WO1998022564A1

WO1998022564A1 - Glass cleaning products

Info

Publication number: WO1998022564A1
Application number: PCT/DE1997/002713
Authority: WO
Inventors: Dieter Krattenmacher
Original assignee: Dieter Krattenmacher
Priority date: 1996-11-20
Filing date: 1997-11-20
Publication date: 1998-05-28
Also published as: RO112762B1; DE59702939D1; EP0944702A1; ATE198762T1; EP0944702B1

Abstract

The invention relates to products for cleaning glass consisting of 10-25 percent by weight alcohol, preferably min. 85 % ethanol or min. 90 % isopropanol, 0.1-0.5 percent by weight anionic tenside, preferably alkyl (C12) benzene sulphonate, secondary alkane sulphonate, fatty alcohol ether sulphate or fatty alcohol sulphate, non-ionic tensides, complexing agents, preferably 0,001-0.01 percent by weight ethylenediaminetetraacetic acid or 0.001-0.02 percent by weight of the trisodium salt of the β- alanine acid, 0-0.4 percent by weight of a flavour or of a natural oil, 0-0.3 percent by weight of an antistatic agent, to be chosen from organic phosphoric acid partial ester and a quartenary ammonium compound with four substituents, identical or different alkyl groups or three alkyl groups and one hydrogen substituent, completed to 100 percent by weight with demineralised water. The proportion of non-ionic tensides consists of the combination of 0.1-0.3 percent by weight (with reference to the whole product) fatty alcohol (C10-C18) alkoxylate and 0.2-0.6 percent by weight (with reference to the whole product) fatty alcohol ethoxylate, as well as an antistatic agent based on a phosphoric acid partial ester. The products for cleaning windows contain 0-0.2 percent by weight of a phosphoric acid partial ester or 0-0.3 percent by weight of a quartenary ammonium compound as an antistatic. The products for antistatic cleaning and for cleaning coated and non-coated glasses lenses contain 0.005-0.02 percent by weight of a phosphoric acid partial ester or 0.001-0.03 percent by weight of a quartenary ammonium compound.

Description

Glass cleaning products

The present invention reports on chemical products which are used for cleaning glass surfaces.

Various products are known for cleaning glass which contain ionic, nonionic or amphoteric surfactants together with alcohol, water and other supplementary substances. Such a known solution for cleaning glass surfaces based on surface-active substances with the addition of monohydroxylated alcohol, neutralizing agent and solvent consists of 0.1-1.0% by weight of nonylphenol polyethoxylate, octylphenol polyethoxylate and sodium alkylbenzenesulfonate as nonionic and ionic detergent agents, 10 up to 50 parts of ethyl alcohol, isopropyl alcohol or other monohydroxylated alcohols, 1.25-5% by weight ammonia as neutralizing agent, 0.1-0.3% by weight of lemon oil, apple oil as a fragrance, 0.001-0.1% by weight Methylene blue, sodium cuprate as a dye, and 47-75% by weight of demineralized water as a solvent (patent specification RO 110260).

Another known liquid for cleaning dishes, especially for removing grease, contains 20-70% by weight of a system of surface-active substances, composed of 4 components, first the magnesium salt of alkylbenzenesulfonic acid, the alkyl chain consisting of 10-18 carbon atoms , 0.5 - 8% by weight of an agent for foaming, up to 10% by weight of an organic solvent, up to 10% by weight of a hydrotrope, up to 10% by weight of one or more selected additives from complexing agent, dye, perfume oil , Bactericide and preservatives as well as others and the rest water (patent document RO 108357).

In general, the known glass cleaning products either have an insufficient cleaning effect, so that the product has to be used several times during cleaning in order to completely remove the remaining residues, or the products have a good cleaning effect, but leave streaks on the glass surface after use which then have to be removed, for example by wiping. In none of the known products is the use associated with a preventive action against deposits.

The object of the invention is to achieve a fast and efficient cleaning action without the occurrence of streaks after cleaning and a preventive action against the re-contamination by deposits by a new combination of active ingredients and thus to solve the problem described above.

The products in accordance with the present invention eliminate the disadvantages of the known glass cleaners by a composition of 10-25% by weight ethanol (min. 85%) or isopropanol (min. 90%), 0.1-0.5% by weight. of an anionic surfactant from alkyl (C12) - benzenesulfonate, sec. Alkane sulfonate, fatty alcohol ether sulfate or fatty alcohol sulfate, nonionic surfactants, which are composed of 0.1-0.3% by weight of fatty alcohol alkoxylate (C10-C18) and 0.2-0.6% by weight of fatty alcohol ethoxylate, a complexing agent with 0.001-0 , 01% by weight of ethylenediaminetetraacetic acid or 0.001-0.02% by weight of the trisodium salt of β-alanic acid, 0-0.4% by weight of a fragrance or a natural oil, 0-0.3% by weight of an antistatic agent organic phosphoric acid partial ester and a quaternary ammonium compound with four substituents, identical or different alkyl groups or a hydrogen substituent, supplemented to 100% by weight with demineralized water.

The window cleaning products in accordance with the invention contain 0-0.2% by weight of organic phosphoric acid partial esters or 0-0.03% by weight of a quaternary ammonium compound as an antistatic.

The products for antistatic glass cleaning or for cleaning eyeglass lenses according to the invention contain 0.005-0.2% by weight of organic phosphoric acid partial esters or 0.001-0.03% by weight of a quaternary ammonium compound as an antistatic.

The advantages of the products according to the invention are as follows:

- The cleaning of smooth and heavily used glass surfaces as well as glasses is completely done with one cleaning step, without leaving stripes.

- The addition of an antistatic agent prevents rapid re-contamination of the cleaned surface.

- Due to the interaction of the non-ionic, anionic, hydrophobic and alcoholic components, a high surface density is achieved and therefore less cleaning solution is required for cleaning.

- The products presented are very environmentally friendly, as all products in the range mainly use biodegradable base materials.

In the following 3 examples for the production of the products in accordance with the invention are shown.

Example 1. Depending on their solubility in water, the wash-active substances (anionic surfactant, nonionic surfactants, complexing agents) are dissolved in 5 to a maximum of 20% solution in demineralized water. This aqueous solution is referred to below as "component A". Thereby (concentration data based on the concentrations in the end product) 0.1-0.5% by weight optionally alkyl (C12) benzenesulfonate, secondary alkanesulfonate, fatty alcohol ether sulfate or fatty alcohol sulfate as anionic surfactant, 0.1-0.3 % By weight of fatty alcohol alkoxylate (preferably with 2 mol of ethylene oxide, 2 mol of propylene oxide and 1 mol of butylene oxide) and 0.2-0.6% by weight of fatty alcohol ethoxylate (preferably C10 with 5 mol of ethylene oxide) as nonionic surfactants, and 0.001-0.01% by weight % Ethylenediaminetetraacetic acid or 0.001-0.02% by weight of the trisodium salt of β-alanic acid as a complexing agent dissolved in water.

Separately, 0.01 - 0.4% by weight (based on the concentration in the end product) fragrance oil or natural oil as a hydrophobic component in 10 - 25% by weight (concentration based on the end product) ethanol (min. 85%) or Isopropanol (min. 90%) dissolved. The alcoholic solution is referred to below as "component B". Optionally, this component can contain an antistatic of a maximum of 0.2% by weight (based on the concentration in the end product) phosphoric acid partial ester or a maximum of 0.3% by weight (based on the concentration in the end product) of a quaternary ammonium salt (preferably as chloride) with 4 of the same or different alkyl groups or three alkyl substituents and one alkyl group replaced by hydrogen

Component A is then stirred into component B until a clear liquid is formed. This liquid represents the concentrate of the respective end product. The dilution of this concentrate with demineralized water for the preparation of the respective cleaning solution is generally carried out in a ratio of 1: 3, ie one part of the concentrate diluted with three parts of water. All manufacturing steps are carried out at room temperature and atmospheric pressure.

The product obtained has a wide range of uses in the cleaning of smooth surfaces such as window glass, mirrors and the like. In the first cleaning step, the cleaning solution is either sprayed onto the glass surface to be cleaned using a commercially available pump atomizer or applied to the surface to be cleaned using a cotton cloth which is moistened with the solution. Both methods should cover the area as completely as possible. After a short exposure time (usually and with normal soiling approx. 8 to 10 seconds), the glass surface is dry-wiped with a dry cotton cloth in the second cleaning step. Re-moistening or re-soiling of the glass surface should be avoided. No further cleaning steps are required. The combination of the surface-active substances (surfactants) used in the concentration ratios we found together with the complexing agent and the hydrophobic component (perfume oil in alcohol) result in micelles of small diameter and high volume density. An intermediate microemulsion is formed (surfactant / cosurfactant / oil / complexing agent) and optimal use of space and rapid penetration of the active ingredients into the pollution are achieved. The pollution is hydrophilized and in two ten cleaning step together with the aqueous phase and the majority of the alcohol phase completely absorbed by the cotton cloth. A thin layer of alcohol and perfume oil remains on the glass surface. Due to the high vapor pressure of the alcohol as a carrier substance, this thin layer evaporates without residue within a few seconds. After the cleaning process has ended, the scent impression of the perfume oil used only remains in the vicinity of the cleaned glass surface. This cleaning mechanism is new in itself.

Example 2. Component A is prepared as described in Example 1. Component B is also produced as in Example 1, in contrast to this the addition of surface-active substances, the antistatic agents, is prescribed. Thus 0.01-0.04% by weight (based on the concentration in the end product) fragrance oil or natural oil together with 0.005-0.02% by weight (based on the concentration in the end product) partial phosphoric acid ester or 0.001-0.003% by weight of the quaternary ammonium salt (as described in Example 1) dissolved in the corresponding amount of alcohol specified in the recipe (10-25% by weight of the end product). Components A and B are then mixed.

The cleaning solution obtained in this way in Example 2 for the antistatic cleaning of glass surfaces realizes a preventive treatment of glass surfaces such as, for example, computer monitors, television screens, inside of the windshields in automobiles and other surfaces with a high load due to deposits. In the first cleaning step, the cleaning solution is either sprayed onto the glass surface to be cleaned using a commercially available pump atomizer or applied to the surface to be cleaned using a cotton cloth which is moistened with the solution. Both methods should cover the area as completely as possible. After a short exposure time (usually 20 seconds with normal soiling), the glass surface is wiped dry with a dry cotton cloth in the second cleaning step. Re-moistening or re-soiling of the glass surface should be avoided. No further cleaning steps are required. The cleaning effect of the antistatic product in Example 2 corresponds to that of the product in Example 1. The additionally incorporated antistatic agent influences the glass surface during the exposure time and evaporation phase in such a way that prevention of rapid re-contamination is ensured. The antistatic remains in a small amount together with the alcohol and fragrance oil in a thin layer on the surface.

Example 3. Component A is prepared as described in Example 1. Component B is produced by adding the antistatic agents to that in Example 2 specified amount of 10-25% by weight (based on the end product) of alcohol. The oily component can optionally be added at a concentration of up to 0.4% by weight (based on the end product). The two components are then mixed together.

The cleaning solution in Example 3 is used for cleaning and preventive treatment of uncoated and coated lenses. In the first cleaning step, the cleaning solution is either sprayed onto the spectacle lens using a commercially available pump atomizer or applied to the spectacle lens using a cotton cloth which is moistened with the solution. Both methods should cover the area as completely as possible. After a short exposure time (usually 2 to 3 seconds for normal soiling), the glasses are wiped dry with a dry cotton cloth in the second cleaning step. Re-moistening or re-soiling of the glass surface should be avoided. No further cleaning steps are required.

The excellent cleaning effect of the cleaning solution is based on the synergistic interaction of the components (surfactants, solvents and complexing agents). The intermediate formation of a microemulsion can be dispensed with due to the small surface area to be cleaned. The incorporated antistatic agent influences the surface of the lens during the exposure time and evaporation phase (the antistatic agent remains to a small extent together with the alcohol in the thin residual layer) in such a way that prevention of rapid re-contamination is guaranteed (up to 10 days until Occurrence of renewed contamination). There is no impairment of visual acuity or an attack on the polymer coating of the spectacle lens (e.g. through penetration of the cleaning solution into the pores of the coating or the like).

The following Table 1 shows the compositions of the invention

Table 1: Composition of glass cleaning products

Claims

Claim

1. Glass cleaning products, consisting of 10-25% by weight alcohol, preferably min. 85% ethanol or min. 90% isopropanol, 0.1-0.5% by weight anionic surfactant, preferably alkyl (C12) benzenesulfonate, sec. Alkane sulfonate, fatty alcohol ether sulfate or fatty alcohol sulfate, nonionic surfactants, complexing agents, preferably 0.001-0.01% by weight of ethylenediaminetetraacetic acid or 0.001-0.02% by weight of the trisodium salt of β-alanic acid, 0-0.4% by weight of a fragrance or a natural one Oil, 0-0.3% by weight of an antistatic agent, consisting of a quaternary ammonium compound with four substituents, identical or different alkyl groups or three alkyl groups and a hydrogen substituent, supplemented to 100% by weight with demineralized water, characterized in that the proportion the nonionic surfactants are formed from a combination of 0.1-0.3% by weight (based on the total product) of fatty alcohol (C10-C18) alkoxylate and 0.2-0.6% by weight (based on the total product) of fatty alcohol ethoxylate , as well as another antistatic based on a phosphoric acid partial ester.

2. Products according to claim 1, characterized in that 0 - 0.2% by weight of a phosphoric acid partial ester or 0 - 0.3% by weight of a quaternary ammonium compound are used as an antistatic for window cleaning.

3. Products according to claim 1, characterized in that 0.005-0.02% by weight of a phosphoric acid partial ester or 0.001-0.03% by weight of a quaternary ammonium compound are used for the antistatic cleaning and the cleaning of coated and uncoated spectacle lenses.

REPLACEMENT BUTT (RULE 26)