Formulations for dissolvable solid unit dose toilet cleaning compositions containing an anionic surfactant, a carbonate or bicarbonate salt, a water-soluble filler and an organic acid, wherein the ratio of anionic surfactant to filler is 1:6 to 5:1. The filler includes clay, a sugar or a salt. The solid unit dose can be a tablet or compressed solid that engages with a wand to clean a toilet. The solids dissolve and can be flushed after use.

A cleaning product includes a spray dispenser and a cleaning composition. The composition is housed in the spray dispenser. The cleaning composition includes from 5% to 25% of a surfactant system by weight of the composition. The surfactant system includes alkyl polyglucoside surfactant; a co-surfactant selected from zwitterionic surfactant, amphoteric surfactant, or mixtures thereof; and less than 3% by weight of the cleaning composition of anionic surfactant. The alkyl polyglucoside surfactant and the co-surfactant are present at a weight ratio of from 10:1 to 1:2. The cleaning composition further includes 0.1% to 10% of an organic solvent by weight of the composition. The pH of the composition is less than 8 as measured neat at 20° C.

The invention relates to a cleaning product comprising: an inverted container assembly (10) comprising an inverted container (11) and a liquid dispenser (15) attached to a bottom surface (12) of the inverted container (11), and a viscous cleaning composition contained in the inverted container assembly (10).

The invention is a detergent solution for cleaning a receptacle for milk or liquid milk-derived products, the detergent solution comprising water, one or more types of surfactant and an odour absorbing compound. The surfactants are provided to dissolve greasy milk-based residues from the receptacle and the odour absorbing compound is provided to neutralise odours produced by any remaining milk-based residues not removed by the surfactants. The detergent solution is water-based so that it can be rinsed off easily in a sink in the home. The detergent solution is particularly suited to plastic receptacles because plastic is more prone to accumulating mal-odour producing bacteria. This is because a plastic surface is more porous than glass so it is more difficult to remove greasy residues from a plastic surface and therefore grease can build up in the pores, out of the reach of surfactants, and provide a place for odour-producing bacteria to grow. An odour absorbing compound does not remove the residue but can neutralise the odours from the residue. The invention also discloses a method for dispensing a detergent solution comprising at least one surfactant, the method comprising ejecting detergent solution from a reservoir in the form of a spray, wherein the surfactant is present in the detergent solution in an amount of from 3% to 15% by weight of the detergent solution. The invention discloses also a method of cleaning a receptacle for milk, or liquid milk-derived products, the method comprising: spraying a detergent solution comprising at least one surfactant onto the receptacle, wherein the surfactant is present in the detergent solution in an amount of from 3% to 15% by weight of the detergent solution.

A composition comprising a metathesized polyol ester that may be combined with a fibrous structure, including a wipe.

A cleaning sachet for removing carbon deposit and rust on a gun element, and a cleaning method thereof, uses cleaning powder that includes aluminum oxide making up 75.000% to 99.989% by weight of the cleaning powder, zinc peroxide making up 0.010% to 9.000% by weight of the cleaning powder, and nano zinc oxide making up 0.001% to 6.000% by weight of the cleaning powder. A user can lay the cleaning sachet on a carbon-deposited and/or rusting area of the gun element before or after moistening the cleaning sachet with a lubricating oil, and then wipe the carbon-deposited and/or rusting area with the cleaning sachet after waiting a period of time. Therefore, the colloidal solution formed by mixing the lubricating oil and the cleaning powder and released out of the cleaning sachet can remove the carbon deposit and/or rust on the surface of the gun element.

The need for a container and detergent composition which exhibit good cleaning, including on greasy soils, and good surface shine, while also maintaining spray visibility on the treated hard surface, is met by formulating an aqueous detergent composition using a low level of surfactant system, an aminoalcohol solvent, and a glycol ether solvent, at the specified ratios.

A rheofluidifying surfactant composition structured into planar lamellar phases includes: a) at least one anionic surfactant and b) at least one compound selected from among amphoteric surfactants and non-ionic surfactants, in which the total active material of said surfactants is between 35 and 60% by weight relative to the total weight of said composition, in which the ratio of anionic surfactant is between 0.3 and 0.9, the ratio of amphoteric surfactant is between 0.0 and 0.7 and the ratio of non-ionic surfactant is between 0.0 and 0.7, said ratio being the ratio between the weight percentage of active material of said surfactant in said composition and the weight percentage of total active material of said surfactants in said composition, the pH of the composition being between 4 and 8, said at least one anionic surfactant being selected from the group comprising alkyl sulfates, alkyl ether sulfates, sulfonates, derivatives of phosphoric acid, phosphates and alkyl phosphates, isethionates, taurates, sulfoccinates, alkyl sulfoacetates, anionic derivatives of proteins of plant origin, amino acids and amino acid derivatives, polypeptides, carboxylic acids and the salts of same, salts of fatty acids from saponification, lactic acid derivatives and alkyl polyglucoside derivatives, and said composition being free of sodium chloride other than that which may be provided by the surfactants.

A fluid washing composition with four separate components and laundry washing kit thereof is disclosed. The four components are housed in respective independent tanks of a laundry washing machine equipped with a program for selecting, dosing and differentiated delivering. Component 1 is a detergent formulation with a pH of 4.0-12.0, with high detergent effect in washing programs at temperatures of 40°-60° C., having a specific action on cotton fibers, particularly, whites. Component 2 is a detergent formulation with a pH of 8.0-12.0, with high detergent effect in washing programs at temperatures of 15°-40° C., having a specific action on synthetic, colored and animal-origin fibers. Component 3 is an enzyme-based stain-removing formulation including protease and lipase and possibly amylase with a pH of 5.0-6.0, stabilized with sorbitol and calcium chloride. Component 4 is an after-wash conditioning formulation, with a pH of 2.0-4.0.

Disclosed are devices, systems, and methods for producing broad spectrum disinfectants, sanitizers, cleaner and deodorizers using chlorine dioxide compositions, and more particularly, to methods for producing chlorine dioxide compositions having improved long term stability by the proper choice of pH and through the careful choice of other product formula ingredients.