RU2673232C2 - Composition for producing cleaning solution for carpets and upholstery - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: invention relates to a composition in the form of a dry mixture for preparing a cleaning solution for cleaning carpets and upholstery. Disclosed is a composition in the form of a dry mixture for the preparation of a cleaning solution for cleaning carpets and upholstery, comprising at least one complexing agent, at least one surfactant and at least one component for encapsulating impurities, characterised in that it contains as complexing agents: citric acid in an amount of 10 to 30 wt%, optionally trisodium citrate in an amount of up to 10 wt%, sodium gluconate in an amount of 4 to 6 wt%, oxalic acid in an amount of 1 to 3 wt%, sodium metasilicate in an amount of 0.5 to 1.5 wt%, wherein the total amount of all complexing agents in the composition ranges from 15 to 40 wt%, and wherein the weight ratio of citric acid and/or citrate to oxalic acid and/or oxalate ranges from 5:1 to 20:1, and that the composition contains, as a component for encapsulating impurities, polyacrylic acid or a salt thereof, especially a sodium salt thereof.EFFECT: high cleaning ability.19 cl, 4 tbl

Description

The present invention relates to a composition (composition) in the form of a dry (solid-phase) mixture for preparing a cleaning solution for carpet cleaning and soft upholstery, containing at least one complexing agent, at least one surfactant and at least one component for encapsulating dirt .

The invention further relates to the use of a similar composition for preparing a cleaning solution for carpet cleaning and upholstery, especially for use with a spray-suction apparatus.

Highly efficient cleaning of carpets (i.e., especially carpet flooring) and upholstery (e.g. upholstery of upholstered furniture or upholstery inside cars) is possible mainly with a spray-suction apparatus. In this case, a special cleaning solution in a certain dosage is applied to the carpet to be cleaned or to the upholstery being cleaned, which, after a certain exposure time, which can last from several seconds to several hours, is reabsorbed together with the contaminants dissolved in it and dispersed in it by the same apparatus. With an extremely short duration of exposure to the cleaning solution, its application and absorption can be carried out during the same operation.

In many cases, the user of the spray-suction apparatus acquires a ready-made cleaning solution that can be poured directly into the appropriate consumable container in the apparatus. This ensures that the cleaning solution is especially easy to use since the user does not need to dissolve or dilute the product. However, the drawback inherent in the production of ready-made cleaning solutions is that in this case, due to the water component of the cleaning solution, it is necessary to transport and store products of relatively large mass and volume, and this problem manifests itself primarily in industrial or professional use, which requires correspondingly large amounts of cleaning solution.

Therefore, as an alternative to ready-made cleaning solutions, dry mixes are also commercially available that the user needs to dissolve or dilute in water to prepare the cleaning solution. Such dry mixes can be presented either in powder form or in the form of extruded molded products (tablets), the latter significantly facilitating the dosage of the dry mixture. Compositions of this type may contain many different components to achieve the highest cleaning effect, however, they usually contain at least the ingredients indicated at the beginning of the description (complexing agents, surfactants and a component for encapsulating impurities).

At least one complexing agent contained in the cleaning composition is necessary primarily to reduce water hardness, i.e. for the formation of complexes with calcium and magnesium ions in tap water, which the cleaning composition is dissolved by the user. However, the complexing agent also makes a significant contribution to the cleansing effect. The compositions known from the prior art contain primarily phosphates as complexing agents, the presence of which, although it is extremely undesirable from an environmental point of view, but which, however, has still not been replaced with alternative complexing agents that would provide comparable cleaning efficiency.

Based on the foregoing, the present invention was based on the task of proposing a composition in the form of a dry mixture for preparing a cleaning solution for cleaning carpets and upholstery, which composition would have high cleaning efficiency and contain complexing agents other than phosphates.

The specified problem with respect to the composition of the type indicated at the beginning of the description is solved according to the invention due to the fact that such a composition contains citric acid and / or citrate, oxalic acid and / or oxalate, as well as silicate, especially metasilicate as complexing agents.

When creating the invention, it was found that when using just these three complexing agents in combination with each other, extremely good results can be achieved when cleaning carpets and soft upholstery, when the cleaning solution prepared from this composition is used to clean carpets or soft upholstery with a spray-suction device.

An advantage of the composition proposed in the invention is that it does not contain phosphates and is therefore environmentally less harmful to use than the corresponding formulations known in the art.

The cleaning effectiveness of the composition of the invention can be further optimized by selecting the relative amounts of various complexing agents. Citric acid and / or citrate is most appropriate to use in a mass ratio with oxalic acid and / or oxalate in the range from 5: 1 to 20: 1. Moreover, by "citric acid and / or citrate" is meant the total relative amount of free citric acid and / or one or more salts of citric acid in which these components are contained in a dry mixture. When the dry composition is dissolved in water, as is known, an equilibrium is established between the forms of the citrate molecule, which are proportionally proportional to different degrees, depending on the pH value of the cleaning solution. The same is true for the expression "oxalic acid and / or oxalate."

It is preferable to further use oxalic acid and / or oxalate in a weight ratio with the silicate contained in the composition of the invention in the range from 1: 1 to 3: 1. A preferred silicate is, as indicated above, a metasilicate, for example sodium metasilicate.

Along with the three indicated components, the composition of the invention may also contain other complexing agents. In one of the preferred options proposed in the invention composition also contains gluconic acid and / or gluconate as additional complexing agents.

The share of all complexing agents in the dry mixture in the best case is from 15 to 40 wt. %, primarily from 20 to 30 wt. %

In one preferred embodiment of the invention, the composition according to the invention comprises free citric acid, free oxalic acid and sodium metasilicate, and optionally sodium gluconate.

In another preferred embodiment, the proposed invention the composition contains the following ingredients:

- citric acid in an amount of from 10 to 30 wt. %

optionally trisodium citrate in an amount of up to 10 wt. %

- sodium gluconate in an amount of from 4 to 6 wt. %

- oxalic acid in an amount of from 1 to 3 wt. %

- sodium metasilicate in an amount of from 0.5 to 1.5 wt. %

Another ingredient of the composition of the invention is at least one component for encapsulating contaminants. Such components bind contaminants and facilitate their further removal, i.e. first of all, their suction by the spray-suction apparatus. In a preferred embodiment, the composition according to the invention comprises, as a component for encapsulating contaminants, polyacrylic acid or its salt, in particular its sodium salt.

Polyacrylic acids or their salts with a molecular weight in the range of 3000 to 5000 g / mol have proven particularly preferred. The share of polyacrylic acid or its salt mainly accounts for from 2.5 to 3.5 wt. %

As a surfactant, the composition according to the invention preferably contains one or more nonionic surfactants. Particularly preferred has been the use of one or more polyalkylene glycol ethers as nonionic surfactants, which are also called fatty alcohol ethoxylates.

It is obvious that along with the specified surface-active substances proposed in the invention, the composition may also contain other surfactants, for example anionic or amphoteric surfactants.

Further suitable is the variant in which the composition according to the invention also contains at least one odor-absorbing component (odor absorber). Due to this, along with the cleaning action itself, another preferred effect can be achieved when cleaning carpets or soft upholstery. Especially preferred is the use of zinc ricinoleate as an odor absorbing component.

As another preferred component, the composition of the invention may contain one or more dissolution accelerators. We are talking about substances with particularly good water solubility, which facilitate and accelerate the dissolution of the dry mixture. In a preferred embodiment, the composition of the invention comprises sodium carbonate and / or sodium bicarbonate as a dissolution accelerator.

Another preferred component in the composition according to the invention are cellulosic fibers. They improve the flowability of the dry mixture and prevent it from clumping, so that a problem-free dosing of the composition proposed in the invention is possible.

According to the present invention, the dry mixture can be presented either in the form of a powder or in the form of a pressed molded product, i.e. in the form of a pill. In the case of tablets for the user, the dosage of the composition according to the invention is simplified, since the user does not need any auxiliary means to measure a specific portion of the mixture.

The qualitative and quantitative composition of the dry mix is basically the same for the powder and for the tablet, even though in the case of the tablet, the cleaning solution prepared from it usually has a lower concentration. At the same time, due to the greater convenience in handling the tablets, it is quite possible not to take into account the slightly reduced cleaning efficiency of the cleaning solutions prepared from them.

However, differences in composition between the powder and the tablet exist in that the tablet composition usually does not contain an odor-absorbing component, since it would be ineffective in a low dosage. In addition, the composition in the form of a tablet contains dissolution accelerators mainly in a larger relative amount, primarily in an amount of from 40 to 50 wt. %, in order to ensure the most rapid decomposition and dissolution of the molded molded product in contact with water.

It is advisable to enclose the molded molded product in a shell or wrapper of a water-soluble film, primarily based on polyvinyl alcohol. Due to this, it is possible to avoid unwanted contact of the components of the composition with human skin.

The object of the present invention is the further use of the composition described above for the preparation of a cleaning solution for carpet cleaning and upholstery, especially for use in conjunction with a spray-suction apparatus.

To prepare a cleaning solution, the composition is dissolved in an amount of mainly from 3 to 15 g in one liter of water. As indicated above, when using a dry mixture in the form of a powder, the resulting cleaning solution usually has a higher concentration (for example, 10 g / l) than when using a dry mixture in the form of a pressed molded product (in this case, the concentration of the cleaning solution is, for example, only 4 g / l).

The composition proposed in the invention can be optimized in order to provide a relatively quick dissolution of the dry mixture, regardless of whether it is presented in the form of a powder or tablet (for example, for 5 minutes in cold water and for one minute in warm water). This can be achieved primarily by using dissolution accelerators in the appropriate amount.

Depending on the degree of contamination, cleaning using a spray-suction apparatus can be carried out by two different methods.

When cleaning with the first method, which is designed to remove more stubborn dirt, first a cleaning solution is sprayed onto the carpet, respectively the soft upholstery over its entire surface, which can thereby affect the dirt for a certain period of time (for example, for about 5 minutes or for the time required to spray the cleaning solution in one room). Then, a single or double spray-suction treatment is carried out (i.e., a cleaning solution is sprayed in one working operation and it is again sucked off). After drying of the surface to be cleaned, the crystallized and / or encapsulated impurities remaining on it can be removed by suction.

When cleaning with the second method, which is usually suitable for removing only weaker dirt, the carpet or upholstery is only spray-suction treated and then allowed to dry. Crystallized and / or encapsulated stains can be removed by suction after drying the carpet or upholstery, or during his / her next scheduled cleaning.

Subsequent washing of the carpet, respectively soft upholstery with water when using the composition proposed in the invention, in principle, is not required. This reduces the time required for drying, which is usually about 12 hours.

The above, as well as other advantages of the invention, are explained in more detail in the examples below.

Examples

1. Dry mixtures for use in powder form In this case, six different compositions of the invention are prepared in the form of dry mixtures in powder form (examples 1-6), the qualitative and quantitative composition of which are listed below in table 1.

From these six dry mixtures, cleaning solutions are prepared by dissolving 10 g of each powder in a liter of water.

The cleaning effect of the solutions is determined by testing by the following method.

A section of a light velor carpet floor made of artificial fibers is contaminated with experimental pollution in a drum designed for this purpose, which is filled with steel balls, polymer granulate and 0.5 g of experimental pollution according to ISO 11378-1 B.2 and then rotated for 10 min with the materials loaded into it, and then another 20 minutes without them. A piece of carpeted floor soiled in this way is then vacuumed three times to remove only dirt that is not firmly adhered to it. Before and after contamination, the degree of whiteness is determined (as a measure of reflectivity) using a spectrocolorimeter (Elrepho). The measured values serve as reference or reference values for the subsequent calculation of the degree of purification.

To test the compositions of examples 1-4 in this case, use the "Experimental pollution A", and to test the compositions of examples 5 and 6 - more intense "Experimental pollution B" with cement and peat components.

GmbH & Co. KG). При этом при использовании составов из примеров 1-4 сначала дважды проходятся по тестируемой поверхности распылительно-всасывающим аппаратом, распыляя на нее соответствующий чистящий раствор и насыщая им ковровое напольное покрытие. По истечении 5 минут времени воздействия ковровое напольное покрытие дважды промывают чистящим раствором и его сразу же вновь отсасывают, после чего дважды только пылесосят. Затем ковровое напольное покрытие дважды промывают водой, дважды пылесосят с отсасыванием воды и в завершение сушат в течение 24 ч.Soiled pieces of carpet floor coverings are cleaned with a spray-suction apparatus (washing vacuum cleaner) "Puzzi 100" (company Alfred

GmbH & Co. KG). Moreover, when using the compositions of examples 1-4, first they are twice walked on the test surface with a spray-suction apparatus, spraying the appropriate cleaning solution onto it and saturating the carpeted floor with it. After 5 minutes of exposure time, the carpet is washed twice with a cleaning solution and it is immediately suctioned off, after which it is only vacuumed twice. Then the carpet floor is washed twice with water, vacuum cleaned twice with suction of water and then dried for 24 hours.

When using the compositions of examples 5 and 6, the test surface is only once treated with sprayed with a cleaning solution. After 5 minutes of exposure time, the carpet is washed twice with water and vacuum cleaned with suction, and then dried for 24 hours.

After cleaning a piece of carpet flooring as described above, the degree of whiteness is again measured and the degree of cleaning is calculated using the following formula:

The degree of purification achieved using the proposed invention in the compositions of examples 1-6 are shown below in table 2.

Regarding the results obtained, it should be noted that the degree of purification using the compositions of examples 5 and 6 should not be directly compared with the indicators of the degree of purification using the compositions of examples 1-4, since in this case different experimental pollution and a different cleaning method were used (experimental pollution B, unlike experimental pollution A, contains cement and peat components). Therefore, the degree of purification is generally lower, however, even a value of the order of 35%, which was obtained in the experiment using the composition from Example 6, is already considered quite acceptable.

A comparison of the results obtained using the compositions of examples 1 and 2, first of all, indicates that the use of sodium metasilicate as a complexing agent leads to an increase in the degree of purification in comparison with layered sodium silicate.

A comparison of the results obtained using the compositions of examples 3 and 4, first of all, indicates that the addition of polyacrylic acid as a component for encapsulating contaminants leads to a further increase in the degree of purification provided by the composition.

A comparison of the results obtained using the compositions of examples 5 and 6, first of all, indicates that the degree of purification can be increased by adding an additional nonionic surfactant (product Berol 260). In addition, the use of appropriate specific complexing agents indicates that instead of a combination of citric acid and trisodium citrate, it is also possible to use only citric acid.

2. Dry mixes for the manufacture of molded molded products

In this case, prepare three different proposed in the invention composition in the form of dry mixtures (examples 7-9), suitable for processing into pressed molded products (tablets). The qualitative and quantitative composition of these dry mixtures are listed below in table 3.

Of these three formulations of Examples 7-9, cleaning solutions were prepared by dissolving 4 g of each dry mixture in a liter of water (corresponding to dissolving one pressed molded article weighing 16 g in 4 l of water).

The degree of purification is determined by testing in the same manner as when using the compositions of examples 1-6, while testing each of the compositions of examples 7-9 using experimental pollution B with cement and peat components. The results are shown below in table 4.

A comparison between these results indicates that the achieved cleaning efficiency can be optimized by varying the relative amounts of the complexing agent, as well as the components that serve as dilution accelerators and which in this case are sodium carbonate and sodium bicarbonate.

Claims (25)

1. The composition in the form of a dry mixture for the preparation of a cleaning solution for cleaning carpets and soft upholstery, containing at least one complexing agent, at least one surfactant and at least one component for encapsulating dirt, characterized in that it contains as complexing agents: - citric acid in an amount of from 10 to 30 wt. % optionally trisodium citrate in an amount of up to 10 wt. % - sodium gluconate in an amount of from 4 to 6 wt. % - oxalic acid in an amount of from 1 to 3 wt. % - sodium metasilicate in an amount of from 0.5 to 1.5 wt. % and the total number of all complexing agents in the composition is from 15 to 40 wt. %, and moreover, the mass ratio of citric acid and / or citrate to oxalic acid and / or oxalate is from 5: 1 to 20: 1, and that the composition contains polyacrylic acid or its salt, primarily its sodium salt, as a component for encapsulating impurities . 2. The composition according to p. 1, which does not contain phosphates. 3. The composition according to one of the preceding paragraphs, in which the mass ratio of oxalic acid and / or oxalate to silicate is from 1: 1 to 3: 1. 4. The composition according to one of the preceding paragraphs, in which the number of all complexing agents is from 20 to 30 wt. % 5. The composition according to p. 1, in which the polyacrylic acid has a molecular weight in the range from 3000 to 5000 g / mol. 6. The composition according to p. 1 or 5, in which the relative amount of polyacrylic acid or its salt is from 2.5 to 3.5 wt. % 7. The composition according to one of the preceding paragraphs, which contains as a surfactant one or more nonionic surfactants. 8. The composition according to p. 7, containing one or more ethers of polyalkylene glycols as nonionic surfactants. 9. The composition according to one of the preceding paragraphs, also containing at least one odor-absorbing component. 10. The composition according to p. 9, containing zinc ricinoleate as an odor-absorbing component. 11. The composition according to one of the preceding paragraphs, also containing one or more dissolution accelerators. 12. The composition according to p. 11, containing sodium carbonate and / or sodium bicarbonate as a dissolution accelerator. 13. The composition according to one of the preceding paragraphs, also containing cellulose fibers to improve flowability. 14. The composition according to one of the preceding paragraphs, while the dry mixture is presented in powder form. 15. The composition according to one of paragraphs. 1-14, while the dry mixture is presented in the form of a molded molded product. 16. The composition according to p. 15, which contains a dissolution accelerator in an amount of from 40 to 50 wt. % 17. The composition according to p. 15 or 16, wherein the molded molded product is enclosed in a shell or wrapper of a water-soluble film, primarily based on polyvinyl alcohol. 18. The use of the composition according to one of the preceding paragraphs for the preparation of a cleaning solution for carpet cleaning and upholstery, primarily for use in conjunction with a spray-suction apparatus. 19. The application of claim 18, wherein the composition in an amount of from 3 to 15 g is dissolved in 1 liter of water.