Patent Description:
The present invention relates to a product for a washing appliance and to uses of said product.

The products called dishwasher care are normally liquid products with high dilution (H<NUM>O equal on average to <NUM>%) with strongly acid characteristics (pH=<NUM>) and a strong degreasing power determined mainly by the presence of surfactants.

They have the purpose of removing dirt residues and limescale that periodically accumulate in the dishwasher, in particular in the filters and spray arms. Usually, monthly use is prescribed.

The method of use of this type of product envisages running a complete empty cycle by setting a high temperature programme. The empty cycle needs to be run because, given the highly acid pH of the product, the concomitant use with the classic detergents for dishwashers would cause the inactivation of the enzymes contained in the detergents, significantly worsening the performance of washing the crockery. The need to opt for an intensive programme, on the other hand, is determined by the fact that the dishwasher care products are generally packaged in bottles (typically <NUM>) of water-resistant (non-biodegradable) plastic provided with a special cap consisting of a septum of meltable wax at temperatures above <NUM>-<NUM>. The product therefore starts its action in the central washing step when the temperature of the dishwasher is sufficient to melt the wax.

The dishwasher cares currently on the market come in a monophasic or biphasic version.

The washing machine care products are liquid products with high dilution (H<NUM>O><NUM>%) with strongly acid pH, equal to about <NUM>, and a fair degreasing power thanks to the presence of surfactants. They have the purpose of removing dirt residues and limescale that periodically accumulate in the appliance and are used in empty cycles, possibly at high temperatures to maximise the effect of the product. Considering the low pH, they cannot be used in the normal washing cycle together with the detergent because, similarly to the dishwasher cares, they would hinder the stain removal action of the enzymes normally contained in washing machine detergents. The sales formats currently available are <NUM> bottles (disposable) of water-resistant (non-biodegradable) plastic to be poured into the detergent compartment.

The dishwasher care and washing machine care products have several drawbacks, among which we mention the following: to be used and, therefore, to exert their function, they require a lot of time, a lot of water and a lot of electricity (typically an entire washing cycle is necessary). It should also be noted that the packaging of these products (being in non-bio-degradable plastic) has a negative environmental impact. The washing machine care and anti-scale products for washing machines are also relatively difficult to dose (making the loading operations of appliances more complex and inaccurate - the risk of waste also increases).

Furthermore, it has been observed that the washing activities carried out even after the use of the dishwasher care and washing machine cares do not allow to satisfactorily improve the activity of the various detergents relatively to all types of dirt.

The anti-scale products for washing machines are liquid products with high dilution (H<NUM>O><NUM>%) preferably with variable pH <NUM> to <NUM> which are added directly into the compartment of the washing machine together with the detergent at each wash. The anti-scale products therefore cooperate with the detergent by sequestering the limescale present, thus improving the cleaning performance of the detergent. They therefore start working in the actual washing step.

The formulations currently on the market consist of a pool of sequestrants and dispersants. The sales format of these products is generally in bottles of variable volume (<NUM>-<NUM>) with dosing cap. Normally, <NUM>-<NUM> of product is used per wash.

<CIT> discloses a machine cleaner product in the form of a water-soluble single- or multi-compartment pouch comprising a limescale removing composition and a water-soluble enveloping material.

<CIT> relates to a method of cleaning the interior surfaces of a non-loaded washing machine with a liquid composition, which comprises an acid system comprising formic acid and an acid forming a slightly water soluble calcium salt.

<CIT> discloses a water-soluble unit dose article comprising a water-soluble film and a liquid laundry detergent composition.

<CIT> discloses a process for mechanical cleaning and maintaining the interior surfaces of an unloaded mechanical dishwasher machine using a liquid, acid-reacting cleaning and maintenance composition comprising: an acid, a polyol, additives, an alkanol and water.

<CIT> discloses a detergent containing citric acid and non-ionic surfactants.

Also the anti-scale products for washing machines have several drawbacks, among which we mention the following: they are contained in bottles of non-biodegradable plastic material (and therefore have a negative environmental impact), they are relatively difficult to dose (making the loading operations of appliances more complex and inaccurate - they also increase the risk of waste) and do not allow to satisfactorily improve the activity of the detergents relatively to all types of dirt.

Furthermore, liquid detergents sold in water-soluble single-dose capsules are known. However, they are unable to perform the functions of the aforementioned anti-scale, dishwasher care and washing machine care products and have so far been produced only in a monophasic version.

As regards to this aspect, it is observed that users increasingly require products having a double phase to be used in appliances for washing.

These products, in addition to having an evidently greater aesthetic appeal, give users the feeling that the product has more components and can, therefore, function more effectively. However, up to now biphasic compositions have been proposed only with a high water content. Such compositions are obviously not compatible with water-soluble casings.

The object of the present invention is to provide a product for a washing appliance and uses of this product, which allow to overcome, at least partially, the drawbacks of the prior art and possibly are, at the same time, easy and economic to realise.

According to the present invention, a product for a washing appliance and uses of this product according to what is recited in the independent claim that follows and, preferably, in any of the claims directly or indirectly dependent on the independent claim are provided.

The invention will now be described with reference to the accompanying drawings, which illustrate a non-limiting example of embodiments, wherein:.

In <FIG> denotes as a whole a product for a washing appliance (for example, a dishwasher or a washing machine). The product <NUM>, according to different embodiments, is a product for the treatment of an appliance (for example, a appliance care and/or anti-scale product) or a product for cleaning (for example a detergent for washing machine or a detergent for dishwasher).

In some non-limiting cases, the product <NUM> is for the treatment of a dishwasher. Alternatively, the product <NUM> is for the treatment of a washing machine.

The product <NUM> comprises a substantially water-soluble (in particular, biodegradable) casing <NUM>; a collecting chamber <NUM>, which is delimited by said casing <NUM>; and an inner composition <NUM>, which is substantially liquid, is arranged inside the collecting chamber <NUM> and comprises <NUM>% to <NUM>% (in particular to <NUM>%) by weight with respect to the total weight of the inner composition <NUM>, of an organic solvent and <NUM>% to <NUM>% by weight, with respect to the total weight of the inner composition <NUM>, of water.

According to some preferred but not limiting embodiments, the inner composition <NUM> comprises up to a maximum of <NUM>% (in particular, up to a maximum of <NUM>%; more in particular, up to a maximum of <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of water. It should be noted that it has been experimentally observed that the lower the concentration of water, the lower the risk of the casing <NUM> being damaged.

The inner composition <NUM> comprises <NUM>% to <NUM>% by weight, with respect to the total weight of the inner composition <NUM>, of a non-ionic surfactant.

In this way, in particular, the inner composition <NUM> surprisingly has at least two phases (more in particular it is biphasic - as shown in the figures).

In other words, the inner composition <NUM> has a first phase, which comprises the non-ionic surfactant; and a second phase, which comprises the organic solvent (the possible water) and possibly the weak acid, the alkalinizing agent and/or the polymer component (described in more detail below). More precisely but not necessarily, the first and the second phase are (substantially) immiscible (with each other). In particular (since the inner composition <NUM> is substantially liquid), the first phase and the second phase are substantially liquid.

More in particular, the non-ionic surfactant is gathered (is - mainly - arranged) in the first (upper) phase (portion - shown in darker grey in the attached figures) of the inner composition <NUM>; the organic solvent (the possible water) (is - mainly - arranged) and possibly the weak acid, the alkalinizing agent and/or the polymer component are gathered in the second (lower) phase (portion - shown in lighter grey in the attached figures) of the inner composition <NUM>.

In such a context, advantageously but not necessarily, the inner composition <NUM> comprises a dye (a first organic pigment) which is arranged mainly together with the non-ionic surfactant allowing to visually detect the division between the two phases in an even more evident way.

Alternatively, or in addition, the inner composition <NUM> comprises a further dye (a second organic pigment of colour possibly different from the first organic pigment) which is arranged mainly together with the organic solvent. In practice, the inner composition <NUM> can be coloured only in the first phase (upper portion); or the inner composition <NUM> can be coloured only in the second phase (lower portion); or the first phase and the second phase of the inner composition <NUM> can have two different colours.

In other words, the inner composition <NUM> comprises at least one dye so that the first and the second phase have different colours from each other.

It should be noted that when it is indicated that a component of the inner composition <NUM> is "mainly" arranged in a phase (portion), it is meant that the quantity of this component in that phase is greater than (in particular, it is at least double) the quantity of the same component in all the rest of the inner composition <NUM>.

Referring in particular to the attached figures, it should be noted that, according to some non-limiting embodiments, an air portion <NUM> (an air bubble), which tends to be arranged above the aforementioned first (upper) phase, is also arranged inside the chamber <NUM>.

By non-ionic surfactant it is meant a single surfactant or a mixture of non-ionic surfactants.

It is however possible, but not necessary, that the inner composition <NUM> comprises one or more other surfactants selected from the group consisting of: anionic surfactants, cationic surfactants, amphoteric surfactants (and a combination thereof). In any case, in particular, the non-ionic character of the possible mixture of surfactants is predominant.

Advantageously but not necessarily, in the inner composition <NUM>, the non-ionic surfactant is in a quantity (weight) greater than the other surfactants.

However, it is not necessary that the non-ionic surfactant must be in a higher quantity than other types of surfactants (the quantity of another single surfactant or the sum of the quantities of other surfactants in the inner composition <NUM> may be greater than that of the non-ionic surfactant).

According to some non-limiting embodiments, the non-ionic surfactant is selected from the group consisting of: ethoxylated alcohols (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), etho-propoxylated alcohols (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), alkyl polyglucosides (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), ethanolamides (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>) of fatty acids (and a combination thereof).

In some specific and non-limiting cases, the non-ionic surfactant is selected from the group consisting of: ethoxylated alcohols (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), etho-propoxylated alcohols (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>) (and a combination thereof).

In particular, the ethoxylated alcohols have the following structural formula (II):.

wherein R<NUM> is a C<NUM>-C<NUM> aliphatic (in particular, an alkyl); n is an integer <NUM> to <NUM>.

In particular, the etho-propoxylated alcohols have the following structural formula (III):.

wherein R<NUM> is a C<NUM>-C<NUM> aliphatic (in particular, an alkyl); m is an integer <NUM> to <NUM>; and each R<NUM> is selected, each one independently of the other ones between -(CH<NUM>)<NUM>-and -(CH<NUM>)<NUM>-.

According to some non-limiting embodiments, R<NUM>, R<NUM> and R<NUM> are linear.

In this text, "Cx-Cy" refers to a group and/or a compound which is intended as having x to y carbon atoms.

In this text, by "aliphatic" it is meant a nonaromatic and unsubstituted (unless otherwise specified), saturated or unsaturated, linear, branched and/or cyclic hydrocarbon. Non-limiting examples of aliphatic groups are: t-butyl, ethenyl, <NUM>- or <NUM>-propenyl, cyclohexyl.

In this text, by "alkyl" or "alkyl-" it is meant a saturated aliphatic (i.e., an aliphatic group without double or triple carbon-carbon bonds). Non-limiting examples of alkyls are: methyl, n-propyl, t-butyl, cyclohexyl.

Advantageously but not necessarily, the inner composition <NUM> comprises from <NUM>% (in particular, from <NUM>%) to <NUM>% (in particular, to <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of the aforementioned non-ionic surfactant.

According to some non-limiting embodiments (as mentioned above), the inner composition <NUM> comprises (in particular, <NUM>% to <NUM>%; more in particular <NUM>% to <NUM>%; still more particularly, up to <NUM>% by weight, with respect to the total weight of the inner composition <NUM> of) a further surfactant, which can be a mixture of different anionic surfactants and/or cationic surfactants and/or amphoteric surfactants or composed of a single anionic surfactant or a single cationic surfactant or a single amphoteric surfactant.

According to some non-limiting embodiments, the further surfactant is selected from the group consisting of: alkyl ethoxysulfates (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), alkyl sulfates (in particular CS-C<NUM>; more in particular, C<NUM>-C<NUM>), salts of the dodecylbenzenesulfonic acid, alkylbenzene sulfonates (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), alkyl sulfonates (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), soaps (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), amine ethoxylates (in particular C<NUM>-C<NUM>), quaternary ammonium salts (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), betaines (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>), amine oxide (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>) (a combination thereof).

In this text, "sulfates" and/or "sulfonates" of organic compounds refer to either the relative acids (sulfuric acids and sulphonic acids, respectively) or the relative salts (for example of sodium) and the anions (completely dissociated from the counterions).

According to some non-limiting embodiments, the surfactant is one or more alkylbenzene sulfonates (in particular C<NUM>-C<NUM>; more in particular, C<NUM>-C<NUM>).

In particular, the alkylbenzene sulfonates have the following structural formula (I):
<CHM>
wherein R<NUM> is a C<NUM>-C<NUM> aliphatic (in particular, an alkyl); R<NUM> is a C<NUM>-C<NUM> (in particular, C<NUM>-C<NUM>, more in particular C<NUM>) an aliphatic (in particular, an alkyl). More precisely but not necessarily, R<NUM> is a linear aliphatic (in particular, an alkyl); R<NUM> is a linear aliphatic (in particular, an alkyl).

Alternatively, or in addition, in particular, the alkylbenzene sulfonate have the following structural formula (VI):
<CHM>
wherein R<NUM> is a C<NUM>-C<NUM> aliphatic (in particular, an alkyl); M is a metal selected from sodium and potassium. More precisely but not necessarily, R<NUM> is a linear aliphatic (in particular, an alkyl).

In particular, the alkyl ethoxysulfates have the following structural formula (IV):.

R<NUM>- (OC<NUM>H<NUM>)a-SO<NUM>-     (IV).

wherein R<NUM> is a C<NUM>-C<NUM> aliphatic (in particular, an alkyl); a is an integer <NUM> to <NUM>.

In particular, the alkyl sulfates have the following structural formula (V):.

wherein R<NUM> is a C<NUM>-C<NUM> aliphatic (in particular, an alkyl).

The inner composition <NUM> comprises <NUM>% to <NUM>% by weight, with respect to the total weight of the inner composition <NUM>, of a weak acid. In particular, the weak acid is arranged together with the organic solvent (in the lower part of chamber <NUM>).

Within this text, weak acid refers to the acid as such (not dissociated) and/or a salt thereof (for example sodium citrate) and/or the anion (completely dissociated from the counterion). This applies to any embodiment and/or example of such a weak acid.

It should be noted that it has been experimentally observed that the weak acid and the organic solvent act surprisingly synergistically so to allow to obtain an inner composition <NUM> which is at the same time with a low concentration of water (therefore scarcely aggressive for the casing <NUM>) and is able to exert (once the casing <NUM> has been dissolved) a sequestering action against limescale.

Advantageously but not necessarily, the weak acid has a pKa in water (in particular, measured at ambient temperature and pressure - <NUM> and <NUM> bar) greater than <NUM> (in particular, greater than or equal to <NUM>) up to <NUM> (in particular, up to <NUM>; more in particular, up to <NUM>; still more particularly up to <NUM>).

The pKa and the pKb are determined according to one of the known methods (possibly using the most suitable method among those described, for example, in <NPL>). In particular, the pKa and the pKb are determined according to the potentiometric method (see <NPL>; and <NPL>).

According to some non-limiting embodiments, the weak acid is selected from the group consisting of: carboxylic acids (in particular, C<NUM>-C<NUM>; in particular, with <NUM> to <NUM> - more precisely <NUM> to <NUM> carboxylic groups), phosphoric acid (and a combination thereof).

In other words, the weak acid can be a mixture of different carboxylic acids (with or without phosphoric acid) or composed of a single carboxylic acid.

In some specific non-limiting cases, the weak acid is selected from the group consisting of: citric acid, lactic acid, formic acid, phosphoric acid (and a combination thereof). More precisely but not necessarily, weak acid is selected from the group consisting of: citric acid, lactic acid, formic acid (and a combination thereof). In some specific non-limiting cases, the weak acid is the citric acid.

Advantageously but not necessarily, the inner composition <NUM> comprises at least <NUM>% (in particular, at least <NUM>%; more in particular, at least <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of said weak acid.

According to some non-limiting embodiments, the inner composition <NUM> comprises up (less than or equal) to <NUM>% (in particular, to <NUM>%; more in particular, to <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of the aforesaid weak acid.

According to some non-limiting embodiments, where the product <NUM> is for use as a dishwasher care, the inner composition <NUM> comprises from <NUM>% (in particular, from <NUM>%; more in particular, from <NUM>%) to <NUM>% (in particular, to <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of said weak acid.

According to some non-limiting embodiments, where the product <NUM> is for use as an anti-scale product for washing machines and/or as a washing machine care, the inner composition <NUM> comprises from <NUM>% (in particular, from <NUM>%) to <NUM>% (in particular, to <NUM>%; more in particular, to <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of said weak acid.

Advantageously but not necessarily, the organic solvent is selected from the group consisting of alcohols, diols, triols, polyols (and a combination thereof). According to some non-limiting embodiments, the alcohols, diols, triols and polyols are, each one independently of the other ones, C<NUM>-C<NUM> (in particular, C<NUM>-C<NUM>). In other words, the organic solvent can be a mixture of different alcohols (and/or diols and/or triols and/or polyols) or composed of a single alcohol (or diol or triol or polyol).

According to some non-limiting embodiments, the alcohols, diols, triols and polyols have, each one independently of the other ones, a number of hydroxyls which is the same as the number of carbons. In particular, each carbon of the alcohols, diols, triols and polyols is bound to a respective single (only) hydroxyl group.

In some limiting cases, the aforesaid alcohols, diols, triols and polyols are linear (i.e., they have a linear chain of carbons bound together).

Advantageously but not necessarily, the organic solvent is selected from the group consisting of: glycerin, sorbitol (and a combination thereof).

According to some non-limiting embodiments, the organic solvent comprises (in particular, is) glycerin.

Alternatively, or in addition, the organic solvent comprises (in particular, is) sorbitol.

Advantageously but not necessarily, the inner composition <NUM> comprises at least <NUM>% (in particular, at least <NUM>%, more in particular at least <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of the organic solvent.

Alternatively, or in addition, the inner composition <NUM> comprises up (less than or equal) to <NUM>% (in particular, up to <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of the organic solvent.

Advantageously but not necessarily, the inner composition <NUM> comprises <NUM>% to <NUM>% by weight, with respect to the total weight of the inner composition <NUM>, of an alkalinizing agent having a PKb, in water at <NUM> and <NUM> bar, ranging from <NUM> (in particular, from <NUM>) to <NUM> (in particular, to <NUM>; more in particular, to <NUM>; still more particularly, to <NUM>). In particular, the alkalinizing agent is arranged together with the organic solvent (in the lower part of chamber <NUM>).

The alkalinizing agent surprisingly allows to improve the solubilization of the aforesaid weak acid and, at the same time, regulates the pH reducing the risk, for example, of inactivating the enzymes of the detergents.

According to some non-limiting embodiments, the inner composition <NUM> comprises at least <NUM>% (in particular, at least <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of the alkalinizing agent.

Alternatively, or in addition, the inner composition <NUM> comprises up (less than or equal) to <NUM>% (in particular, up to <NUM>%; more in particular, up to <NUM>%; still more particularly, up to <NUM>%; still more particularly, up to <NUM>%) by weight, with respect to the total weight of said inner composition <NUM>, of the alkalinizing agent.

According to some non-limiting embodiments, where the product <NUM> is for use as a dishwasher care, the inner composition <NUM> comprises <NUM>% to <NUM>% (in particular, to <NUM>%; more in particular, to <NUM>%) by weight, with respect to the total weight of said inner composition <NUM>, of the alkalinizing agent.

Alternatively, where the product <NUM> is for use as an anti-scale product for washing machines and/or as a washing machine care, the inner composition <NUM> comprises from <NUM>% (in particular, from <NUM>%; more in particular, from <NUM>%) to <NUM>% (in particular, to <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of the alkalinizing agent.

Advantageously but not necessarily, the alkalinizing agent is selected from the group consisting of: C<NUM>-C<NUM> hydroxy-amines (in particular, with only one amino functionality; in particular, C<NUM>-C<NUM>), ammonia, potassium hydroxide (and a combination thereof). In other words, the alkalinizing agent can be a mixture of different hydroxy-ammines or composed of a single hydroxy-ammine.

More precisely but not necessarily, the alkalinizing agent is selected from the group consisting of: monoethanolamine, diethanolamine, triethanolamine (potassium hydroxide) (and a combination thereof).

Advantageously but not necessarily, the inner composition <NUM> comprises <NUM>% to <NUM>% (in particular, to <NUM>%) by weight, with respect to the total weight of the inner composition <NUM>, of a polymeric component (in particular, comprising - consisting of - a plurality of polymers selected from the group consisting of: acrylic homopolymers, acrylic-maleic copolymers and a combination thereof). In other words, for example, the polymer component can be a mixture of different acrylic homopolymers (and/or acrylic-maleic copolymers) or composed of a single acrylic homopolymer. In particular, the polymer component is arranged together with the organic solvent (in the lower part of chamber <NUM>).

The polymer component is able to sequester calcium and magnesium and, by acting synergistically with the weak acid, allows to reduce scale.

The polymer component comprises polymers with a mean molecular weight ranging from <NUM>/mol (in particular, from <NUM>/mol) to <NUM>/mol (in particular, to <NUM>/mol; more in particular, to <NUM>/mol).

The mean molecular weight of the polymers is measured through static light scattering methods (such as for example described in ASTM D4001 - <NUM>).

Advantageously but not necessarily, once the product <NUM> is dissolved in demineralized water - i.e., osmotic and/or distilled (<NUM> of water per each ml of the inner composition <NUM>), the product <NUM> (in particular, the inner composition <NUM>) has a pH ranging from <NUM> to <NUM>.

According to some non-limiting embodiments, where the product <NUM> is for use as a dishwasher care, once the product <NUM> is dissolved in water (<NUM> of water per each ml of the inner composition <NUM>), the inner composition <NUM> has a pH up to <NUM> (in particular, up to <NUM>; more in particular, up to <NUM>).

Alternatively, where the product <NUM> is for use as a washing machine care and/or as an anti-scale product for washing machine, once the product <NUM> is dissolved in water (<NUM> of water per each ml of the inner composition <NUM>), the inner composition <NUM> has a pH ranging from <NUM> (in particular, from <NUM>) up to <NUM> (in particular, up to <NUM>).

According to some non-limiting embodiments, the casing has a thickness ranging from about <NUM> to about <NUM> (in particular, to about <NUM>).

Advantageously but not necessarily, the casing <NUM> (is made of a material so that it) dissolves in water at <NUM> within <NUM> minutes from immersion.

According to some non-limiting embodiments, the casing <NUM> is (mainly) of polyvinyl alcohol (PVOH).

In particular, the casing <NUM> is floppy. In other words, the casing <NUM> has a different shape when it is full (i.e., when the collecting chamber <NUM> is full) and when it is empty (i.e., when the collecting chamber <NUM> is empty). In other words, the casing <NUM>, when full, assumes an expanded shape that is different (and volumetrically greater) than the shape assumed by the same empty casing <NUM>.

Advantageously but not necessarily, the product <NUM> comprises from about <NUM> (in particular, from about <NUM>) to about <NUM> (in particular, to about <NUM>) of the inner composition <NUM>.

It has been experimentally observed that the product <NUM> (as defined above) has several advantages with respect to the state of the art. Among these we mention the following: surprisingly, it has been possible to obtain a biphasic inner composition <NUM>; the product <NUM> has a reduced environmental impact (in particular, the casing <NUM>, being water-soluble and biodegradable, leaves no residues); it is easy to dose; it allows to improve the activity of the detergents relatively to some types of dirt; to be used and, therefore, to make explicit its function it requires reduced energy, water, and time.

According to an aspect of the present invention, the use of the product <NUM> defined above is provided for the treatment of a washing appliance (for example, a dishwasher or a washing machine). In particular, the appliance is configured for washing objects (items) selected from the group consisting of: kitchen utensils (more in particular, crockery and/or cutlery) and articles mainly made of fabric (more in particular, clothing and/or underwear).

Advantageously but not necessarily, during use, at least one aforesaid object (in particular, a plurality of said objects) is present inside the appliance.

According to some non-limiting embodiments, the use comprises a treatment step, during which the product <NUM> comes into contact with water (in particular, having a temperature below <NUM>) inside the appliance and the casing (at least partially) dissolves.

Advantageously but not necessarily, during the treatment step, at least one aforesaid object (in particular, a plurality of said objects) is present inside the appliance.

According to some non-limiting embodiments, the appliance is a dishwasher.

Advantageously but not necessarily, the use provides that the product and a (further) detergent is used during the same washing cycle (in particular, during which at least one aforesaid object - more in particular, a plurality of said objects - is present inside the appliance). More precisely but not necessarily, the washing cycle comprises the aforementioned treatment step and (optionally) a washing step, during which the detergent is used to wash the object(s). Advantageously but not necessarily, the washing step takes place at a higher temperature than the treatment step. In particular, between the treatment step and the washing step there is a discharge step, during which the water used during the treatment step is removed (from the aforementioned appliance).

According to some embodiments, the use of the product <NUM> is as a dishwasher care. In addition, or alternatively, the use of the product <NUM> is as a washing machine care. In addition, or alternatively, the use of the product <NUM> is as an anti-scale product for washing machine.

As regards the use in the dishwasher, according to some embodiments, the product <NUM> can be placed, for example, in the cutlery basket and, considering the fast dissolution of the film, it starts working already in the pre-rinsing step (which in practice, corresponds to the aforementioned treatment step) allowing the dishwasher to be cleaned in preparation for washing.

In doing so, the product <NUM> never comes into contact with the real detergent, since the latter will outflow from the containment compartment only in the subsequent washing step. The product <NUM> therefore has the purpose of preparing the machine for washing, without having the need for unnecessary empty washing.

One of the most important problems to be overcome in the development of the product <NUM> was to produce a biphasic composition compatible with the water-soluble casing thereof. This implies that, unlike normal products, which require the use of high percentages of water, alternative solvents were to be chosen which, however, are able to solubilise the active ingredients and at the same time allow to obtain (together with other compounds, in particular non-ionic surfactants, previously not.

identified for this purpose) a biphasic inner composition <NUM>. This is not at all simple since some ingredients, such as the weak acid, are well soluble in water, but poorly soluble in other means.

A common formulation basis was therefore identified for the various types of product (washing machine and dishwasher) which is based on the use of the aforesaid organic solvent (advantageously, a combination of the organic solvent and the alkalinizing agent).

Unless the contrary is explicitly indicated, the content of the references (articles, books, patent applications, etc.) cited in this text is referred to in full herein.

Further characteristics of the present invention will become apparent from the following description of merely illustrative and non-limiting examples.

This example describes the realisation of some products in accordance with the present invention.

<NUM> millilitres of each of the inner compositions having one of the formulations ranging from A to E has been inserted between two sheets of MonoSol material (marketed by Kuraray WS Fil Division) whose perimeter edges were superimposed and subsequently welded by heat so as to enclose the formulations ranging from A to E. To facilitate welding, a very thin layer of water is applied between the edges before the superimposition thereof. These activities were carried out by a machine named Hydroforma supplied by the company Cloud Packaging Europe (L-<NUM> Hagen, Luxembourg).

In this way, four different products (single-dose) have been obtained, each of which (as described above) has a collecting chamber, which is delimited by a casing (obtained from the MonoSol material) and inside which an inner composition <NUM> having a respective of the formulations ranging from A to D is arranged.

The product containing the composition with formulation A was mainly prepared as a dishwasher care product. This product is presented as biphasic.

The product containing the composition with formulation B was mainly prepared as a dishwasher care product. This product is presented as biphasic.

The product containing the composition with formulation C was mainly prepared as an anti-scale product for washing machines. This product is presented as biphasic.

The product containing the composition with formulation D was mainly prepared as an anti-scale product for washing machine. This product is presented as biphasic.

The etho-propoxylated alcohols were one or more compounds having the following structure R<NUM>-O-(R<NUM>O)m-H, wherein R<NUM> is a C<NUM>-C<NUM> aliphatic (in particular, an alkyl) ; m is an integer <NUM> to <NUM>; and each R<NUM> is selected, each one independently of the other ones, between -(CH<NUM>)<NUM>- and - (CH<NUM>)<NUM>-.

This example describes the comparison between the capability of removing dirt from cotton patches of the detergent Dixan® alone (a detergent sold in Italy by Henkel® and marketed in other countries under the names Persil®, Wipp® and LeChat®) compared to the combination of the detergent Dixan® together with a single product in accordance with the present invention (the product with formulation D of the previous example).

The cotton patches were washed using the following parameters and devices:.

The measurements of the treated cotton patches were carried out using a Dr Lange LUCI <NUM> reflectometer by measuring the light reflected by the stains for the assessment of the dirt removal. Differences of less than <NUM> optical points are not perceived by the human eye and therefore were not considered as significant.

Each test was carried out by loading the washing machine with <NUM> towels, <NUM> bed sheets, <NUM> pillowcases, <NUM> specially stained patch (as required by the AISE - International Association for Soaps Detergents and Maintenance Products) and <NUM> ballast patches.

The differences between the results obtained are shown in the following table <NUM>, in which the relative AISE code is shown together with the type of stain. The "+" signs indicate the stains for which the combination of the detergent Dixan® together with a single product in accordance with the present invention achieved a significant improvement. The "=" signs indicate that there is no substantial difference between the two treatments. The "-" signs indicate the stains for which there was a worsening using the combination of the detergent Dixan® together with a single product in accordance with the present invention.

The table above shows how the use of the single dose has surprisingly allowed a significant improvement in washing performance for <NUM> stains out of <NUM>.

This example describes the comparison of the dirt removal capability of the combination of the detergent Dixan® together with a single product in accordance with the present invention (the product with formulation D of example <NUM>) compared to the use of the detergent Dixan® together with another anti-scale product already present on the market.

The tests were carried out as described in the previous example. The results obtained are reported in the following table <NUM>, in which the same symbols mentioned in the previous example were used.

The table above shows how the use of the single dose has surprisingly allowed a significant improvement in washing performance for <NUM> stains out of <NUM>; a worsening was observed in only two cases.

This example describes a test carried out to assess the effect of a product in accordance with the present invention on limescale removal.

The tests were carried out using the following device and the following parameters:.

Two tests were carried out by treating, in each case, a marble tile dimensioned: <NUM> x <NUM> x <NUM>.

A test was carried out without using any product. The other test was carried out using a product in accordance with the invention (the product with formulation A of example <NUM>).

At the end of the pre-wash cycle, the tiles were removed, dried, and weighed, assessing the removal of limescale by gravimetric method.

The results obtained have been reported in the following tables <NUM> and <NUM>.

Claim 1:
A product for a washing appliance;
the product (<NUM>) comprises a substantially water-soluble casing (<NUM>); a collecting chamber (<NUM>), which is delimited by said casing (<NUM>); and an inner composition (<NUM>), which is substantially liquid, is arranged inside the collecting chamber and comprises at least a non-ionic surfactant and an organic solvent selected from the group consisting of: alcohols, diols, triols, polyols and a combination thereof;
said inner composition (<NUM>) comprises <NUM>% to <NUM>% by weight, with respect to the total weight of said inner composition (<NUM>), of water; <NUM>% to <NUM>% by weight, with respect to the total weight of said inner composition (<NUM>), of said non-ionic surfactant; and <NUM>% to <NUM>% by weight, with respect to the total weight of said inner composition (<NUM>), of said organic solvent;
said inner composition (<NUM>) has a first phase, in which said non-ionic surfactant is mainly arranged, and at least a second phase, in which the organic solvent and the possible water are mainly arranged;
wherein said inner composition (<NUM>) comprises <NUM>% to <NUM>% by weight, with respect to the total weight of said inner composition (<NUM>), of a weak acid.