerization or by suitable N-degree of oxidation.The polyamine oxide compound can obtain with any polymerization degree almost.Typically, average molecular weight range is 500-1000000; More preferably 1000-500000; 5000-100000 most preferably.Such preferable material can be called " PVNO ".
The most preferred polyamine N-oxide that can be used in the detergent composition of the present invention is poly-(4-vinylpridine-N-oxide compound), and its molecular-weight average is about 50000, and the ratio of amine and amine n-oxide is about 1: 4.
The multipolymer of N-vinyl pyrrolidone and N-vinyl imidazole polymkeric substance (being called " PVPVI " class) also is preferred for the present invention.Preferred PVPVI has 5000-1000000, more preferably 5000-200000 and the most preferably molecular-weight average of 10000-20000.(average molecular weight range by as at " chemical analysis " of Barth etc., the 113rd volume, light scattering method of describing in " modernism of polymer characterization " determines that the disclosed content of the document is quoted as a reference at this paper).The PVPVI multipolymer generally has 1: 1-0.2: 1, more preferably 0.8: 1-0.3: 1, most preferably 0.6: 1-0.4: 1 the N-vinyl imidazole and the molar ratio of N-vinyl pyrrolidone.These multipolymers can be straight chain or side chain.
The present composition also can use molecular-weight average for about 5000 to about 400000, preferred about 5000 to about 200000 and more preferably from about 5000 to about 50000 Polyvinylpyrolidone (PVP) (" PVP ").PVP is known to the skilled in the detergent applications; For example, referring to EP-A-262897 and EP-A-256696, these two pieces of patents are quoted as a reference by this paper.It is about 500 to about 100000 that the composition that contains PVP also can contain molecular-weight average, preferred about 1000 to about 10000 polyoxyethylene glycol (" PEG ").Preferably, what discharge in washing soln is about 2: 1 to about 50: 1 by the PEG of ppm and the ratio of PVP, more preferably from about 3: 1 to about 10: 1.
Also can optionally contain the hydrophilic white dyes of some type of have an appointment 0.005% to 5% (weight) in the detergent composition of the present invention, it also provides the dye migration restraining effect.If you are using, this white dyes that preferably contains 0.01% to 1% (weight) of having an appointment in the present composition.
Can be used for hydrophilic white dyes of the present invention and have following structural formula: R wherein 1Be selected from anilino, N-2-pair-hydroxyethyl and NH-2-hydroxyethyl; R 2Be selected from N-2-pair-hydroxyethyl, N-2-hydroxyethyl-N-methylamino-, morpholino, chlorine and amino; With M be salt-forming cation such as sodium or potassium.
In following formula, R 1Be anilino, R 2Be N-2-two-when hydroxyethyl and M were positively charged ion such as sodium, whitening agent was 4,4 '-two [(4-anilino-6-(N-2-two-hydroxyethyl)-s-triazine-2-yl) amino]-2,2 '-stilbene disulfonic acid and disodium salt.Such special whitening agent can be bought from Ciba-Geigy company according to trade(brand)name Tinopal-UNPA-GX commercial.Tinopal-UNPA-GX is the preferred hydrophilic white dyes that can be used in the detergent composition of the present invention.
In following formula, R 1Be anilino, R 2Be N-2-hydroxyethyl-N-2-methylamino-and M when being positively charged ion such as sodium, whitening agent is 4,4 '-two [(4-anilino-6-(N-2-hydroxyethyl-N-methylamino-)-s-triazine-2-yl) amino]-2,2 '-stilbene disulfonic acid disodium salt.Such special whitening agent can be bought from Ciba-Geigy company according to trade(brand)name Tinopal 5BM-GX commercial.
In following formula, R 1Be anilino, R 2Be morpholino and M when being positively charged ion such as sodium, whitening agent is 4,4 '-two [(4-anilino-6-morpholino-s-triazine-2-yl) amino]-2,2 '-stilbene disulfonic acid sodium salt.Such special whitening agent can be bought from Ciba-Geigy company is commercial according to trade(brand)name TinopalAMS-GX.
Selected these special white dyess that are used for the present invention provide especially effectively dye migration restraining effect when being used in combination with selected above-described polymeric dye migration inhibitor.This selected polymeric material (for example, PVNO and/or PVPVI) and this selected white dyes is (for example, Tinopal UNPA-GX, Tinopal 5BM-GX, and/or Tinopal AMS-GX) be used in combination in wash water solution than the situation of using the detergent composition of this two component separately better dye migration restraining effect be provided obviously.Do not want to be bound by theory, it is believed that it is because they have high-affinity to the fabric in the washing soln that such whitening agent works by this way, therefore is deposited on these fabrics relatively soon.The degree that this whitening agent is deposited on the fabric in washing soln can be by being called the parameter-definition of " exhausting coefficient ".Exhaust coefficient and be generally whitening agent material and the b that a) is deposited on the fabric) ratio in the washing liq between the initial whitening agent concentration.Have the high relatively whitening agent that exhausts coefficient and be suitable for suppressing dye migration in the present invention most.
Certainly, will appreciate that the compound of the white dyes type that other are conventional can randomly be used for the present composition, so that the conventional fabric effect of " brightening " to be provided, rather than real dye migration restraining effect.This being applied in the detergent formulation is conventional with known.
Sequestrant
Cleaning composition of the present invention can also randomly contain one or more iron and/or manganese sequestrant.This class sequestrant can be selected from aminocarboxylate, amino phosphonates do, and fragrant chelating agent of multifunctional replacement and composition thereof, all sequestrants are as definition hereinafter.Do not accept the restriction of opinion, it is believed that the advantage of these materials is that partly they have the ability free from worldly cares of removing de-iron and mn ion from washing soln by forming the soluble chelating thing.
The aminocarboxylate that can be used as optional sequestrant comprises edetate, the N-hydroxyethyl-ethylenediamine triacetate, nitrilotriacetic acid(NTA) salt, ethylenediamine tetrapropionic acid(EDTP) salt, triethylenetetraaminehexaacetic acid salt, diethylentriamine pentacetate and ethanol Diglycocol, their an alkali metal salt, ammonium salt and substituted ammonium salt and their mixture.
When allowing the total phosphorus of low at least amount in detergent composition of the present invention, amino phosphonates do also is suitable as the sequestrant of the present composition, comprising: ethylenediamine tetraacetic (methylene phosphonic acid salt) is as DEQUEST.These amino phosphonates do preferably do not contain alkyl or the alkenyl that surpasses about six carbon atom.
In the present composition, can also use the aromatic chelating agent of multifunctional replacement.Referring to people's U.S. Pat 3812044 such as Connor of authorizing on May 21st, 1974.The compound of preferred this class acid form be the dihydroxyl disulfobenzene as 1,2-dihydroxyl-3,5-disulfobenzene.
The preferred in the present invention biodegradable cheating agent of using is ethylenediamine disuccinate (" EDDS "), especially as its [S, S] isomer of describing in the U.S. Pat 4704233 of Hartman that authorizes on November 3rd, 1987 and Perkins.
The present composition also can contain water miscible methylglycine oxalic acid (MGDA) salt (or sour form) as sequestrant, or as the useful auxiliary washing assistant of insoluble washing assistant for example such as zeolite, layered silicate etc.
If the use sequestrant, then its consumption is generally about 0.1% to about 15% of detergent composition weight of the present invention.If the use sequestrant, more preferably its consumption is about 0.1% to about 3.0% of a said composition weight.
Suds suppressor
The compound that reduction or inhibition foam form can mix in the present composition.Foam inhibition so-called " in the high density washing methods " in as US4489455 and 4489574, described and under muzzle-loading Europe class washing machine situation, be particularly important.
The present invention can use various materials as suds suppressor, and suds suppressor is well known to a person skilled in the art.Referring to, for example, Kirk Othmer " chemical technology encyclopaedia " (Encyclopedia of Chemical Technology), the 3rd edition, the 7th volume, 430-447 page or leaf (John Wiley ﹠amp; Sons, Inc., 1979).The suds suppressor of one class particularly important comprises monocarboxylic acid lipid acid and its soluble salt.U.S. Pat 2954347 referring to the WayneSt.John that authorizes September 27 nineteen sixty.Generally have as the monocarboxylic acid lipid acid of suds suppressor and salt thereof and to contain 10 to about 24 carbon atoms, the hydrocarbyl chain of preferred 12 to 18 carbon atoms.The salt that is fit to comprises an alkali metal salt, sodium salt for example, sylvite, and lithium salts and ammonium salt and alkanol ammonium salts.
Detergent composition of the present invention can also contain the suds suppressor of nonsurfactant.This class suds suppressor for example comprises: high-molecular-weight hydrocarbons such as paraffin, fatty acid ester (as fatty acid triglyceride), the fatty acid ester of MHA, aliphatic C18-40 ketone (as stearone) etc.Other suds suppressors comprise the alkylating aminotriazine of N-, for example three-to six-alkyl melamine or two-to four-alkyl diamine chloro triazine, they are that cyanuric chloride and 2 or 3 moles contain the uncle of 1-24 carbon atom or the reaction product of secondary amine, propylene oxide, with single stearic alkyl phosphate salt, as single stearic alkanol phosphoric acid ester and single stearic alkylphosphonic acid carboxylic acid two basic metal (as K, Na, and Li) salt and phosphoric acid ester.Hydrocarbon such as paraffin and halo paraffin can use with liquid form.This liquid hydrocarbon should be liquid state under room temperature and normal atmosphere, and should have approximately-40 ℃ to about 50 ℃ pour point, and minimum boiling point is not less than about 110 ℃ (under normal atmosphere).It also is known using waxy hydrocarbon, and preferably it has and is lower than about 100 ℃ fusing point.Such hydrocarbon is the preferred suds suppressor of a class of detergent composition.For example in the people's such as Gandolfo that authorize on May 5th, 1981 the U.S. Pat 4265779 the hydrocarbon suds suppressor has been described.Therefore, this hydrocarbon comprises and contain 12 aliphatic series to about 70 carbon atoms of having an appointment, and is alicyclic, the saturated or unsaturated hydrocarbons of aromatics and heterocycle.The term that uses in the discussion of such suds suppressor " paraffin " comprises the real paraffin and the mixture of cyclic hydrocarbon.
The suds suppressor of another kind of preferred nonsurfactant comprises the polysiloxane suds suppressor.Comprise in this class and use organopolysiloxane oil, polydimethylsiloxane for example, the dispersion of organopolysiloxane oil or resin or milk sap, and the mixture of organopolysiloxane and silica dioxide granule, polysiloxane wherein is through chemisorption or be molten on the silicon-dioxide.The polysiloxane suds suppressor is known in the art, for example the people's such as Gandolfo that authorized on May 5th, 1981 U.S. Pat 4265779 and February 7 nineteen ninety disclosed Starch, disclosed in the european patent application 89307851.9 of M.S..
Other polysiloxane suds suppressor is disclosed in the U.S. Pat 3455839, and this patent relates to by mixing a small amount of polydimethylsiloxane fluid to eliminate aqueous solution foamy composition and method in composition.
The mixture of polysiloxane and silanized silica is for example being described among the German patent application DOS2124526 to some extent.Polysiloxane defoamers in the granular detergent composition and Foam Control be disclosed in people's such as Bartolotta U.S. Pat 3933672 and the people's such as Baginski that authorized on March 24th, 1987 U.S. Pat 4652392 in.
Be used for the typical suds suppressor based on polysiloxane of the present invention and be basically Foam Control by the following foam control amount of forming:
(i) at 25 ℃ of polydimethylsiloxane fluids with the about 20cs. of viscosity to about 1500cs.;
(ii) by per 100 parts (weight) (i), about 5 to about 50 parts polyorganosiloxane resin, this resin by (CH3) 3SiO1/2 unit and SiO2 unit by (CH3) 3SiO1/2 unit: the SiO2 unit is to form to about 1.2: 1 ratio in about 0.6: 1; With
(iii) by per 100 parts of (i) (weight), about 1 to about 20 parts of solid silicones;
In the preferred polysiloxane suds suppressor that the present invention uses, the solvent that is used for external phase is by some polyoxyethylene glycol or polyethylene glycol-propylene glycol copolymers or their mixture (preferably), or polypropylene glycol is formed.Main polysiloxane suds suppressor is side chain/crosslinked and preferred non-straight chain.
In order to further specify this point, typical liquid laundry detergent composition with control foaming effect randomly contains has an appointment 0.001% to about 1% (weight), preferred about 0.01% to about 0.7% (weight), 0.05% described polysiloxane suds suppressor most preferably from about to about 0.5% (weight), this suds suppressor contains the nonaqueous emulsion of (1) main suds suppressor, this suds suppressor is following (a), (b), (c) and mixture (d), wherein (a) is organopolysiloxane, (b) be arborescens siloxanes or the polysiloxane compound that produces polyorganosiloxane resin, (c) be finely divided filler and (d) be to impel component of mixture (a) that (b) and (c) reaction is to generate the catalyzer of silane alkoxide; (2) at least a nonionic silicones tensio-active agent; (3) solubleness in water surpasses the polyoxyethylene glycol of about 2% (weight) or the multipolymer of polyethylene glycol-propylene glycol under the room temperature; Wherein there is not polypropylene glycol.Similarly amount can be used for particulate composition, in the gel etc.In addition referring to the U.S. Pat 4978471 of the Starch that authorizes December 18 nineteen ninety, U.S. Pat 4983316 with the Starch that authorized on January 8th, 1991, people's such as the people's such as Huber that on February 22nd, 1994 authorized United States Patent (USP) 5288431 and Aizawa U.S. Pat 4639489 and US4749740, the 46th of first hurdle walks to the 35th row on the 4th hurdle.
The preferred polysiloxane suds suppressor of the present invention comprises the multipolymer of polyoxyethylene glycol and polyethylene/polypropylene glycol, and it is about 1000 that their molecular-weight average is lower than, and is preferably about 100-800.The multipolymer of polyoxyethylene glycol of the present invention and the polyethylene/polypropylene glycol at room temperature solubleness in water surpasses about 2% (weight), preferably surpasses about 5% (weight).
It is about 1000 that the preferred solvent of the present invention is that molecular-weight average is lower than, and more preferably about 100-800 most preferably is the polyoxyethylene glycol of 200-400 and the multipolymer of polyethylene/polypropylene glycol, preferred PPG200/PEG300.Polyoxyethylene glycol: the weight ratio of the multipolymer of polyethylene glycol-propylene glycol is preferably about 1: 1-1: 10, most preferably be 1: 3-1: 6.
The polysiloxane suds suppressor that the present invention preferably uses does not contain polypropylene glycol, does not especially contain molecular weight and be 4000 polypropylene glycol.It does not also preferably contain the segmented copolymer of oxyethane and propylene oxide, as PLURONIC L101.
Can be used for the mixture that other suds suppressors of the present invention comprise secondary alcohol (as the 2-alkyl chain triacontanol) and these alcohol and polysiloxane oil, as be disclosed in U.S. Pat 4798679, the polysiloxane in US4075118 and the European patent EP 150872.Secondary alcohol comprises the C6-16 alkyl alcohol with C1-16 chain.Preferred alcohol is 2-butyl octanol, and this alcohol can obtain from Condea by the trade mark of ISOFOL 12.The secondary alcohol mixture can obtain from Enichem with the trade mark of ISALCHEM 123.It is 1 that the mixing suds suppressor generally contains weight ratio: 5-5: the mixture of 1 pure and mild polysiloxane.
For any detergent composition that is used for automatic washing machine, foam should not be formed into the degree of overflowing washing machine.When using suds suppressor, preferably it exists with " foam inhibition amount "." foam inhibition amount " is meant that the prescription teacher of composition can select this Foam Control of some amount, and this measures abundant control foam to obtain being used for the low foam cloth-washing detergent of automatic washing machine.
Composition of the present invention contains 0% to about 10% suds suppressor usually.When using monocarboxylic acid lipid acid and its salt as suds suppressor, its consumption is up to about 5% of detergent composition weight usually.Preferred about 0.5% to about 3% the fatty monocarboxylate suds suppressor that uses.Although also can use higher consumption, the consumption of polysiloxane suds suppressor the highest general about 2.0% of the detergent composition weight that is about.This upper limit is actual, owing at first will consider to make cost to keep the efficient of the low consumption of minimum and effective control foam.Preferred about 0.01% to about 1% polysiloxane suds suppressor, more preferably about 0.25% to about 0.5% of using.Among the present invention, comprise any silicon-dioxide that can use with organopolysiloxane and any additives material that may use in these weight percent numerical value.The consumption of single stearic alkylphosphonic suds suppressor is generally about 0.1% to about 2% of composition weight.Although can use the hydrocarbon suds suppressor of higher consumption, its consumption is generally about 0.01% to about 5.0%.The consumption of alcohol suds suppressor is generally the 0.2%-3% of final composition weight.
Alkoxylate multi-carboxylate-alkoxylate multi-carboxylate for example is applicable to the present invention by those of polyacrylate preparation, so that extra degrease performance to be provided.This class material is described in WO9I/08281 and PCT90/01815, page 4 and hereinafter waiting, and this paper quotes for referencial use.From chemically, these materials comprise that there is the polyacrylate of an oxyethyl group side chain every 7-8 acrylate unit.Side chain has formula :-(CH 2CH 2O) m(CH 2) nCH 3, wherein m is 2-3, n is 6-12.This side chain is connected with polyacrylate " skeleton " by ester bond, to form the polymkeric substance of " pectination " structure type.Its molecular weight can change, but generally in about 50000 scopes of about 2000-.This alkoxylate multi-carboxylate can account for about 0.05%-about 10% of present composition weight.
Can also optionally use the fabric softener of various experience washing whole processes in fabric softener-present composition, particularly disclosed particulate montmorillonitic clay and other softening agent clays well known in the prior art in the U.S. Pat 4062647 of Storm that authorized on December 13rd, 1977 and Nirschl, thereby making provides the effect of fabric softener in clean textile, the consumption of softening agent be generally the present composition about 0.5% to about 10% (weight).The clay softening agent can be used with amine and cationic softener, as the people's such as Crisp that authorize March 1 nineteen eighty-three U.S. Pat 4375416 and the people's such as Harris that authorized on September 22nd, 1981 U.S. Pat 4291071 discloses.
Spices-be applicable to the spices in the present composition and the method and be with the component of fragrance to comprise multiple natural and synthetic chemical composition includes, but are not limited to aldehyde, ketone, ester etc.Also comprise various natural extracts and essence, they can comprise the complex mixture of some components, for example orange oil, lemon oil, rose extract, lavender, Moschus, Wrinkled Gianthyssop Herb, face cream essential oil, santal oil, pine-tree oil, cypress wet goods.Finished product spices can comprise the extremely complicated mixture of these components.Finished product spices generally accounts for about 2% (weight) of about 0.01%-of detergent composition of the present invention, and each can account for about 90% (weight) of about 0.0001%-of finished product flavor compositions with aroma constituent.
Several flavoring formulations have been listed among the embodiment XXI hereinafter.The unrestricted example that is applicable to perfume composition of the present invention comprises: 7-ethanoyl-1,2,3,4,5,6,7,8-octahydro-1,1,6,7-tetramethyl-naphthalene; Irone; γ-irone; Vertofix coeur; Methyl dihydrojasmonate; Methyl 1,6,10-trimethylammonium-2,5,9-cyclododecane triolefin-1-base ketone; 7-ethanoyl-1,1,3,4,4,6-hexamethyl 1,2,3,4-tetralin; 4-ethanoyl-6-the tertiary butyl-1,1-dimethyl 1,2-indane; To hydroxyl-phenyl-butanone; Benzophenone; Methyl β naphthyl ketone; 6-ethanoyl-1,1,2,3,3,5-hexamethyl 1,2-indane; 5-ethanoyl-3-sec.-propyl-1,1,2,6-tetramethyl-1,2-indane; The 1-dodecanal; 4-(4-hydroxy-4-methyl amyl group)-3-tetrahydrobenzene-1-formaldehyde; 7-hydroxyl-3,7-dimethyl octanal; 10-undecene-1-aldehyde; Dissident's thiazolinyl hexahydrobenzaldehyde; The formyl tristane; The condensation product of laurine and methyl oaminobenzoate; The condensation product of laurine and indoles; The condensation product of phenyl acetaldehyde and indoles; 2-methyl-3-(to tert-butyl-phenyl) propionic aldehyde; Vanirone; Piperonylaldehyde; Hexyl cinnamic aldehyde; Amyl cinnamic aldehyde; 2-methyl-2-(right-isopropyl phenyl)-propionic aldehyde; Tonka bean camphor; γ-decalactone; The Cyclopentadecanol acid anhydride; 16-hydroxyl-palmitoleic acid lactone; 1,3,4,6,7,8-six hydrogen-4,6,6,7,8,8-hexamethyl pentamethylene-γ-2-chromene; β-Nai Jiami; Ambroxane; Ten dihydros-3a, 6,6,9a-tetramethyl-naphtho-[2,1b] furans; Cypress camphor; 5-(2,2,3-front three basic ring penta-3-thiazolinyl)-3-methylpent-2-alcohol; 2-ethyl-4-(2,2,3-trimethylammonium-3-cyclopentenes-1-yl)-2-butylene-1-alcohol; Caryophyllenol; The propionic acid tricyclodecenyl ester; Tricyclodecenyl acetate; Benzyl salicylate; Cedryl acetate; Acetate is right-(tertiary butyl) cyclohexyl ester.
Particularly preferred fragrance material is those fragrance materials of providing maximum smell to improve for the final product composition having that contains cellulase.These spices include, but are not limited to: hexyl cinnamic aldehyde; 2-methyl-3-(to tert-butyl-phenyl) propionic aldehyde; 7-ethanoyl-1,2,3,4,5,6,7,8-octahydro-1,1,6,7-tetramethyl-naphthalene; Benzyl salicylate; 7-ethanoyl-1,1,3,4,4,6-hexamethyl 1,2,3,4-tetralin; Acetate is right-the tert-butylcyclohexyl ester; Methyl dihydrojasmonate; β-Nai Jiami; Methyl β naphthyl ketone; 2-methyl-2-(p-isopropyl phenyl) propionic aldehyde; 1,3,4,6,7,8-six hydrogen-4,6,6,7,8,8-hexamethyl pentamethylene-γ-2-chromene; Ten dihydros-3a, 6,6,9a-tetramethyl-naphtho-[2,1b] furans; Aubepine; Tonka bean camphor; Cypress camphor; Vanillin food grade,1000.000000ine mesh; The Cyclopentadecanol acid anhydride; Tricyclodecenyl acetate; With the propionic acid tricyclodecenyl ester.
Other spices comprises volatile oil, resinoid and the resin that obtains from various raw materials, includes, but are not limited to: Surinam balsam, olibanum resinoid, st-yrax, ladanum resin, Semen Myristicae, cassia oil, styrax resinoid, Fructus Coriandri oil and Lavandula hybrida.Other flavor chemistry product comprise phenylethyl alcohol, Terpineol 350, phantol, phanteine, Geraniol, vernol, acetate 2-(1, the 1-dimethyl ethyl)-hexamethylene alcohol ester, jasmal and oxymethoxyallylbenzene.Carrier for example diethyl phthalate can be used in the finished product flavor compositions.
Other components-can be included in various other components useful in the detergent composition in the present composition comprise other active ingredients, carrier, hydrotropic agent, processing aid, dyestuff or pigment, the solvent of liquid formulations etc.High if desired foam then can mix suds booster such as C10-16 alkanolamide in said composition, its content is generally 1%-10%.C10-14 monoethanolamine and diglycollic amide are the representative instances of such suds booster.With this class suds booster and high bubble cosurfactant, as above-mentioned amine oxide, it also is favourable that trimethyl-glycine, sultaine use together.If necessary, also can add as MgCl 2, MgSO 4, CaCl 2, CaSO 4Remove the grease performance Deng water-soluble magnesium salt and/or calcium salt to obtain more foam and to strengthen, their usage quantity is generally 0.1%-2%.
The various scrubbed component of using in the present composition can also be optionally by these components are adsorbed on the porous hydrophobic matrix, and then with hydrophobicity apply agent with this matrix coated with further making it stable.Preferably before adsorbing, this scrubbed component is mixed with tensio-active agent with porous matrix.In use, this scrubbed component is discharged into the wash water solution from matrix, and finishes the washing functions of its expection in this washing soln.
In order to illustrate in greater detail this technology, (trade mark SIPERNAT D10 DeGussa) mixes with the proteolysis enzyme solution of the nonionogenic tenside of the C13-15 ethoxylated alcohol (EO7) that contains 3%-5% with porous hydrophobic silicon-dioxide.The amount of this enzyme/surfactant soln generally is 2.5 times of silica weight.The gained powder (can use the various polysiloxane oils of viscosity as 500-12500) through dispersed with stirring in polysiloxane oil.Add in the final washing composition matrix with the polysiloxane oil dispersion emulsification of gained or with it.By this method, enzyme as the aforementioned, SYNTHETIC OPTICAL WHITNER, bleach-activating agent; bleaching catalyst, photosensitizers, dyestuff; white dyes, fabric conditioner and hydrolyzable surface active agent composition can be used for washing composition with " protected form ", comprise being used for liquid laundry detergent compositions.
Can contain water and other solvents in the liquid detergent composition as carrier.What be fit to is lower molecular weight uncle or secondary alcohol, for example methyl alcohol, ethanol, propyl alcohol and Virahol.The preferred monohydroxy-alcohol that uses comes solubilizing surfactant, but also can use polyvalent alcohol as containing 2 to about 6 carbon atoms and 2 alcohol to about 6 hydroxyls (for example, 1, ammediol, ethylene glycol, glycerine and 1,2-propylene glycol).Composition can contain 5%-90%, typically such carrier of 10%-50%.
Detergent composition of the present invention preferably is formulated into and is being used for the aqueous cleaning operating process, and the pH value of washing water is about 6.5 to about 11, is preferably about 7.5 to 10.5.It is about 6.8 to about 9.0 that liquid wash up formula for a product preferably has the pH value.Laundry product general pH value is 9-11.Control pH is to use buffer reagent in the method under the use value of recommending, alkali, and acid etc., these all are that those skilled in the art are familiar with.The form of composition
Composition of the present invention can adopt various physical form, comprises particle, tablet and liquid form.The especially so-called concentrated granular detergent composition of the present composition, it is adapted to pass through the distribution device that is placed in the machine roll of adorning dirty fabric and adds in the washing machine.
The mean particle size of the component of particulate composition of the present invention should make preferably that diameter is no more than 5% greater than the particle of 1.7mm, and diameter is no more than 5% less than the particle of 0.15mm.
Ding Yi term mean particle size calculates by composition sample is divided into many weight parts (common 5 weight parts) at one group of Tyler sieve top sieve herein.With the weight part aperture mapping of sieve relatively that obtains thus, average particle size particle size is the aperture size that the sample of 50% weight passes through.
The bulk density of granular detergent composition of the present invention is at least 600g/l, more preferably 650g/l-1200g/l usually.Bulk density is measured by simple funnel and cup device, and described device is made up of the conical funnel that rigid mould is pressed on the pedestal, and this device is equipped with plate valve in its lower end makes the material in the funnel enter in the axially aligned cylinder cup of placing under funnel.The funnel height is 130 millimeters, and the internal diameter at two ends is respectively 130 millimeters and 40 millimeters up and down.Funnel is installed is made 140 millimeters places above pedestal upper surface, its lower end, the height overall of cup is 90 millimeters, and internal height is 87 millimeters, and internal diameter is 84 millimeters, and nominal volume is 500 milliliters.
For measuring, with hand funnel is filled powder, open plate valve, make powder overflow cup.The cup of filling is taken out from framework, by with the instrument of straight flange for example pocket knife scraped the cup upper limb and removed excessive powder.The cup of weighing then and filling obtains bulk density value g/l with 2 with the powder weight that obtains is on duty.Carry out replicate measurement on demand.Mid-chain branched primary alkyl surfactant agglomerates particle
Mid-chain branched primary alkyl surfactant system of the present invention preferably is present in the particulate composition with mid-chain branched primary alkyl surfactant agglomerates particle form, and this agglomerate can adopt sheet, ball, ball, pin and band shape, but preferably takes particle form.The most preferably mode of processing granular is the primary alkyl surfactant paste agglomerating powder (for example silico-aluminate, carbonate) with the high reactivity mid-chain branched, and the granularity of the agglomerate that obtains of control is in the limit of regulation.This method is included in the powder that makes significant quantity in one or more cyclone agglomerators and mixes with the primary alkyl surfactant paste of high reactivity mid-chain branched, cyclone agglomerator for example is plate-like cyclone agglomerator, Z-blade mixer or more preferably inline mixer, for example by Schugi (Holland) BV, 29 Chroomstraat8211 AS, Lelystad, Holland, with Gebruder Lodige Maschinenbau GmbH, D-4790 Paderborn 1, Elsenerstasse 7-9, those equipment that Postfach 2050 Germany make.Most preferably use high-shear mixer, for example Lodige CB (trade name).
Usually use and contain 50%-95% weight, the primary alkyl surfactant paste of the high reactivity mid-chain branched of the primary alkyl tensio-active agent of the mid-chain branched of preferred 70%-85% weight.But this lotion can be with enough height to keep the temperature of pumping viscosity, but enough low with in the temperature pump suction cyclone agglomerator of avoiding employed tensio-active agent degraded, the service temperature of this lotion is 50 ℃-80 ℃ usually.Clothes washing method
Machine clothes washing method of the present invention generally includes and is used in the machine-wash dirty fabric of aqueous cleaning solution-treated of detergent composition of the present invention who contains dissolving in the washing machine or be dispersed in significant quantity wherein.The detergent composition of significant quantity is meant dissolving or is dispersed in 5-65 and rise 20g-300g product in the volume washing soln that it is typical products consumption and the washing soln volume that is generally used in the conventional machine washing method.
As described, this mid-chain branched primary alkyl tensio-active agent is can obtain being used for detergent composition at the content that at least directly improves aspect the cleaning performance effectively, preferably to combine with other detergent surfactant.In fabric cleaning composition, this " usage quantity " can change, and this not only depends on the type and the severity of dirt and spot, and depends on the temperature of washing water, the volume of washing water and the type of washing machine.
For example, in the American automatic washing machine of roof-mounted vertical shaft, in washing bath, use about 45-83 premium on currency, cycles of washing is about 14 minutes of about 10-, the temperature of washing water is about 10 ℃-Yue 50 ℃, preferably in washings, comprise the about 625ppm of about 2ppm-, the about 550ppm of preferably about 2ppm-, more preferably from about the primary alkyl tensio-active agent of the mid-chain branched of the about 235ppm of 10ppm-.By each washing load, usage quantity converts the concentration (weight) of mid-chain branched primary alkyl tensio-active agent in product to for the about 150ml of about 50ml-calculates, for the heavy-filth liquid detergent for washing clothes, it is that about 0.1%-is about 40%, and preferably about 0.1%-is about 35%, and more preferably from about 0.5%-about 15%.By each washing load, usage quantity is calculated for the about 950g of about 30g-, for concentrated (" densification ") granular laundry detergent (density is higher than about 650g/l), convert the concentration (weight) of primary alkyl tensio-active agent in product of mid-chain branched to, it is about 0.1%-about 50%, preferred about 0.1%-is about 35%, and more preferably from about 0.5%-about 15%.For spray-dired particle (that is, " fluff type "; Density is lower than about 650g/l), for the about 100g of about 80g-calculates, convert the concentration (weight) of primary alkyl tensio-active agent in product of mid-chain branched by each washing load usage quantity to, it is about 0.07%-about 35%, preferred about 0.07%-is about 25%, and more preferably from about 0.35%-about 11%.
For example, in the European automatic washing machine of muzzleloading transverse axis, in washing bath, use about 8-15 premium on currency, cycles of washing is about 60 minutes of about 10-, the temperature of washing water is about 30 ℃-Yue 95 ℃, preferably in washings, comprise the about 14000ppm of about 3ppm-, the about 10000ppm of preferably about 3ppm-, more preferably from about the mid-chain branched primary alkyl tensio-active agent of the about 4200ppm of 15ppm-.By each washing load, usage quantity converts the concentration (weight) of mid-chain branched primary alkyl tensio-active agent in product to for the about 270ml of about 45ml-calculates, for the heavy-filth liquid detergent for washing clothes, it is that about 0.1%-is about 50%, and preferably about 0.1%-is about 35%, and more preferably from about 0.5%-about 15%.By each washing load, usage quantity is calculated for the about 210g of about 40g-, for concentrated (" densification ") granular laundry detergent (density is higher than about 650g/l), convert the concentration (weight) of mid-chain branched primary alkyl tensio-active agent in product to, it is about 0.12%-about 53%, preferred about 0.12%-is about 46%, and more preferably from about 0.6%-about 20%.For spray-dired particle (that is, " fluff type "; Density is lower than about 650g/l), for the about 400g of about 140g-calculates, convert the concentration (weight) of mid-chain branched primary alkyl tensio-active agent in product by each washing load usage quantity to, it is about 0.03%-about 34%, preferred about 0.03%-is about 24%, and more preferably from about 0.15%-about 10%.
For example, in the Japanese automatic washing machine of roof-mounted vertical shaft, in washing bath, use about 26-52 premium on currency, cycles of washing is about 15 minutes of about 8-, the temperature of washing water is about 5 ℃-Yue 25 ℃, preferably in washings, comprise the about 270ppm of about 0.67ppm-, the about 236ppm of preferably about 0.67ppm-, more preferably from about the mid-chain branched primary alkyl tensio-active agent of the about 100ppm of 3.4ppm-.By each washing load, usage quantity converts the concentration (weight) of mid-chain branched primary alkyl tensio-active agent in product to for the about 30ml of about 20ml-calculates, for the heavy-filth liquid detergent for washing clothes, it is that about 0.1%-is about 40%, and preferably about 0.1%-is about 35%, and more preferably from about 0.5%-about 15%.By each washing load, usage quantity is calculated for the about 35g of about 18g-, for concentrated (" densification ") granular laundry detergent (density is higher than about 650g/l), convert the concentration (weight) of mid-chain branched primary alkyl tensio-active agent in product to, it is about 0.1%-about 50%, preferred about 0.1%-is about 35%, and more preferably from about 0.5%-about 15%.For spray-dired particle (that is, " fluff type "; Density is lower than about 650g/l), by each washing load, usage quantity is calculated for the about 40g of about 30g-, convert the concentration (weight) of mid-chain branched primary alkyl tensio-active agent in product to, it is that about 0.06%-is about 44%, and preferably about 0.06%-is about 30%, and more preferably from about 0.3%-about 13%.
By as can be seen above-mentioned, the consumption of the primary alkyl tensio-active agent of the mid-chain branched of using in machine-washing can change, and this depends on type of user's custom and experience, washing machine etc.But, in this article, a kind of preceding incognizant advantage of the primary alkyl tensio-active agent of mid-chain branched is that they can provide at least directly improvement to the performance of certain limit dirt and spot, even when in final product composition having with respect to other tensio-active agent (general negatively charged ion or anionic/nonionic mixture), when its usage quantity is low relatively.
Aspect preferred use, in washing methods, use distribution device.Distribution device is equipped with Betengent product, is used for directly product being added before beginning wash(ing)cycle the washing machine rotating cylinder.Its volume capacity should be able to make it contain the enough Betengent products that are generally used in the washing methods.
In case after washing machine was equipped with clothing, the distribution device that Betengent product just will be housed was put into rotating cylinder.When begin the wash(ing)cycle of washing machine, in rotating cylinder, add entry and rotating cylinder periodically rotates.The design of distribution device should make it that dry detergent product is housed, but then in wash(ing)cycle in response to the stirring action of rotating cylinder rotation with because its result who contacts with washing water discharges these products.
Can discharge Betengent product for making in washing process, this device can have the opening that many products can pass through.In addition, device can be by liquid permeable but the material manufacturing of impermeable solid phase prod, thereby allows to discharge the dissolved product.Betengent product preferably discharges rapidly when begin wash(ing)cycle, thereby in this stage wash(ing)cycle, provides temporary transient partial high density product in the washing machine rotating cylinder.
Preferred distribution device is reusable, and its design makes and keeps integral container at dried state with in wash(ing)cycle.Being used for the especially preferred distribution device of the present composition describes in following patent: GB-B-2157717, GB-B-2157718, EP-A-0201376, EP-A-0288345 and EP-A-0288346.Make (Manufacturing Chemist) by J.Bland the chemist, in November, 1989, the particularly preferred granular laundry product distribution device that is used for also described in the article that the 41-46 page or leaf is delivered, and described granular laundry product is to be commonly referred to " ball " type (granulette).Another distribution device that preferably is used for the present composition is open at PCT patent application WO94/11562.
Especially preferred distribution device is open in European patent application EP 0343069 and 0343070.Back one application discloses a kind of device, and it comprises the flexible shell of the bag shape form of being extended by sustained ring, and described ring defines a hole, the adequate prod that this hole is suitable for packing in bag a wash(ing)cycle being used for washing methods.Part washing medium flows in the bag by hole, dissolved product, and solution outwards flows in the washing medium by hole subsequently.Sustained ring is equipped with safety guard and runs off to avoid product that wet, undissolved, and this device generally includes the similar structures that has spiral form by radially wall extension or its mesospore of centre strut expansion with spoke wheel structure formation.
In addition, distribution device can be the flexible container, for example bag or box.Bag can be to apply the fibrous texture of water impervious protecting materials to keep content, and is for example disclosed such in European patent application EP 0018678.In addition, as disclosed among the patent application EP0011500,0011501,0011502 and 0011968 of European publication, it can be made by water-insoluble synthetic polymeric material, and it has edge sealing or closure designs with isolated water-bearing media.Meet suitable closing form that yew looses comprise along by water impervious polymeric film for example polyethylene or the film formed box of polypropylene an edge setting and seal its water-soluble binder.The packing of composition
The bleaching composition that the merchant sells can be packaged in any suitable containers, comprises the structure of being made by paper, presspaper, plastic material and any suitable veneer sheet.Preferred packaging means is described in EP application 94921505.7.LAS: straight chain C 12Sodium alkyl benzene sulfonate MBAS x: the primary alkyl of the mid-chain branched (primary alkyl ethoxylate (E=9 of vitriol MBAE mid-chain branched of average total carbon=x); Average total
Alkyl carbon atoms=15) MBAE xS z: mid-chain branched primary alkyl (average total carbon atom=z) ethoxylation
Thing (average EO=x) sulfate, sodium salt LMFAA: C12-14 alkyl N-methyl glucose amide APA: C8-C10 acylamino-propyl-dimethyl amine aliphatic acid: C12-14 aliphatic acid (C12/14) aliphatic acid (TPK): topping palm-kernel oil aliphatic acid fat acid (RPS): rapeseed oil fatty acid borax: sodium tetraborate decahydrate PAA: polyacrylic acid (mw=4500) PEG: polyethylene glycol (mw=4600) MES: alkyl methyl sulfonated ester SAS: secondary alkyl sulfate NaPS: paraffin sodium sulfonate STPP: sodium phosphate trimer C45AS: C14-C 15Straight-chain alkyl sulfate C XyE zS: with the C of z moles of ethylene oxide condensation 1x-C 1ySodium alkyl sulfate C XyE z: with the branching C of average z moles of ethylene oxide condensation 1x-C 1y
Chain primary alconol QAS: R 2N +(CH 3) 2(C 2H 4OH), R 2=C 12-C 14TFAA: C 16-C 18Alkyl N-methyl glucose amide DSDMAC: VARISOFT TA100 STPP: anhydrous sodium tripolyphosphate zeolite A: formula Na 12(AlO 2SiO 2) 12.27H 2The hydrated sodium aluminosilicate of O,
Primary particle size is 0.1-10 micron NaSKS-6: formula δ-Na 2Si 2O 5Crystalline layered silicate carbonate: granularity is the anhydrous sodium carbonate supercarbonate of 200-900 micron: size-grade distribution is at the anhydrous sodium bicarbonate silicate of 400-1200 micron: amorphous sodium silicate (SiO 2: Na 2O; Ratio=2.0) sodium sulfate: anhydrous sodium sulphate MA/AA: 1: 4 toxilic acid/acrylic copolymer, molecular-weight average are approximately
70000CMC: Xylo-Mucine methylcellulose gum: Shin Etsu company, METELOSE buys HPMC with trade(brand)name: Vltra tears HEMC: hydroxyethylmethyl-cellulose proteolytic enzyme: by Novo Industries A/S with trade(brand)name Savinase
The proteolytic enzyme of selling, activity is the 4KNPU/g cellulase: by Novo Industries A/S with trade(brand)name Carezyme
The cellulase of selling, activity is a 1000CEVU/g amylase: by Novo Industries A/S with trade(brand)name Termamyl
The amylase that 60T sells, activity is a 60KNU/g lipase: by Novo Industries A/S with trade(brand)name Lipolase
The lipase of selling, activity is 100kLU/gPB4: nominal formula NaBO 2.3H 2O.H 2O 2Sodium perborate tetrahydrate PB1: nominal formula NaBO 2.H 2O 2Anhydrous sodium perborate SYNTHETIC OPTICAL WHITNER percarbonate: nominal formula 2Na 2CO 33H 2O 2SPC-D NaDCC: dichloroisocyanuric acid sodium NOBS: nonanoly acyloxy benzene sulfonate; sodium-salt form TAED: tetra acetyl ethylene diamine DTPMP: diethylenetriamine five (methylene phosphonic acid salt), by Meng Shan all with
Trade(brand)name Dequest 2060 sells the bleaching of photoactivation: the sulfonation zinc phthalocyanine phthalocyanine agent whitening agent of the soluble polymkeric substance encapsulate of usefulness dextrin 1: 4,4 '-two (2-sulfo group styryl) biphenyl disodium whitening agent 2: 4,4 '-two (4-anilino-6-morpholino-1,3,5-triazines-
The 2-yl) amino) stilbene-2:2 '-disulfonic acid disodium whitening agent is 3: 4,4 '-two (4-anilino-6-two (2-hydroxyethyl) is amino-
1,3,5-triazines-2-yl) stilbene-2:2 '-disulfonic acid two amino)
Sodium whitening agent 4: 4,4 '-two (4-anilino-6-(N-methyl-N-2-hydroxyethyl)
Amino-1,3,5-triazines-2-yl) stilbene-2:2 '-two sulphur amino)
Acid disodium whitening agent 5: 2-(4-styryl-3-sulfo group phenyl)-2H-naphtho-(1,2-
D)-and triazole sodium HEDP: 1,1-hydroxyl ethane di 2 ethylhexyl phosphonic acid SRP1: the end capped oxygen vinyloxy group of sulfo group benzoyl end group and to benzene
The ester polysiloxane froth breaking of diformyl block: the polydimethylsiloxane foam control agent with as silica agent alkane-oxyalkylene copolymers, described foam control agent and the described dispersion agent of dispersion agent
Ratio be 10: 1-100: 1DTPA: diethylene triaminepentaacetic acid(DTPA)
In following examples, all content are all represented with the weight percentage of composition.Following embodiment is an illustrative example of the present invention, but does not limit or define in addition scope of the present invention.Unless otherwise indicated, used all umbers, percentage ratio and the ratio of the present invention is to represent with weight percentage.Embodiment 1
Following laundry detergent composition A-D produced according to the present invention:
????A ????B ????C ????D
MBAS (average total carbon atom=16.5) ????22 ????16.5 ????11 ????5.5
Any combination of following material: C45AS C45E1S LAS C16SAS C14-17 NaPS C14-18 MES ????0 ????5.5 ????11 ????16.5
C23E6.5 ????1.5 ????1.5 ????1.5 ????1.5
Zeolite A ????27.8 ????27.8 ????27.8 ????27.8
PAA ????2.3 ????2.3 ????2.3 ????2.3
Carbonate ????27.3 ????27.3 ????27.3 ????27.3
Silicate ????0.6 ????0.6 ????0.6 ????0.6
Perborate ????1.0 ????1.0 ????1.0 ????1.0
Proteolytic enzyme ????0.3 ????0.3 ????0.3 ????0.3
Carezyme ????0.3 ????0.3 ????0.3 ????0.3
SRP ????0.4 ????0.4 ????0.4 ????0.4
Whitening agent 3 ????0.2 ????0.2 ????0.2 ????0.2
Methylcellulose gum ????3.0 ????1.0 ????10.0 ????0.5
?PEG ????1.6 ????1.6 ????1.6 ????1.6
Vitriol ????5.5 ????5.5 ????5.5 ????5.5
Polysiloxane defoamers ????0.42 ????0.42 ????0.42 ????0.42
Moisture and a small amount of component --equal amount---
Density (g/L) ????663 ????663 ????663 ????663
Embodiment 2
Following laundry detergent composition E-F produced according to the present invention:
????E ????F ????G ????H ????I
MBAS (average total carbon atom=16.5) ????14.8 ????16.4 ????12.3 ????8.2 ????4.1
Any combination of following material: C45AS C45E1S LAS C16 SAS C14-17 NaPS C14-18 MES ????0 ????0 ????4.1 ????8.2 ????12.3
TFAA ????1.6 ????0 ????0 ????0 ????0
C24E3 ????4.9 ????4.9 ????4.9 ????4.9 ????4.9
Zeolite A ????15 ????15 ????15 ????15 ????15
NaSKS-6 ????11 ????11 ????11 ????11 ????11
Citrate trianion ????3 ????3 ????3 ????3 ????3
MA/AA ????4.8 ????4.8 ????4?8 ????4.8 ????4.8
HEDP ????0.5 ????0.5 ????0.5 ????0.5 ????0.5
Carbonate ????8.5 ????8.5 ????8.5 ????8.5 ????8.5
Percarbonate ????20.7 ????20.7 ????20.7 ????20.7 ????20.7
HPMC ????3.0 ????3.0 ????10.0 ????0.5 ????1.0
TAED ????4.8 ????4.8 ????4.8 ????4.8 ????4.8
Proteolytic enzyme ????0.9 ????0.9 ????0.9 ????0.9 ????0.9
Lipase ????0.15 ????0.15 ????0.15 ????0.15 ????0.15
Carezyme ????0.26 ????0.26 ????0.26 ????0.26 ????0.26
Amylase ????0.36 ????0.36 ????0.36 ????0.36 ????0.36
SRP ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Whitening agent 1 ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Vitriol ????2.3 ????2.3 ????2.3 ????2.3 ????2.3
Polysiloxane defoamers ????0.4 ????0.4 ????0.4 ????0.4 ????0.4
Moisture and a small amount of component --equal amount---
Density (g/L) ????850 ????850 ????850 ????850
Embodiment 3
Following laundry detergent composition J-O produced according to the present invention:
????J ????K ????L ????M ????N ????O
MBAS (average total carbon atom=16.5) ????32 ????32 ????24 ????16 ????16 ????8
Any combination of following material: C45AS C45E1S LAS C16SAS C14-17 NaPS C14-18 MES ????0 ????0 ????8 ????16 ????16 ????24
C23E6.5 ????3.6 ????3.6 ????3.6 ????3.6 ????3.6 ????3.6
QAS ????- ????0.5 ????- ????- ????0.5 ????-
Zeolite A ????9.0 ????9.0 ????9.0 ????9.0 ????9.0 ????9.0
The multi-carboxylate ????7.0 ????7.0 ????7.0 ????7.0 ????7.0 ????7.0
Carbonate ????18.4 ????18.4 ????18.4 ????18.4 ????18.4 ????18.4
Silicate ????11.3 ????11.3 ????11.3 ????11.3 ????11.3 ????11.3
Perborate ????3.9 ????3.9 ????3.9 ????3.9 ????3.9 ????3.9
NOBS ????4.1 ????4.1 ????4.1 ????4.1 ????4.1 ????4.1
Proteolytic enzyme ????0.9 ????0.9 ????0.9 ????0.9 ????0.9 ????0.9
SRP ????0.5 ????0.5 ????0.5 ????0.5 ????0.5 ????0.5
HEMC ????3.0 ????1.0 ????10.0 ????3.0 ????1.0 ????0.5
Whitening agent 2 ????0.3 ????0.3 ????0.3 ????0.3 ????0.3 ????0.3
PEG ????0.2 ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Vitriol ????5.1 ????5.1 ????5.1 ????5.1 ????5.1 ????5.1
Polysiloxane defoamers ????0.2 ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Moisture and a small amount of component --equal amount---
Density (g/L) ????810 ????810 ????810 ????810 ????810 ????810
Embodiment 4
Following laundry detergent composition O-R produced according to the present invention:
????O ????P ????Q ????R
MBAS (average total carbon atom=16.5) ????22 ????16.5 ????11 ????5.5
Any combination of following material: C45AS C45E1S LAS C16SAS C14-17 NaPS C14-18 MES ????0 ????5.5 ????11 ????16.5
C23E6.5 ????1.2 ????1.2 ????1.2 ????1.2
STPP ????35.0 ????35.0 ????35.0 ????35.0
Carbonate ????19.0 ????19.0 ????19.0 ????19.0
Zeolite A ????16.0 ????16.0 ????16.0 ????16.0
Silicate ????2.0 ????2.0 ????2.0 ????2.0
CMC ????0.3 ????0.3 ????0.3 ????0.3
Methylcellulose gum ????3.0 ????10.0 ????0.5 ????1.0
Proteolytic enzyme ????1.4 ????1.4 ????1.4 ????1.4
Lipase ????0.12 ????0.12 ????0.12 ????0.12
SRP ????0.3 ????0.3 ????0.3 ????0.3
Whitening agent 2 ????0.2 ????0.2 ????0.2 ????0.2
Moisture and a small amount of component --equal amount---
Embodiment 5
Preparation is according to following high density detergent agent prescription of the present invention:
????B’ ????C’ ????D’ ????E’
Agglomerate
???????????????????????C45AS ????11.0 ????4.0 ????0 ????14.0
????????????????????????MBAS ????3.0 ????10.0 ????17.0 ????3.0
Zeolite A ????15.0 ????15.0 ????15.0 ????10.0
Carbonate ????4.0 ????4.0 ????4.0 ????8.0
???????????????????????MA/AA ????4.0 ????4.0 ????4.0 ????2.0
?????????????????????????CMC ????0.5 ????0.5 ????0.5 ????0.5
???????????????????????DTPMP ????0.4 ????0.4 ????0.4 ????0.4
Spray
???????????????????????C25E5 ????5.0 ????5.0 ????5.0 ????5.0
Methylcellulose gum ????3.0 ????10.0 ????1.0 ????0.5
Spices ????0.5 ????0.5 ????0.5 ????0.5
Dried additive
???????????????????????C45AS ????6.0 ????6.0 ????3.0 ????3.0
????????????????????????HEDP ????0.5 ????0.5 ????0.5 ????0.3
???????????????????????SKS-6 ????13.0 ????13.0 ????13.0 ????6.0
Citrate trianion ????3.0 ????3.0 ????3.0 ????1.0
????????????????????????TAED ????5.0 ????5.0 ????5.0 ????7.0
Percarbonate ????20.0 ????20.0 ????20.0 ????20.0
???????????????????????SRP?1 ????0.3 ????0.3 ????0.3 ????0.3
Proteolytic enzyme ????1.4 ????1.4 ????1.4 ????1.4
Lipase ????0.4 ????0.4 ????0.4 ????0.4
Cellulase ????0.6 ????0.6 ????0.6 ????0.6
Amylase ????0.6 ????0.6 ????0.6 ????0.6
Polysiloxane defoamers ????5.0 ????5.0 ????5.0 ????5.0
Whitening agent 1 ????0.2 ????0.2 ????0.2 ????0.2
Whitening agent 3 ????0.2 ????0.2 ????0.2 ????-
Equipoise (moisture and a small amount of component) ????100 ????100 ????100 ????100
Density (grams per liter) ????850 ????850 ????850 ????850
Embodiment 6
Following liquid laundry detergent compositions AA-DD produced according to the present invention:
????AA ????BB ????CC ????DD
MBAS (the average total carbon atom of 14.5-15.5) ????6.5 ????11.5 ????16.5 ????21.5
The arbitrary combination of following material: C25AExS *Na (x=1.8-2.5) C25AS (the paramount 2-alkyl of straight chain) C14-17 NaPS C12-16 SAS C18 1,4 dithionate C12-16 MES ????15 ????10 ????5 ????0
C11.3?LAS ????5.0 ????10.0 ????3.0 ????1.0
LMFAA ????2.5-3.5 ????2.5-3.5 ????2.5-3.5 ????2.5-3.5
C23E9 ????0.6-2 ????0.6-2 ????0.6-2 ????0.6-2
APA ????0-0.5 ????0-0.5 ????0-0.5 ????0-0.5
Methylcellulose gum ????1.0 ????3.0 ????5.0 ????0.5
Citric acid ????3.0 ????3.0 ????3.0 ????3.0
Lipid acid (TPK or C12/14) ????2.0 ????2.0 ????2.0 ????2.0
Ethanol ????3.4 ????3.4 ????3.4 ????3.4
Propylene glycol ????6.4 ????6.4 ????6.4 ????6.4
Monoethanolamine ????1.0 ????1.0 ????1.0 ????1.0
NaOH ????3.0 ????3.0 ????3.0 ????3.0
Toluenesulfonic acid sodium salt ????2.3 ????2.3 ????2.3 ????2.3
Sodium formiate ????0.1 ????0.1 ????0.1 ????0.1
Borax ????2-2.5 ????2-2.5 ????2-2.5 ????2-2.5
Proteolytic enzyme ????0.9 ????0.9 ????0.9 ????0.9
Lipase ????0.04-0.08 ????0.04-0.08 ????0.04-0.08 ????0.04-0.08
Amylase ????0.15 ????0.15 ????0.15 ????0.15
Cellulase ????0.05 ????0.05 ????0.05 ????0.05
Ethoxylation TEPA ????1.2 ????1.2 ????1.2 ????1.2
SRP?2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2
Whitening agent 3 ????0.15 ????0.15 ????0.15 ????0.15
Polysiloxane defoamers ????0.12 ????0.12 ????0.12 ????0.12
Forge the silicon-dioxide of system ????0.0015 ????0.0015 ????0.0015 ????0.0015
Spices ????0.3 ????0.3 ????0.3 ????0.3
Dyestuff ????0.0013 ????0.00123 ????0.0013 ????0.0013
Moisture and a small amount of component Equal amount Equal amount Equal amount Equal amount
Product pH (10% in deionized water) ????7.7 ????7.7 ????7.7 ????7.7
Embodiment 7
Following liquid laundry detergent compositions EE-II produced according to the present invention:
????EE ????FF ????GG ????HH ????II
MBAS (the average total carbon atom of 14.5-15.5) ????2 ????6.25 ????10.5 ????14.75 ????19
The arbitrary combination of following material: C25 AExS *Na (x=1.8-2.5) C25AS (the paramount 2-alkyl of straight chain) C14-17 NaPS C12-16 SAS C18 Isosorbide-5-Nitrae dithionate C12-16 MES ????17 ????12.75 ????8.5 ????4.25 ????0
C11.3?LAS ????5.0 ????10.0 ????15.0 ????1.0 ????2.0
LMFAA ????3.5-5.5 ????3.5-5.5 ????3.5-5.5 ????3.5-5.5 ????3.5-5.5
C23E9 ????4-6 ????4-6 ????4-6 ????4-6 ????4-6
APA ????0-1.5 ????0-1.5 ????0-1.5 ????0-1.5 ????0-1.5
HPMC ????5.0 ????0.5 ????3.0 ????1.0 ????0.05
Citric acid ????1 ????1 ????1 ????1 ????1
Lipid acid (TPK or C12/14) ????7.5 ????7.5 ????7.5 ????7.5 ????7.5
Lipid acid (vegetable seeds) ????3.1 ????3.1 ????3.1 ????3.1 ????3.1
Ethanol ????1.8 ????1.8 ????1.8 ????1.8 ????1.8
Propylene glycol ????9.4 ????9.4 ????9.4 ????9.4 ????9.4
Monoethanolamine ????6.5 ????6.5 ????6.5 ????6.5 ????6.5
NaOH ????1.5 ????1.5 ????1.5 ????1.5 ????1.5
Toluenesulfonic acid sodium salt ????0-2 ????0-2 ????0-2 ????0-2 ????0-2
Borate (ionic species) ????2-2.5 ????2-2.5 ????2-2.5 ????2-2.5 ????2-2.5
CaCl2 ????0.02 ????0.02 ????0.02 ????0.02 ????0.02
Proteolytic enzyme ????0.48-0.6 ????0.48-0.6 ????0.48-0.6 ????0.48-0.6 ????0.48-0.6
Lipase ????0.06-0.14 ????0.06-0.14 ????0.06-0.14 ????0.06-0.14 ????0.06-0.14
Amylase ????0.6-0.14 ????0.6-0.14 ????0.6-0.14 ????0.6-0.14 ????0.6-0.14
Cellulase ????0.03 ????0.03 ????0.03 ????0.03 ????0.03
The TEPA of ethoxylation ????0.2-0.7 ????0.2-0.7 ????0.2-0.7 ????0.2-0.7 ????0.2-0.7
SRP?3 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2
Whitening agent 4 ????0.15 ????0.15 ????0.15 ????0.15 ????0.15
Polysiloxane defoamers ????0.2-0.25 ????0.2-0.25 ????0.2-0.25 ????0.2-0.25 ????0.2-0.25
Isofol16 ????0-2 ????0-2 ????0-2 ????0-2 ????0-2
Forge the silicon-dioxide of system ????0.0015 ????0.0015 ????0.0015 ????0.0015 ????0.0015
Spices ????0.5 ????0.5 ????0.5 ????0.5 ????0.5
Dyestuff ????0.0013 ????0.0013 ????0?0013 ????0.0013 ????0.0013
Moisture and a small amount of component Equal amount Equal amount Equal amount Equal amount Equal amount
Product pH (10% in deionized water) ????7.6 ????7.6 ????7.6 ????7.6 ????7.6
Embodiment 8
Following laundry detergent composition A-D produced according to the present invention:
????A ????B ????C ????D
MBAE0.5S (average total carbon atom=16.5) ????22 ????16.5 ????11 ????5.5
Any combination of following material: C45AS C45E1S LAS C16 SAS C14-17 NaPS C14-18 MES ????0 ????5.5 ????11 ????16.5
C23E6.5 ????1.5 ????1.5 ????1.5 ????1.5
Zeolite A ????27.8 ????27?8 ????27.8 ????27.8
PAA ????2.3 ????2.3 ????2.3 ????2.3
Carbonate ????27.3 ????27.3 ????27.3 ????27.3
Silicate ????0.6 ????0.6 ????0.6 ????0.6
HEMC ????3.0 ????1.0 ????5.0 ????0.05
Perborate ????1.0 ????1.0 ????1.0 ????1.0
Proteolytic enzyme ????0.3 ????0.3 ????0.3 ????0.3
Carezyme ????0.3 ????0.3 ????0.3 ????0.3
SRP ????0.4 ????0.4 ????0.4 ????0.4
Whitening agent 5 ????0.2 ????0.2 ????0.2 ????0.2
PEG ????1.6 ????1.6 ????1.6 ????1.6
Vitriol ????5.5 ????5.5 ????5.5 ????5.5
Polysiloxane defoamers ????0.42 ????0.42 ????0.42 ????0.42
Moisture and a small amount of component --equal amount---
Density (g/L) ????663 ????663 ????663 ????663
Embodiment 9
Following laundry detergent composition E-F produced according to the present invention:
????E ????F ????G ????H ????I
MBAE0.5S (average total carbon atom=16.5) ????14.8 ????16.4 ????12.3 ????8.2 ????4.1
Any combination of following material: C45AS C45E1S LAS C16SAS C14-17 NaPS C14-18 MES ????0 ????0 ????4.1 ????8.2 ????12.3
?TFAA ????1.6 ????0 ????0 ????0 ????0
?C24E3 ????4.9 ????4.9 ????4.9 ????4.9 ????4.9
Zeolite A ????15 ????15 ????15 ????15 ????15
?NaSKS-6 ????11 ????11 ????11 ????11 ????11
Citrate trianion ????3 ????3 ????3 ????3 ????3
?MA/AA ????4.8 ????4.8 ????4.8 ????4.8 ????4.8
?HEDP ????0.5 ????0.5 ????0.5 ????0.5 ????0.5
Carbonate ????8.5 ????8.5 ????8.5 ????8.5 ????8.5
Percarbonate ????20.7 ????20.7 ????20.7 ????20.7 ????20.7
Methylcellulose gum ????3.0 ????5.0 ????1.0 ????10.0 ????0.5
?TAED ????4.8 ????4.8 ????4.8 ????4.8 ????4.8
Proteolytic enzyme ????0.9 ????0.9 ????0.9 ????0.9 ????0.9
Lipase ????0.15 ????0.15 ????0.15 ????0.15 ????0.15
?Carezyme ????0.26 ????0.26 ????0.26 ????0.26 ????0.26
Amylase ????0.36 ????0.36 ????0.36 ????0.36 ????0.36
?SRP ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Whitening agent 3 ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Vitriol ????2.3 ????2.3 ????2.3 ????2.3 ????2.3
Polysiloxane defoamers ????0.4 ????0.4 ????0.4 ????0.4 ????0.4
Moisture and a small amount of component --equal amount---
Density (g/L) ????850 ????850 ????850 ????850 ????850
Embodiment 10
Following laundry detergent composition J-O produced according to the present invention:
????J ????K ????L ????M ????N ????O
MBAE0.5S (average total carbon atom=16.5) ????32 ????32 ????24 ????16 ????16 ????8
Any combination of following material: C45AS C45E1S LAS C16 SAS C14-17 NaPS C14-18 MES ????0 ????0 ????8 ????16 ????16 ????24
C23E6.5 ????3.6 ????3.6 ????3.6 ????3.6 ????3.6 ????3.6
QAS ????- ????0.5 ????- ????- ????0.5 ????-
Zeolite A ????9.0 ????9.0 ????9.0 ????9.0 ????9.0 ????9.0
The multi-carboxylate ????7.0 ????7.0 ????7.0 ????7.0 ????7.0 ????7.0
Carbonate ????18.4 ????18.4 ????18.4 ????18.4 ????18.4 ????18.4
Silicate ????11.3 ????11.3 ????11.3 ????11.3 ????11.3 ????11.3
Methylcellulose gum ????3.0 ????10.0 ????5.0 ????1.0 ????0.5 ????3.0
Perborate ????3.9 ????3.9 ????3.9 ????3.9 ????3.9 ????3.9
NOBS ????4.1 ????4.1 ????4.1 ????4.1 ????4.1 ????4.1
Proteolytic enzyme ????0.9 ????0.9 ????0.9 ????0.9 ????0.9 ????0.9
SRP ????0.5 ????0.5 ????0.5 ????0.5 ????0.5 ????0.5
Whitening agent 1 ????0.3 ????0.3 ????0.3 ????0.3 ????0.3 ????0.3
PEG ????0.2 ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Vitriol ????5.1 ????5.1 ????5.1 ????5.1 ????5.1 ????5.1
Polysiloxane defoamers ????0.2 ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Moisture and a small amount of component --equal amount---
Density (g/L) ????810 ????810 ????810 ????810 ????810 ????810
Embodiment 11
Following laundry detergent composition O-R produced according to the present invention:
????O ????P ????Q ????R
MBAE0.5S (average total carbon atom=16.5) ????22 ????16.5 ????11 ????5.5
Any combination of following material: C45AS C45E1S LAS C16SAS C14-17 NaPS C14-18 MES ????0 ????5.5 ????11 ????16.5
C23E6.5 ????1.2 ????1.2 ????1.2 ????1.2
STPP ????35.0 ????35.0 ????35.0 ????35.0
Carbonate ????19.0 ????19.0 ????19.0 ????19.0
Zeolite A ????16.0 ????16.0 ????16.0 ????16.0
Methylcellulose gum ????3.0 ????1.0 ????0.05 ????0.5
Silicate ????2.0 ????2.0 ????2.0 ????2.0
CMC ????0.3 ????0.3 ????0.3 ????0.3
Proteolytic enzyme ????1.4 ????1.4 ????1.4 ????1.4
Lipase ????0.12 ????0.12 ????0.12 ????0.12
SRP ????0.3 ????0.3 ????0.3 ????0.3
Whitening agent 3 ????0.2 ????0.2 ????0.2 ????0.2
Moisture and a small amount of component --equal amount---
Embodiment 12
Following liquid laundry detergent compositions AA-DD produced according to the present invention:
????AA ????BB ????CC ????DD
MBAExS (x=1.8-2.5; 14.5-15.5 average total carbon atoms in alkyl) ????6.5 ????11.5 ????16.5 ????21.5
The arbitrary combination of following material: C25AExS *Na (x=1.8-2.5) C25AS (the paramount 2-alkyl of straight chain) C14-17 NaPS C12-16 SAS C181,4 dithionate C12-16 MES ????15 ????10 ????5 ????0
C11.3?LAS ????5.0 ????10.0 ????1.0 ????15.0
LMFAA ????2.5-3.5 ????2.5-3.5 ????2.5-3.5 ????2.5-3.5
C23E9 ????0.6-2 ????0.6-2 ????0.6-2 ????0.6-2
APA ????0-0.5 ????0-0.5 ????0-0.5 ????0-0.5
Methylcellulose gum ????3.0 ????3.0 ????10.0 ????0.05
Citric acid ????3.0 ????3.0 ????3.0 ????3.0
Lipid acid (TPK or C12/14) ????2.0 ????2.0 ????2.0 ????2.0
Ethanol ????3.4 ????3.4 ????3.4 ????3.4
Propylene glycol ????6.4 ????6.4 ????6.4 ????6.4
Monoethanolamine ????1.0 ????1.0 ????1.0 ????1.0
NaOH ????3.0 ????3.0 ????3.0 ????3.0
Toluenesulfonic acid sodium salt ????2.3 ????2.3 ????2.3 ????2.3
Sodium formiate ????0.1 ????0.1 ????0.1 ????0.1
Borax ????2-2.5 ????2-2.5 ????2-2.5 ????2-2.5
Proteolytic enzyme ????0.9 ????0.9 ????0.9 ????0.9
Lipase ????0.04-0.08 ????0.04-0.08 ????0.04-0.08 ????0.04-0.08
Amylase ????0.15 ????0.15 ????0.15 ????0.15
Cellulase ????0.05 ????0.05 ????0.05 ????0.05
The TEPA of ethoxylation ????1.2 ????1.2 ????1.2 ????1.2
SRP2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2
Whitening agent 3 ????0.15 ????0.15 ????0.15 ????0.15
Polysiloxane defoamers ????0.12 ????0.12 ????0.12 ????0.12
Forge the silicon-dioxide of system ????0.0015 ????0.0015 ????0.0015 ????0.0015
Spices ????0.3 ????0.3 ????0.3 ????0.3
Dyestuff ????0.0013 ????0.00123 ????0.0013 ????0.0013
Moisture and a small amount of component Equal amount Equal amount Equal amount Equal amount
Product pH (10% in deionized water) ????7.7 ????7.7 ????7.7 ????7.7
Embodiment 13
Following liquid laundry detergent compositions EE-II produced according to the present invention:
????EE ????FF ????GG ????HH ????II
MBAExS (x=1.8-2.5; 14.5-15.5 the average total carbon atom in alkyl) ????2 ????6.25 ????10.5 ????14.75 ????19
The arbitrary combination of following material: C25AExS *Na (x=1.8-2.5) C25AS (the paramount 2-alkyl of straight chain) C14-17 NaPS C12-16 SAS C181,4 dithionate C12-16 MES ????17 ????12.75 ????8.5 ????4.25 ????0
C11.3?LAS
LMFAA ????3.5-5.5 ????3.5-5.5 ????3.5-5.5 ????3.5-5.5 ????3.5-5.5
C23E9 ????4-6 ????4-6 ????4-6 ????4-6 ????4-6
APA ????0-1.5 ????0-1.5 ????0-1.5 ????0-1.5 ????0-1.5
HPMC ????3.0 ????0.5 ????1.0 ????5.0 ????3.0
Citric acid ????1 ????1 ????1 ????1 ????1
Lipid acid (TPK or C12/14) ????7.5 ????7.5 ????7.5 ????7.5 ????7.5
Lipid acid (vegetable seeds) ????3.1 ????3.1 ????3.1 ????3.1 ????3.1
Ethanol ????1.8 ????1.8 ????1.8 ????1.8 ????1.8
Propylene glycol ????9.4 ????9.4 ????9.4 ????9.4 ????9.4
Monoethanolamine ????6.5 ????6.5 ????6.5 ????6.5 ????6.5
NaOH ????1.5 ????1.5 ????1.5 ????1.5 ????1.5
Toluenesulfonic acid sodium salt ????0-2 ????0-2 ????0-2 ????0-2 ????0-2
Borate (ionic species) ????2-2.5 ????2-2.5 ????2-2.5 ????2-2.5 ????2-2.5
CaCl2 ????0.02 ????0.02 ????0.02 ????0.02 ????0.02
Proteolytic enzyme ????0.48-0.6 ????0.48-0.6 ????0.48-0.6 ????0.48-0.6 ????0.48-0.6
Lipase ????0.06-0.14 ????0.06-0.14 ????0.06-0.14 ????0.06-0.14 ????0.06-0.14
Amylase ????0.6-0.14 ????0.6-0.14 ????0.6-0.14 ????0.6-0.14 ????0.6-0.14
Cellulase ????0.03 ????0.03 ????0.03 ????0.03 ????0.03
The TEPA of ethoxylation ????0.2-0.7 ????0.2-0.7 ????0.2-0.7 ????0.2-0.7 ????0.2-0.7
SRP?3 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2
Whitening agent 4 ????0.15 ????0.15 ????0.15 ????0.15 ????0.15
Polysiloxane defoamers ????0.2-0.25 ????0.2-0.25 ????0.2-0.25 ????0.2-0.25 ????0.2-0.25
Isofol16 ????0-2 ????0-2 ????0-2 ????0-2 ????0-2
Forge the silicon-dioxide of system ????0.0015 ????0.0015 ????0.0015 ????0.0015 ????0.0015
Spices ????0.5 ????0.5 ????0.5 ????0.5 ????0.5
Dyestuff ????00013 ????0.0013 ????0.0013 ????0.0013 ????0.0013
Moisture and a small amount of component Equal amount Equal amount Equal amount Equal amount Equal amount
Product pH (10% in deionized water) ????7.6 ????7.6 ????7.6 ????7.6 ????7.6
Embodiment 14
Laundry prototype formula solution shown in being prepared as follows.
The ppm of component in washing soln
????F ????G ????H
The C11.9 sodium alkyl benzene sulfonate ????144 ????144 ????144
C14-15 sodium sulfate ????24 ????24 ????24
C14-15 oxyethyl group sodium sulfate ????9 ????9 ????9
?Neodol?23-6.5 ????15 ????15 ????15
C16 branching ethoxylate (E2) sodium sulfate ????73 ????- ????-
C17 branching ethoxylate (E2) sodium sulfate ????- ????73 ????-
C18 branching ethoxylate (E2) sodium sulfate ????- ????- ????73
Zeolite A ????260 ????260 ????260
Methylcellulose gum ????10 ????20 ????5
Yellow soda ash ????193 ????193 ????193
Sodium sulfate ????52 ????52 ????52
Sodium peroxoborate ????10 ????10 ????10
Polyacrylic acid (MW=4500) ????22 ????22 ????22
Polyoxyethylene glycol (MW=4600) ????9 ????9 ????9
Water glass ????6 ????6 ????6
Embodiment 15
Following laundry detergent composition A-I produced according to the present invention:
??A ??B ??C ??D ??E ??F ??G ??H ??I
LAS ??10 ?10 ?10 ?20 ?20 ?20 ?0 ??0 ?0
C45AS ??10 ?10 ?10 ?0 ?0 ?0 ?20 ?20 ?20
MBAE ??1 ?2.5 ?5 ?1 ?2.5 ?5 ?1 ?2.5 ?5
Zeolite A ??28 ?28 ?28 ?28 ?28 ?28 ?28 ?28 ?28
PAA ??2 ?2 ?2 ?2 ?2 ?2 ?2 ?2 ?2
Carbonate ??27 ?27 ?27 ?27 ?27 ?27 ?27 ?27 ?27
Silicate ??0.6 ?0.6 ?0.6 ?0.6 ?0.6 ?0.6 ?0.6 ?0.6 ?0.6
Methylcellulose gum ??3 ?5 ?0.5 ?1 ?10 ?5 ?1 ?3 ?0.05
Perborate ??1.0 ?1.0 ?1.0 ?1.0 ?1.0 ?1.0 ?1.0 ?1.0 ?1.0
Proteolytic enzyme ??0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3
Carezyme ??0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3 ?0.3
SRP ??0.4 ?0.4 ?0.4 ?0.4 ?0.4 ?0.4 ?0.4 ?0.4 ?0.4
Whitening agent 3 ??0.2 ?0.2 ?0.2 ?0.2 ?0.2 ?0.2 ?0.2 ?0.2 ?0.2
PEG ??1.6 ?1.6 ?1.6 ?1.6 ?1.6 ?1.6 ?1.6 ?1.6 ?1.6
Vitriol ??5.5 ?5.5 ?5.5 ?5.5 ?5.5 ?5.5 ?5.5 ?5.5 ?5.5
Polysiloxane defoamers ??0.42 ?0.42 ?0.42 ?0.42 ?0.42 ?0.42 ?0.42 ?0.42 ?0.42
Moisture and a small amount of component --equal amount---
Embodiment 16
Following laundry detergent composition J-N produced according to the present invention:
????J ????K ????L ????M ????N
C45AS ????8 ????5 ????0 ????8 ????8
LAS ????0 ????12 ????17 ????0 ????8
MBAE ????7 ????6 ????5 ????4 ????8
Soap ????0 ????0.5 ????0 ????0 ????0
C23E6.5 ????0 ????0 ????0 ????0 ????1
C45E5 ????0 ????0 ????0 ????3 ????0
Zeolite A ????15 ????25 ????15 ????15 ????23
HEMC ????3 ????5 ????10 ????1 ????3
Citric acid ????3 ????0 ????3 ????3 ????0
NaSKS-6 ????11 ????6 ????11 ????11 ????0
Carbonate ????8.5 ????8.5 ????8.5 ????8.5 ????17
Silicate ????0 ????2 ????0 ????0 ????0.7
Vitriol ????2.3 ????3 ????3 ????3 ????16
MA/AA ????4.3 ????4.3 ????4.3 ????4.3 ????0
CMC ????0.4 ????0 ????0 ????0 ????0
PAA ????0 ????0 ????0 ????0 ????2
SRP ????0.2 ????0 ????0.2 ????0.2 ????0.3
Proteolytic enzyme ????0.9 ????0.5 ????0.5 ????0.5 ????0.1
Lipase ????0.2 ????0 ????0 ????0 ????0
Carezyme ????0.3 ????0.3 ????0.3 ????0.3 ????0.2
Amylase ????0.4 ????0 ????0 ????0 ????0
Percarbonate ????21 ????21 ????21 ????0 ????0
TAED ????5 ????5 ????5 ????0 ????0
Perborate ????0 ????0 ????0 ????0 ????2.7
NOBS ????0 ????0 ????0 ????0 ????4.7
HEDP ????0.5 ????0 ????0 ????0 ????0.5
Whitening agent 4 ????0.2 ????0.2 ????0.2 ????0.2 ????0.2
Suds suppressor ????0.4 ????0.4 ????0.4 ????0.4 ????0.4
Moisture and a small amount of component --equal amount---
Embodiment 17
Following laundry detergent composition O-S produced according to the present invention:
????O ????P ????Q ????R ????S
Anion surfactant ????0 ????0 ????0 ????1 ????1
MBAE ????20 ????17 ????12 ????20 ????20
Soap ????12 ????0 ????0 ????0 ????0
Zeolite A ????20 ????4 ????0 ????15 ????15
STPP ????0 ????50 ????40 ????0 ????0
PAA ????3.5 ????0 ????2 ????5 ????5
Carbonate ????0 ????10 ????5 ????15 ????15
Silicate ????20 ????5.5 ????24 ????2 ????2
NOBS ????0 ????0 ????0 ????0 ????5
HPMC ????3 ????5 ????1 ????10 ????0.5
Perborate ????0 ????0 ????0 ????0 ????3
Proteolytic enzyme ????0.8 ????0.5 ????0.5 ????0.5 ????0.5
Carezyme ????0 ????0.3 ????0 ????0.3 ????0.3
SRP ????0 ????0.2 ????0.3 ????0.3 ????0.3
Whitening agent 1 ????0.5 ????0.5 ????0.2 ????0.3 ????0.3
PEG ????1 ????0 ????0 ????2.5 ????2.5
Vitriol ????5 ????0 ????0 ????5 ????5
Polysiloxane defoamers ????0.2 ????0.2 ????0 ????0 ????0.3
Moisture and a small amount of component --equal amount---
Embodiment 18
Preparation is according to following high density detergent agent prescription T-V of the present invention:
The nonionic agglomerate ????T ????U ????V
????????????MBAE ????9.0 ????4.5 ????9.0
???????????C45E7 ????0 ????4.5 ????0
???????????C45AS ????2.0 ????2.0 ????2.0
Zeolite A ????1.1 ????1.1 ????1.1
Citrate trianion ????1.8 ????1.8 ????1.8
?????????????PEG ????1.4 ????1.4 ????1.4
Carbonate ????3.0 ????3.0 ????3.0
The negatively charged ion agglomerate
????????C45E0.3S ????20.3 ????20.3 ????20.3
Zeolite A ????11.3 ????11.3 ????11.3
Carbonate ????3.9 ????3.9 ????3.9
?????????????CMC ????0.7 ????0.7 ????0.7
Dried additive
Zeolite A ????4.5 ????4.5 ????4.5
Methylcellulose gum ????3.0 ????1.0 ????5.0
?????????NaSKS-6 ????10.8 ????10.8 ????10.8
???????????MA/AA ????5.9 ????5.9 ????5.9
Perborate ????5.3 ????5.3 ????10
????????????TAED ????0 ????0 ????5
????HEDP ????0.4 ????0.4 ????0.4
Proteolytic enzyme ????0.5 ????0.5 ????0
Suds suppressor ????0.4 ????0.4 ????0
Whitening agent 2 ????0.2 ????0.2 ????0
Moisture and a small amount of component --equal amount---
Embodiment 19
Preparation is according to following liquid laundry detergent compositions W-Z of the present invention:
????W ????X ????Y ????Z
MBAEx (x=5-10; 14.6-15.5 average total carbon atom of alkyl) ????0.5-5 ????4-6 ????10-15 ????20-25
The arbitrary combination of following material: C25AExS *Na (x=1.8-2.5) C25AS (the paramount 2-alkyl of straight chain) C14-17 NaPS C12-16 SAS C18 1,4 dithionate C12-16 MES ????21.5 ????19 ????5-15 ????1-6
C11.3LAS ????5 ????1 ????10 ????15
LMFAA ????2.5-5.5 ????2.5-5.5 ????0-3 ????0-3
The arbitrary combination APA QAS C12-14 trimethyl-ammonium halide of following material ????0-1.5 ????0-1.5 ????0-2 ????0-3
DSDMAC ????- ????- ????- ????4
Methylcellulose gum ????3 ????3 ????1 ????5
Citric acid ????3 ????1 ????1 ????1
Lipid acid (TPK, C12/14 or vegetable seeds) ????2 ????10.6 ????0-5 ????0-5
Ethanol ????3.4 ????1.8 ????4 ????5.5
Propylene glycol ????6.4 ????9.4 ????6 ????4
Monoethanolamine ????1 ????6.5 ????3 ????1.5
NaOH ????3 ????1.5 ????1.5 ????1
Toluenesulfonic acid sodium salt ????2.3 ????0-2 ????2-4 ????2-4
Borax ????2-2.5 ????2-2.5 ????2-2.5 ????2-2.5
CaCl2 ????0.02 ????0.02 ????0.02 ????0.02
Proteolytic enzyme ????0.9 ????0.48-0.6 ????0.6-0.9 ????0.9
Lipase ????0.04- ????0.08 ????0.06- ????0.14 ????0.08 ????0.08
Amylase ????0.15 ????0.06- ????0.14 ????0.1 ????0.1
Cellulase ????0.05 ????0.03 ????0.03 ????0.03
The TEPA of ethoxylation ????1.2 ????0.2-0.7 ????0.7-1.2 ????1.2
SRP 3 or 4 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2 ????0.1-0.2
Whitening agent 3 or 4 ????0.1-0.2 ????0.15 ????0.15-0.3 ????0.3
Polysiloxane defoamers ????0.12 ????0.2-0.25 ????0-0.12 ????0-0.12
Isofol16 ????0-2 ????0-2 ????0-2 ????-
Forge the silicon-dioxide of system ????0.0015 ????0.0015 ????- ????-
Spices ????0.5 ????0.5 ????0.3-0.5 ????0.3-0.5
Dyestuff ????0.0013 ????0.0013 ????0.0013 ????0.0013
Moisture and a small amount of component --equal amount--
Product pH (10% in deionized water) ????7.6 ????7.6 ????6-8 ????6-8

Claims (7)

1. detergent composition, it comprises: A. is at least about the surfactant compounds of the following formula long alkyl chain mid-chain branched of 0.5% weight:
A b-X-B is wherein: (1) A bBe that hydrophobic total carbon atom number is C9-C22, the moieties of preferably about C12-C18 mid-chain branched, it has: (a) with-the longest linear carbochain 8-21 carbon atom scope that X-B partly is connected; (b) one or more C of branching on this longest linear carbochain 1-C 3Moieties; (c) at least one branched-chain alkyl part directly with the longest linear carbochain on from deducting carbon atom connection between ω-2 carbon location of 2 carbon with 2-carbon location to the end carbon atom of-carbon #1 number that X-B partly is connected; (d) A of this surfactant composition following formula b-X partly has average total carbon atom number for about 18 greater than 14.5-, and it is about 17.5 to be preferably greater than 14.5-, and more preferably from about 15-about 17; (2) B is a hydrophilic segment, it is selected from vitriol, sulfonate, amine oxide, polyoxyalkylene, preferred polyoxyethylene and polyoxypropylene, oxyalkylated vitriol, the poly-hydroxy part, phosphoric acid ester, glycerol sulfonate, poly-gluconate, poly phosphate, phosphonate, sulfosuccinate, sulphosuccinamate, the poly-alkoxylation carboxylate salt, glucamide, taurate, sarcosinate, glycinate, isethionate, di alkanolamide, monoalkylol amide, monoalkylol amide vitriol, the Diethylene Glycol acid amides, Diethylene Glycol acid amides vitriol, glyceryl ester, sulphate of glyceryl ester, glyceryl ether, glycerol ether sulfate, polyglyceryl ether, polyglyceryl ether vitriol, sorbitan ester, the poly-alkoxylation sorbitan ester, amino alkane sulfonate (ammonioalkanesulfonate), amido propyl betaine, the alkylation quaternary ammonium salt, alkylation/polyhydroxy alkyl quaternary ammonium salt, the alkylation quaternary ammonium salt, alkylation/polyhydroxylated oxygen propyl group quaternary ammonium salt, tetrahydroglyoxaline, 2-base-succinate, sulfonated alkyl ester and alpha-sulfonated fatty acid; (3) X is selected from-CH 2-and-C (O)-; With the plain derivative of the about 0.001%-10% weight fibres of B..
2. the detergent composition of claim 1, wherein A bPart is the primary alkyl part of following formula branching:
Figure A9718247400031
Wherein the primary alkyl of this formula branching partly comprises R, R 1And R 2The total carbon atom number of side chain is 13-19; R, R 1And R 2Be selected from hydrogen and C independently of one another 1-C 3Alkyl, preferable methyl, condition are R, R 1And R 2Not all be hydrogen and when z is 0, R or R at least 1Not hydrogen; W is the integer of 0-13; X is the integer of 0-13; Y is the integer of 0-13; Z is the integer of 0-13; And w+x+y+z is 7-13.
3. according to the detergent composition of claim 1 or 2, A wherein bPart is primary alkyl part or its mixture with the branching that is selected from following formula:
Figure A9718247400032
Wherein a, b, d and e are integers, and a+b is 10-16, and d+e is 8-14, and in addition wherein: when a+b=10, a is the integer of 2-9 and the integer that b is 1-8; When a+b=11, a is the integer of 2-10 and the integer that b is 1-9; When a+b=12, a is the integer of 2-11 and the integer that b is 1-10; When a+b=13, a is the integer of 2-12 and the integer that b is 1-11; When a+b=14, a is the integer of 2-13 and the integer that b is 1-12; When a+b=15, a is the integer of 2-14 and the integer that b is 1-13; When a+b=16, a is the integer of 2-15 and the integer that b is 1-14; When d+e=8, d is the integer of 2-7 and the integer that e is 1-6; When d+e=9, d is the integer of 2-8 and the integer that e is 1-7; When d+e=10, d is the integer of 2-9 and the integer that e is 1-8; When d+e=11, d is the integer of 2-10 and the integer that e is 1-9; When d+e=12, d is the integer of 2-11 and the integer that e is 1-10; When d+e=13, d is the integer of 2-12 and the integer that e is 1-11; When d+e=14, d is the integer of 2-13 and the integer that e is 1-12.
4. according to the detergent composition of claim 1 or 2, wherein derivatived cellulose is the water-soluble cellulose ether derivative, and it is selected from nonionic cellulose derivatives, cationic cellulose derivative and its mixture.
5. detergent composition, it comprises: A. is at least about the surfactant compounds of the following formula long alkyl chain mid-chain branched of 5% weight:
A b-X-B is wherein: (1) A bBe that hydrophobic total carbon atom number is C9-C22, the moieties of preferably about C12-C18 mid-chain branched, it has: (a) with-the longest linear carbochain 8-21 carbon atom scope that X-B partly is connected; (b) one or more C of branching on this longest linear carbochain 1-C 3Moieties; (c) at least one branched-chain alkyl part directly with the longest linear carbochain on from deducting carbon atom connection between ω-2 carbon location of 2 carbon with 2-carbon location to the end carbon atom of-carbon #1 number that X-B partly is connected; (d) A of this surfactant composition following formula b-X partly has average total carbon atom number for about 18 greater than 14.5-, and it is about 17.5 to be preferably greater than 14.5-, and more preferably from about 15-about 17; (2) B is a hydrophilic segment, it is selected from vitriol, sulfonate, amine oxide, polyoxyalkylene, preferred polyoxyethylene and polyoxypropylene, oxyalkylated vitriol, the poly-hydroxy part, phosphoric acid ester, glycerol sulfonate, poly-gluconate, poly phosphate, phosphonate, sulfosuccinate, sulphosuccinamate, the poly-alkoxylation carboxylate salt, glucamide, taurate, sarcosinate, glycinate, isethionate, di alkanolamide, monoalkylol amide, monoalkylol amide vitriol, the Diethylene Glycol acid amides, Diethylene Glycol acid amides vitriol, glyceryl ester, sulphate of glyceryl ester, glyceryl ether, glycerol ether sulfate, polyglyceryl ether, polyglyceryl ether vitriol, sorbitan ester, the poly-alkoxylation sorbitan ester, amino alkane sulfonate, amido propyl betaine, the alkylation quaternary ammonium salt, alkylation/polyhydroxy alkyl quaternary ammonium salt, the alkylation quaternary ammonium salt, alkylation/polyhydroxylated oxygen propyl group quaternary ammonium salt, tetrahydroglyoxaline, 2-base-succinate, sulfonated alkyl ester and alpha-sulfonated fatty acid; (3) X is selected from-CH 2-and-C (O)-; With the plain derivative of the about 0.01%-5% weight fibres of B., it is selected from nonionic cellulose derivatives, cationic cellulose derivative and its mixture.
6. the detergent composition of claim 5, it also comprises the annexing ingredient of detergent composition, and it is selected from washing assistant, enzyme, SYNTHETIC OPTICAL WHITNER, detergent surfactant and its mixture.
7. the detergent composition of claim 5, wherein derivatived cellulose is selected from methylcellulose gum, Vltra tears, hydroxyethylmethyl-cellulose and its mixture.
CN 97182474 1997-10-10 1997-10-10 Mid-chain branched surfactands with cellulose derivatives Pending CN1276004A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101081976B (en) * 2006-05-29 2011-11-23 中国科学技术大学 Fire-resistant non-injury fracturing fluid thickening agent and preparation method and usage thereof
CN102485771A (en) * 2010-12-03 2012-06-06 中国石油天然气股份有限公司 Fatty alcohol polyoxypropylene polyoxyethylene ether carboxylate, preparation thereof and application thereof
CN107690476A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN107690475A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN107690477A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN107690474A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN110331051A (en) * 2019-07-12 2019-10-15 广州立白企业集团有限公司 A kind of automatic dish-washing machine detergent composition
CN114008184A (en) * 2019-06-28 2022-02-01 联合利华知识产权控股有限公司 Detergent composition

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101081976B (en) * 2006-05-29 2011-11-23 中国科学技术大学 Fire-resistant non-injury fracturing fluid thickening agent and preparation method and usage thereof
CN102485771A (en) * 2010-12-03 2012-06-06 中国石油天然气股份有限公司 Fatty alcohol polyoxypropylene polyoxyethylene ether carboxylate, preparation thereof and application thereof
CN107690476A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN107690475A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN107690477A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN107690474A (en) * 2015-06-05 2018-02-13 宝洁公司 Dense liquids laundry detergent composition
CN114008184A (en) * 2019-06-28 2022-02-01 联合利华知识产权控股有限公司 Detergent composition
CN110331051A (en) * 2019-07-12 2019-10-15 广州立白企业集团有限公司 A kind of automatic dish-washing machine detergent composition
CN110331051B (en) * 2019-07-12 2021-06-29 广州立白企业集团有限公司 Detergent composition for automatic dish-washing machine

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