TR201903286T4 - Hard surface cleaning composition. - Google Patents

Abstract

The present invention provides an aqueous hard surface cleaning composition containing 0.01 to 1% by weight of a polymer selected from the group consisting of a polyglycerol methacrylate (PGMA) homo-polymer, a statistical copolymer containing glycerol methacrylate monomer, and mixtures thereof. Said cleaning composition also contains ~ 50% by weight of a surfactant selected from anionic surfactants, nonionic surfactants and mixtures thereof. It has been found that a secondary cleaning advantage can be achieved using said cleaning composition.

Description

DESCRIPTION HARD SURFACE CLEANING COMPOSITION Explanation field of invention The present invention is designed to provide at least one specific polymer for hard surfaces and to protect against dirt, especially oily dirt. It relates to a cleaning composition comprising a surfactant useful against invention also relates to a method of cleaning a hard surface, wherein said cleaning composition is used and an advantage is obtained here for subsequent cleaning.

Known Issues About the Invention Hard surfaces in homes or offices are often treated with one or more surfactants and chemicals. liquid, possibly also containing pH adjusters such as citric acid or sodium salts of citrate It is cleaned using compounds. These types of compositions are also effective against specific stains or dirt. It may also contain additional ingredients for targeting.

Cleaning compositions can be used either diluted in a spray (in water) or in undiluted form. It can also be applied using a cloth or any other suitable method. Optional Alternatively, the cleaning composition can be rinsed from the surface after cleaning. Will be cleaned Helps remove dirt and/or stains from the surface more easily during subsequent cleaning It would be advantageous to be treated with a material that is This is for the next cleaning It is expressed as an advantage. If they are not cleaned soon after they settle, dirt on hard surfaces may become more difficult to eliminate. If they are not cleaned immediately, the dirt becomes more attached to surfaces, can become more sticky and often more solid and require cleaning. More force may be required. Although not adhering to theory, dirt can be removed in this way They are more difficult to remove due to the effects of complete drying of the dirt and the chemical properties in the dirt. changes, reactions of dirt with environmental substances such as oxygen, etc. can be caused by Some soils are more susceptible to solidification reactions and processes than others. may be more sensitive. Consisting of or containing chemically unsaturated oils and fats Contaminants can become very hard and hard over time, especially when exposed to high temperatures. may make cleaning difficult. Even light causes this type of oily dirt to harden over time. it could be. The solidification processes of dirt are affected by environmental factors as well as the impact of the surface on which the dirt is located. It may also be affected by its structure and composition. Hard surface cleaning compositions may be acidic or It may be alkaline. Acidic compounds are most often citric acid, sorbic acid, acetic acid, forinic acid, Contains maleic acid, adipic acid, lactic acid, malic acid and glycolic acid. acidic cleaners It is generally used to remove acid-sensitive dirt such as lime. greasy dirt Alkaline compounds are generally preferred for removal.

In EP-A 0859046, it has a pH above 9 and is N-Vinylpyrrolidone and alkylenically a liquid solid containing a copolymer of unsaturated monomers or mixtures thereof The surface cleaning composition is disclosed. In examples, surfactants and polymers Compositions comprising (PolyquatTM 1 l; LuviskolTM 73 W; PEG DME-2000) are disclosed.

In EP-A 1927651, non-ionic surfactant with a pH between 3 and 7; amine oxide; a glycol ether solvent; a chelator; and a liquid containing a cationic polymer. The composition is explained.

In WO-00/58228, for the removal of rust and/or corrosion, a reducing agent, a chelating A composition comprising a substance and a surfactant is disclosed. Another distributor The composition in question, which may contain polymer, provides a stable protective effect after cleaning. It is stated that it forms a coating. active ingredient compositions are disclosed. is disclosed wherein the polymer is used as a method for surface modification or surface treatment. It has an ionic blog and a neutral hydrophobic blog. More specifically, in this document, The composition in question prevents bacterial proliferation, disinfects, removes odors. to print, or to provide easy cleaning or dirt removal properties. is getting hungry.

In the light of this prior art, polymer materials suitable for the removal of mobile dirt from hard surfaces have been developed. preferably with complex polymeric micelles at the interface. There is still a need for a cleaning composition that does not require the formation of Special A type of cleaning that provides a secondary cleaning advantage in terms of moving dirt. combination is needed. a) cleaner in a concentration between 3% and 85% by weight based on the total composition a surfactant; b) a concentration between 0.5% and 25% by weight of the total composition copolymer; the polymer in question is glycerol (meth) acrylate and poly (alkylene oxide) alkyl ether It has the molecular weight number; 0) optionally further, up to 100% by weight of the total composition detergent ingredients.

Accordingly, one purpose of this invention is to remove moving dirt, especially oily dirt, from hard surfaces. A cleaning composition providing an advantage for subsequent cleaning in terms of removing is to provide. Another purpose is that the mentioned advantage can be used for both acid and alkali cleaning. It can be obtained throughout the entire pH spectrum with its compositions. Yet another purpose is in the next cleaning without leaving compound residues that may be considered harmful to the consumer. is to gain advantage.

Now the inventors can realize that one or more of these purposes, this invention, a surface replacement using a cleaning composition containing the active ingredient and a specific type of polymer. They have surprisingly found that it can be brought.

Description of the invention Accordingly, in the first aspect, the present invention provides an aqueous hard surface according to claim 1. Provides cleaning composition.

Furthermore, in a second aspect, the present invention provides the use of a hard surface according to claim S. to be cleaned and to obtain an advantage in subsequent cleanliness for the surface in question. It provides a method for In a third aspect, the present invention provides that the aqueous hard surface cleaning composition is applied to a hard surface. to clean and gain an advantage in subsequent cleaning for the surface in question. provides its use.

Detailed description of the invention In the context of the present invention, the terms "dirt" and "stain" as used herein refer to general commonly encountered in homes, including pollutant solid debris, visible to the naked eye visible or invisible, of organic or inorganic origin and/or bacterial or other It covers all types of dirt and stains that contain pathogens.

Additionally, the phrase "advantage for subsequent cleaning" as used herein means that the present invention In dirt removal, after a hard surface that has been cleaned using the method becomes dirty again. It means increased convenience. This increased ease provides a certain constant cleaning force (e.g. the same number of delete actions where the same power is used per delete action) It may be indicated by an increasing amount of dirt removed from a hard surface using In dirt removal Evidence of such increased ease is shown in the examples. Alternatively, dirt increased ease of removal, less force to achieve similar level of soil removal (e.g. fewer delete actions, less power per delete action, or a combination of these) It can also be expressed as requiring a combination of In this case, before the dirt settles a certain amount of a hard surface treated using the method of the present invention. to remove dirt, using a general cleaning method of the prior art. The force required to remove an equal amount of dirt from a similarly treated hard surface Comparatively less force will be required.

The increased ease of dirt removal is a combination of the effects mentioned above (i.e. It can also be expressed as (removing more amount of dirt with less force).

The method of the invention includes the step of removing dirt and stains, preferably mobile dirt. is also stated. In this context, the term "mobile soils" as used herein means not significantly cross-linked or completely dried, so with a dry cloth It is used to mean dirt that can be removed from the surface. This type of mobile dirt, e.g. They are oily dirt.

Polymer It has a molecular weight greater than Dalton.

The polymer present in the cleaning composition of the invention is a polyglycerol methacrylate (PGMA) It is a homo-polymer. The molecular weight of the homopolymer in question is more than 100,000 Daltons. most preferably greater than 500,000 Daltons.

The concentration of said polymer is 001% by weight based on the cleaning composition of the invention. to 1%, preferably 001 to 0.5% by weight.

Surfactants The cleaning composition of the present invention may additionally contain 1 to 50% by weight, preferably 20% by weight, anionic surfactant, more preferably in a concentration of 1% to 10% by weight. substances, nonionic surfactants and mixtures thereof. Contains surfactant.

Suitable synthetic (non-soap) anionic surfactants are alkyl in molecular structure. having a branched or straight chain alkyl group containing 6 to 22 carbon atoms They are water-soluble salts of organic sulfuric acid mono-esters and sulfonic acids.

Examples of such anionic surfactants are the water-soluble salts of: o (primary) long chain (e.g. 6 to 22 carbon atoms) alcohol sulphates (here called PAS) expressed), especially the glycerides of tallow or coconut oil Obtained by sulfation of fatty alcohols produced by reduction; - alkyl benzene sulfonates, such as those whose alkyl group contains from 6 to 20 carbon atoms; - secondary alkanesulfonates; and mixtures thereof.

Also suitable are the salts of: . ethers of fatty alcohols, especially those derived from tallow and coconut oil - fatty acid monoglyceride sulphates; . Sulfates of ethoxylated aliphatic alcohols containing 1 to 12 ethyleneoxy groups; o Containing 1 to 8 ethyleneoxy units per molecule and alkyl groups having 4 to 14 carbons alkylphenol ethyleneoxy-ether sulfates containing atoms; o reaction of fatty acids esterified with isethionic acid and neutralized with alkali and mixtures thereof.

Preferred water-soluble synthetic anionic surfactants are alkyl- benzenesulfonates are alkali metal (such as sodium and potassium) and alkaline earth metal salts (such as calcium and magnesium) and olefinsulfonates and alkyl sulphates and fatty acid They are mixtures with mono-glyceride sulphates.

The most preferred anionic surfactants are alkyl in a straight or branched chain. alkyl-aromatic, such as alkylbenzenesulfonates containing 6 to 20 carbon atoms in the group sulfonates, specific examples of which are alkylbenzenesulfonates or alkyl-toluene-, sodium salts of -xylene- or -phenolsulfonates, alkylene-sulfonates, ammonium diamylnaphthalene-sulfonate and sodium dinonyl-naualene-sulfonate.

If a synthetic anionic surfactant is to be used, the cleaning compositions of the invention The amount present is generally at least 01%, preferably at least 05%, more preferably at least 10%, but preferably it will be at most 15%, more preferably at most 10%.

A suitable class of nonionic surfactants includes, roughly speaking, simple surfactants that are hydrophilic in nature. alkylene oxides, an aliphatic or alkyl-aromatic with a reactive hydrogen atom They can be explained as compounds produced by condensation with a hydrophobic compound. Any the length of the hydrophilic or polyoxyalkylene chain attached to a particular hydrophobic group, a compound with the desired balance between hydrophilic and hydrophobic elements It can be easily adjusted to ensure This is a nonionic surfactant with the correct HLB. Allows selection of items. Specific examples include the following: Coconuts have 2 to 15 moles of ethylene oxide per 0 mol of coconut alcohol 8 to 10% with straight or branched chain configurations, such as alcohol/ethylene oxide condensates Condensation products of aliphatic alcohols with 22 carbon atoms with ethylene oxide; - Alkylphenols containing C6-C15 alkyl groups, 2 to 25 moles per mole of alkylphenol ethylene oxide and its condensates; . condensates of the reaction product of ethylene-diamine and propylene oxide with ethylene oxide; It has molecular weight.

Other classes of nonionic surfactants include the following: Tertiary aline oxides with the structure R1R2R3N-O; where R1 is a carbon atom of 8 to 20 carbon atoms. is an alkyl group; R2 and R3 each are alkyl or hydroxyalkyl having 1 to 3 carbon atoms groups such as dimethyldodecylamine oxide; . Tertiary phosphine oxides with the structure RIR2R3P-O; where R is a carbon atom of 8 to 20 carbon atoms is an alkyl group; R2 and R3 each are alkyl or hydroxyalkyl of 1 to 3 carbon atoms groups such as dimethyl-dodecylphosphine oxide; o dialkyl sulfoxides with RIRZS=O structure; where R' is an alkyl of 10 to 18 carbon atoms is the group; R2 is inethyl or ethyl, such as methyl-tetradecyl sulfoxide; o fatty acid alkylolamides such as ethanol amides; - alkylene oxide condensates of fatty acid alkylolamides; . alkyl mercaptans, . alkylpolyglucosides.

The nonionic surfactant to be used in the said cleaning composition of the invention concentration preferably at least 01%, more preferably at least 05%, most preferably at least It will be at least 1%. This amount is preferably not more than 15% and most preferably not more than Optionally, amphoteric, cationic or zwitterionic surface can be applied to said compounds. It is also possible to include active ingredients.

Suitable amphoteric surfactants contain an alkyl group of 8 to 20 carbon atoms and aliphatic second group containing an aliphatic group substituted by a soluble anionic group and derivatives of tertiary amines (e.g. sodium 3-dodecylamino-propionate, sodium 3-dodecylaminopropane-sulfonate and sodium N-2-hydroxy-dodecyl-N-methyltaurate).

Examples of suitable cationic surfactants include one or two alkyl molecules with 8 to 20 carbon atoms. or fourth having an aralkyl group and two or three smaller aliphatic (e.g. methyl) groups It can be found among higher grade ammonium salts (e.g. cetyltrimethylammonium chloride).

A specific group of surfactants is a long chain compound of ethylene and/or propylene oxide. They are tertiary amines obtained through condensation with aliphatic amines. compounds, such as nonionic surfactants in alkaline environment and cationic surfactants in acidic environment. behaves like substances.

Examples of suitable zwitterionic surfactants include an aliphatic surfactant with 8 to 18 carbon atoms. aliphatic group having an aliphatic group substituted with a water-soluble anionic group among derivatives of quaternary ammonium, sulfonium and phosphonium compounds can be found; for example alkyl betaine, especially C12-C16 alkyl betaine, 3-(N,N-dimethyl-N- hexadecylammonium)-propane-1-sulfonate betaine, 3-(dodecylmethyl-sulfonium)-propane-1- sulfonate betaine, 3-(cetylmethyl-phosphonium)-propane-1-sulfonate betaine and N,N-dimethyl-N- betaine and betaine derivatives such as dodecyl-glycine. Other well-known betaines are alkylamidopropyl betaines, e.g. from coconut oil fatty acids of the alkylamido group from which they are derived.

Other examples of suitable surfactants are surfactants mentioned in well-known textbooks. are compounds widely used as active ingredients: 'Surface Active Agents' Skin 1, Schwartz and Perry, Interscience 1949; 'Surface Active Agents' Volume 2, Schwartz, Perry and Berch, Interscience 1958; The study titled 'McCutcheon's Emulsifiers and Detergents' New edition published by Manufacturing Confectioners Company; 'Tenside- Taschenbuch', H. Stache, 2nd Edition, Carl Hauser Verlag, 1981.

In a preferred embodiment, the method of the invention employs 2 to 13, more preferably at least 3 and at most 12 It is carried out at pH.

The cleaning methods of this invention designed to clean kitchen hard surfaces, It can advantageously be carried out at a pH in the alkaline range. For this purpose, the procedure in question is is used, preferably roughly between 6.0 and 12, more preferably between 7.0 and 12 It is carried out at pH.

Alternatively, the cleaning method of the invention is suitable for cleaning bathroom hard surfaces. When designed, said method is preferably between 3.0 and 7.0, more preferably between 3.0 and 6.0. It is carried out at a pH between .

The pH of the cleaning composition used in the method of the invention, organic or inorganic acids or adjustable with bases. Preferred inorganic bases are preferably alkaline or alkaline earth. hydroxides, ammonia, carbonates or bicarbonates, alkali metal preferably sodium or potassium, or the alkaline earth metal, preferably calcium or magnesium.

The organic bases are preferably amines, alkanolamines and other suitable amino compounds.

Inorganic acids can include hydrochloric acid, sulfuric acid or phosphoric acid, while organic acids acetic acid, citric acid or formic acid as well as Radimix (trademark, Radici Group) and Sokalan DCS (trademark, BASF). may contain.

Other optional components The cleaning composition used in accordance with the present invention may contain abrasives. With this However, abrasives cause the thin layer deposited on the surface when carrying out the method of the invention. These are generally not preferred because they tend to cause or remove damage.

In a preferred embodiment, the composition used in accordance with the present invention is a Does not contain abrasives.

The compositions may contain other ingredients that assist in their cleaning performance. For example, up to 25%, especially when the composition contains one or more anionic surfactants. It may contain up to 100% of detergent developer components and developer component mixtures.

The developer component, if present, constitutes at least 0.1% of the cleaning composition.

Suitable inorganic and organic developer compounds are available to those skilled in the art. is known.

Another optional component for compositions used in accordance with the invention is A foam that can be used in compositions that tend to produce a lot of foam during is a regulatory substance. Examples of this are fatty acids or their salts (soap), isoparaffins, silicone oils and their combinations.

Soaps are salts of fatty acids and contain about 8 to about 24 carbon atoms, preferably fatty acids containing about 10 to about 20 carbon atoms contain sodium, potassium and Contains alkali metal soaps such as ammonium salts. Palm oil, coconut oil and mixtures of fatty acids derived from peanut oil with sodium and potassium Mono-, di- and triethanolamine salts are particularly useful. Amount of fatty acid or soap (when used) comprise at least 0.005% by weight of the composition, preferably 01% to 2%. can create.

The cleaning composition of the invention is preferably 100% to 5% by weight, more preferably 100% to 5% by weight. The compositions further include, in addition to the previously mentioned ingredients, colorants, optical brighteners, soil suspending agents, cleaners enzymes, compatible bleaching agents (especially peroxide compounds and active chlorine) releasing compounds), solvents, co-solvents, gel control agents, additional freeze-thaw stabilizers, bactericides, preservatives (e.g. 1,2-benzisothiazolin-3-one) and It may also contain other optional components such as hydrotropes.

In a preferred embodiment, the composition of the present invention contains tannic acid or gallic acid. and/or related compounds such as propyl gallate. Alkaline liquid cleaning compositions When tannic acid is added to the formula, it turns yellow, which is not very aesthetically pleasing. It produces brown solutions and the cement in the joints between the tiles It has been determined that it can cause the skin to turn brown.

In another preferred embodiment, the composition of the present invention does not contain malonic acid.

An antioxidant such as malonic acid is relatively mild to provide an advantage in the next cleansing. requires high concentrations. In addition, consumers, for example, in the kitchen and bathroom One may think that malonic acid residues on hard surfaces are harmful and unpleasant.

In yet another preferred embodiment, the composition of the present invention does not contain formic acid.

Formic acid has a pungent odor and residues on hard surfaces are not aesthetically pleasing. not covered.

Liquid Dispensers The aqueous cleaning composition according to the present invention can be stored and used in any suitable vehicle. It can be dispersed by this means, but spray applicators are particularly preferred. with pump dispensers (spray or non-spray pumps) and pouring applicators (bottles) etc.) is possible. Therefore, in a preferred embodiment, in the second aspect, this invention It provides for the use of an aqueous cleaning composition according to the invention. said composition is in a chamber, where the chamber also contains said composition as a spray Includes a spray dispenser to dispense in form. The spray dispenser is preferably a trigger spray, but does not require any mechanical means to dispense the liquid in spray or aerosol form. It could be a vehicle.

Appearance In general, the aqueous cleaning composition of the invention is opaque to completely transparent. It can have any appearance. However, the composition in question is preferably the most It is at least partially transparent or translucent, more preferably transparent.

At least partially transparent or translucent means that the composition has a thickness of 1 cm. means that the sample transmits at least 20%, preferably at least 50%, of visible light. is coming. The term "transparent" means that a 1 cm thick sample of the composition absorbs visible light at its maximum. It means that it transmits at least 70%, preferably at least 90%.

method of invention In a preferred embodiment with respect to the first angle, the present invention is A method for cleaning and obtaining an advantage in subsequent cleaning. This method includes the following sequential stages: (a) applying an aqueous cleaning composition according to the invention to the surface; (b) rinsing the surface with water; (0) waiting for new dirt or stains to settle; And (d) cleaning the surface to remove said dirt or stains.

Preferably dirt or stains, containing oily substances, that have not undergone a significant solidification reaction. dirt or stain and is therefore also mobile (referring to the definition of "moving dirt" above). see). Examples The present invention is discussed in more detail in the following non-limiting examples. is getting hungry.

Advantage for subsequent cleaning of moving dirt, various tests at both alkaline and acid pH a laboratory to simulate practical cleaning conditions for the formulations. was evaluated using the methodology.

Contribution of test formulations to easier cleaning of moving dirt procedure for evaluation.

The basic stages in the methodology are given below: . Pre-cleaning of the laminate countertop test piece surface; - Treatment of the surface with the test solution; . Applying a layer of mobile dirt to the treated surface; 0 Leaving it to soak overnight; o Cleaning of the contaminated surface by a trained operator; o Recording of cleaning force (less force = better).

Preliminary cleaning of the test piece surface Treatments large laminate countertop pieces (Fundamentals from Formica, matt white) It is evaluated on. The test pieces in question are pre-cleaned by wiping with ethanol.

'Treatment of Surfaces' Each large laminate countertop piece is spaced evenly across the laminate and interlocked. Suitable for 4 non-contact A4 workpieces. 2 ml onto the surface of each A4 piece. test solution is applied and a dry perforated viscose cloth (e.g., J cloth) is applied to the surface. distributed uniformly over the area. Treatment naturally for 5 minutes is left to dry. The surface is then subjected to a fixed flow rate of approximately 5-6 L/min. Using a shower head, rinse with water for 30 seconds.

'Pollution of the Surface' Movable spray was applied to the treated test surface using a compressed air spray gun. dirt is applied. The composition of this dirt is as follows: Component % by weight Glycerol Tripalmitate 2 Liquid paraffin 0.4 Palmitic Acid 0.2 Carbon Black 0.02 Pure Ethanol up to 100% The dirt is first made by making a large batch (about 2 kg) free of carbon black. is prepared. This is heated for 60 minutes or to approximately 45°C using a Silverson mixer. It is cut up to . The dirt is left to cool overnight. Then, remove dirt before use. a smaller batch is taken, carbon black is added, and a Cut again using a Silverson inixer for 30 minutes or up to 45°C.

The resulting dirt is a mixture of triglycerides, mineral oil and fatty acid plus carbon black, the dirt A dispenser that allows spraying using a compressed air spray gun It is a dispersion in (ethanol).

Dirt is added onto each A4 piece according to the weight of the dirt in the spray gun. It is sprayed evenly at a level of 6.80 g per head.

Cleaning Cleaning of the test surface contaminated in this way can be done easily by a trained operator. up to 6 ml of a liquid detergent, i.e. on a dirty A4 piece that has not been pre-treated, complete cleaning of said part to a visibly clean end an alcohol ethoxylate at a rate such that an average force of more than 1000 Ns would be required to It is carried out using an aqueous cleaning solution of the mixture. Typically this ratio is The cleaning solution will contain 4% Neodol 91-5 and 1% Neodol 91-8 in water. It is as follows. The cleaning process is carried out on ergonomic equipment and a trained operator that the part is completely clean (all visible and tactile signs of dirt have been removed) means) or for a maximum of 2 minutes. More The cleaning force is then recorded. remove all dirt for a maximum period of 2 minutes. If not, the part is indicated as "not clean".

Reference Examples 1-6 All ingredients, except pH adjuster and a small amount of water (5%), are mixed together to prepare various ingredients. Test formulations were prepared. After dispersion of all components, appropriate pH pH was adjusted using an adjuster and the remainder of the formulation was completed with water.

This product is used for pre-treatment of laminate countertop test surfaces as described above. The test formulations have the following compositions.

Component % by weight Component Glascol Ell Poly(AA), 0.5 0.5 from Ciba PGMA MW ~ medium, 0.5 0.5 0.5 from Unilever Sodium Carbonate 0.35 0.35 pH adjuster (HCl/ to pH 4 to pH 7 to pH 11.4 to pH 4 to pH 7 to pH 11.4 * Glascol Ell Poly(AA): Polyacrylic Acid from Ciba.

* Medium MW PGMA: PGMA with a molecular weight in the range of 50k-500k Daltons.

Cleaning used to clean the recontaminated surface with ergonomic equipment The formulation is an aqueous solution containing 4% Neodol and water. It was a solution.

Test results indicate that dirt is completely removed from the test surface, as measured by ergonomic equipment. It was expressed as the amount of force (N) to remove it. As the required force decreases, the test The test formulation used for pretreatment of the surface is more effective. The following results were obtained for various test formulations. Sample No. Force for Dirt Removal (N) As can be seen, in the table above, pretreatment also indicates no pretreatment. pre-treatment with a test formulation to determine the advantage it provides over For cleaning untreated dirty surfaces, cleaning results are also shown.

Additionally, pretreatment with PGMA containing the test formulations of examples 1 to 3 Significantly less than pretreatment with PAA containing the test formulations of Examples 4 to 6 It can also be seen that it requires force. Advantage for PGMA containing test formulations (as less cleaning power), pH values range from pH4 to pH 11.4 For PAA, which includes the test formulations of examples 3 to 6, as the pH value increases It can also be seen that the force increases. This is the polyglycerol containing the formulation of the invention. methacrylate (PGMA) to polyacrylic acid (PAA) containing the prior art formulation In comparison, it clearly shows that it is more effective in reducing the cleaning force.

Reference Examples 7-10 Similar to examples 1 to 6, all except pH adjuster and a small amount of water (5%) Test formulations were prepared by mixing the components together. All your ingredients After dispersion, the pH was adjusted using the appropriate pH adjuster and the forinulation was The rest was completed with water. The front of the laminate countertop test surfaces described above These test formulations used for treatment have the following compositions.

Component % by weight Component Poly(AA), MW : low, 0.5 0.5 from Unilever PGMA MW z low, 0.5 0.5 from Unilever *MW Z low: (refers to both PGMA and poly(AA)) molecule less than 50 k Dalton Cleaning used to clean the recontaminated surface with ergonomic equipment formulation, aqueous containing 4% Neodol 9l-5 (from Shell), 1% Neodol and water It was a solution.

With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Dirt Removal (N) Comparing the results obtained in Examples 7 and 9*, the test with a pH value of 4 The results obtained after pretreatment with PGMA containing the formulation (example 7), 4 significantly higher than those obtained with PAA containing the test formulation with pH value It can be seen that it is good. Same observation, pH 11.4 for pretreatment of test surfaces Compared to samples 8 and 10, where test formulations with a value of It can also be done.

Reference Examples 11-14 Similar to the previous examples, all except the pH adjuster and a small amount of water (5%) Test formulations were prepared by mixing the components together. All your ingredients After dispersion, the pH was adjusted using the appropriate pH adjuster and the formulation was The rest was completed with water.

This test is used to pre-treat the laminate countertop test surfaces described above. The formulations have the following compositions.

Component % by weight Component Kars. Example 12 Kars. Example 14 Example 11 Example 13 MW ~ medium, 0.5 from Unilever Poly(DMAEMA/AA/GMA) MW ~ 0.5 medium, from Unilever Poly(AA) MW ~ medium, 0.5 from Unilever MW ~ medium, 0.5 from Unilever *DMAEMA = dimethylaminoethyl methacrylate; *AA = acrylic acid *GMA = glycerol methacrylate.

*Medium MW = molecular weight between 50 k - 500 k Dalton.

Cleaning used to clean the recontaminated surface with ergonomic equipment The formulation is an aqueous solution containing 4% Neodol and water. It was a solution.

With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Dirt Removal (N) When comparing the results obtained in examples 11 and 12 and also in examples 13 and Comparing the results of l4 revealed that the other monomers were ineffective. However, the advantages of PGMA are combined in a co- or ter-polymer. It can still be seen that it is observed even when it is brought. Examples 15-20 PGMA is used as a polymer to form polymers with various specific molecular weights (MW). It was prepared with the RAFT technique. RAFT (Reversible Addition Fragmentation Chain Transfer - Reversible Addition-Fragmentation chain Transfer) polymerization, a type of radical polymerization. Molecular weight (MW) formed during polymerization and It utilizes a Chain transfer agent to control polydispersity.

The resulting polymers were then used to formulate the following test formulations. used.

Component % by weight Component from Shell PGMA (MW 10k, 0.5 from Unilever PGMA (MW 25k, 0.5 from Unilever PGMA (MW 50k, 0.5 from Unilever PGMA (MW 100k, 0.5 from Unilever PGMA (MW 250k, 0.5 from Unilever PGMA (MW 500k, 0.5 from Unilever Examples 15-18 are comparative examples.

Cleaning used to clean the recontaminated surface with ergonomic equipment The formulation is an aqueous solution containing 4% Neodol and water. It was a solution.

With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Dirt Removal (N) Except for example 15, all test formulations containing PGMA were used for pretreatment. samples were statistically more contaminated compared to the situation with no pretreatment. It can be seen that it provides significantly better results in removal. Moreover, It can also be seen that as the molecular weight of the polymer increases, the effectiveness of the polymer increases. Examples 21-26 PGMA is processed by RAFT to form polymers with specific molecular weight (MW). It was prepared using the technique (as explained above). The resulting polymers are then It was used to formulate the following test formulations.

Component % Component by Weight from Shell PGMA (MW 10k, from Unilever PGMA (MW 25k, from Unilever PGMA (MW 50k, from Unilever PGMA (MW 100k, from Unilever PGMA (MW 250k, from Unilever PGMA (MW 500k, from Unilever pH adjuster (HCl/NaOH) to pH 4 to pH 4 to pH 4 to pH 4 to pH 4 to pH 4 Examples 21-24 are comparative examples.

Cleaning used to clean the recontaminated surface with ergonomic equipment The formulation is an aqueous solution containing 4% Neodol and water. It was a solution.

With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Dirt Removal (N) All samples in which test formulations containing PGMA were used for pretreatment statistically significant improvement in soil removal compared to no pretreatment. It can be seen that it produces significantly better results. Additionally, the polymer It can also be seen that as the molecular weight increases, the efficiency of the polyine increases. Examples 27-30 The contribution of the test formulations to easier cleaning of moving dirt is as follows: evaluated using the procedure described previously, with modifications: The composition of the dirt was as follows: NAME By Weight (%) Glyceryl Trioleate 1.28 Liquid Paraffin (Nujol) 0.51 Palmitic Acid 0.26 Ethanol 95.39 002% carbon black is added for imaging. 1 blend of Tripalmitin and Glyceryl Trioleate (60:40). The required quantities are baked in an oven at 70°C. is melted. The molten mixture is stirred manually and then placed in a bowl to solidify. placed in the freezer (~10 minutes). The solidified material is then transferred to a polytene bag and broken into small pieces by hand. Then this material is ready to be used.

Doing the Dirt Soil components were weighed in an appropriately sized beaker, a Silverson high It was placed under the shear mixer and mixed at 3.5 settings until the dirt mixture reached 34°C.

When the dirt reaches this temperature, the evaporated ethanol is replaced with new one until it cools to room temperature. It is cooled back and ready to be sprayed. Resulting dirt, triglycerides, mineral a compressed air blast gun to remove oil and fatty acid plus carbon black It is a dispersion in a dispersant (ethanol) that allows it to be sprayed using

'Spraying Dirt' The large Formica sheet is masked so that 4 A4 pieces remain exposed. Dirt, every A4 onto the piece, depending on the weight of the dirt in the spray gun 6.80 g per A4 piece It is sprayed evenly at the level.

The following samples were created and tested for secondary purification.

Ingredients % by weight Example 27 Kars. Compare Example. Compare Example. Example 28 29 30 Luviskol VA 73W 1 0.5 Polyquat 11 AT 12 0.5 l Luviskol VA 73W: 70/30 Vinylpyrrolidone (VP)/vinyl1 acetate (VA) copolymer, from BASF 2 Luviquat PQ 11 AT 1: vinyl pyrrolidone (VP) and dimethylaminoethyl methacrylate (DMAEMA) quaternized copolymer in aqueous solution, from BASF The formulations contain surfactant, sodium carbonate and polymer, water It was prepared by mixing it together with the Then use HC] or Using NaOH, the pH was adjusted to the desired value, then brought the sample to 100%. Water was added to .

With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Removing Dirt (N) Choosing the formulation of Example 30 as the control (base formulation without polymer), Statistical data analysis using the Dunnett Method showed that only the sample containing PGMA, shows that it requires significantly less force than the base formulation. Examples 31-34 Contribution of test formulations was determined using the procedure described in Examples 27-30. evaluated. The following samples were created and tested for secondary purification.

Ingredients % by weight Example 31 Kars. Compare Example. Compare Example. Example 32 33 34 Luviskol VA 73W 1 0.5 Polyquat 11 AT 1 2 up to 4 up to 4 up to 4 up to 4 2 Luviquat PQ 11 AT 1: vinyl pyrrolidone (VP) and dimethylaminoethyl methacrylate (DMAEMA) quaternized copolymer in aqueous solution, from BASF With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Dirt Removal (N) Choosing the formulation of Example 34 as the control (base formulation without polymer), Statistical data analysis using the Dunnett Method showed that only the sample containing PGMA, shows that it requires significantly less force than the base formulation. Examples 35-37 Contribution of test formulations was determined using the procedure described in Examples 27-30. evaluated. The following samples were created and tested for secondary purification.

Ingredients % by weight Example 35 Kars. Example 36 Comp. Example 37 Rhodia polymer 1 l up to 1.4 1 up to 1.4 1 up to 1.4 l Rhodia Polymer: Combination of acrylic acid and diquat monomer as described in EP 1927651 Polymer synthesized in-house using the procedure With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Dirt Removal (N) Choosing the formulation of Example 37 as the control (base formulation without polymer), Statistical data analysis using the Dunnett Method showed that only the sample containing PGMA, results in significantly less potency than the base formulation. Examples 38-40 Contribution of test formulations was determined using the procedure described in Examples 27-30. evaluated. The following samples were created and tested for secondary purification.

Ingredients % by weight Example 38 Kars. Example 39 Comp. Example 40 Rhodia polymer 1 up to 4 up to 4 up to 4 Polymer synthesized in-house using the procedure.

With respect to these test formulations, for complete removal of soil from the test surface The following results, expressed as the amount of force (N), were obtained. Sample No. Force for Dirt Removal (N) Selecting the formulation of Example 40 as the control (base formulation without polymer), Statistical data analysis using the Dunnett Method showed that only the sample containing PGMA, shows that it requires significantly less force than the base formulation.

Claims (7)

1. An aqueous hard surface cleaning composition comprising: (a) 001% to 1% by weight of a polymer selected from the group consisting of a polyglycerol methacrylate (PGMA) homopolymer, a statistical copolymer containing glycerol methacrylate monomer, and mixtures thereof; wherein the polymer is a PGMA homopolymer having a molecular weight greater than 100,000 Daltons; (b) a surfactant selected from anionic surfactants, nonionic surfactants, and mixtures thereof, in an amount of 1 to 50% by weight, preferably 1 to 20% by weight. 2. The cleaning composition according to claim 1, wherein the composition is at least partially transparent or translucent; Here, at least partially transparent or translucent means that a 1 cm thick sample of the composition will emit at least 20% of visible light, preferably at least 3. The cleaning composition according to claim 1 or claim 2, wherein the composition further contains from 0.001% to 5% by weight of perfume. 4. The cleaning composition according to any one of claims 1 to 3, wherein the homopolymer has a molecular weight of more than 500,000 Daltons. 5. A method for cleaning a hard surface and obtaining an advantage in subsequent cleaning for said surface, wherein said method comprises the steps of (i) applying to the surface an aqueous cleaning composition according to any one of claims 1 to 4, and (ii) Removing dirt and stains, preferably mobile dirt, from the surface in question; Here, advantage in subsequent cleaning means increased ease of removing dirt after re-contamination of a cleaned hard surface. 6. The method according to claim 5, wherein the method comprises the sequential steps of: (a) applying to the surface an aqueous cleaning composition according to any one of claims 1 to 4; (b) Rinsing the surface; (C) Waiting for new dirt or stains to precipitate on the surface; and (d) cleaning the surface to remove said dirt or stains. 7. Use of an aqueous hard surface cleaning composition according to any one of claims 1 to 4 for cleaning a hard surface and obtaining an advantage in subsequent cleaning for said surface.