FR2682946A1 - Composition for renovating glass and process of application - Google Patents

Abstract

The said composition includes, expressed on a weight basis: - an agent for breaking down the electrostatic barrier present at the surface of the glass, present in proportions of between 0.01% and 5% as pure product, and selected from halogen acids, their salts or a mixture thereof, which agent also has the properties of dissolving carbonates and amorphous silica which are formed by the corrosion of the glass; - at least one agent for rapidly dissolving carbonates, which is present in overall proportions of between 0.02% and 55% as pure product, and selected from inorganic acids and/or organic acids; and - at least one surface-active agent, optionally used in combination with at least one sequestering agent for carbonates, in overall proportions of between 1.3% and 80%.

Description

 The present invention relates to a composition for the renovation of glass, capable of de-opacifying all types of glass and more particularly panes, such as double glazing consisting of two panes arranged opposite and maintained by a rigid frame provided with means of sealing, single glazing, glazing, likely to cloud or corrode as well as its implementation process.

 I1 is known that the glass, and more particularly the windows, undergo a number of repeated attacks due to the environment (humidity, temperature variation, in particular); such attacks can lead to an attack on the surface wall of the glass, which results in a milky appearance of the degraded surface, with a reduction, or even a total disappearance of the transparency.

 Such degradations are encountered with an increased frequency for inaccessible panels (orientation towards the interior space) of double glazing, when there is degradation of the sealing means with penetration into the interior space, between the two panes, d humidity which causes a surface attack of the glass and a gradual clouding of the latter.

 To renovate the various types of aforementioned windows and more particularly the inaccessible panels, treatment methods have been proposed allowing the renovation of said inaccessible panels; however, the methods currently implemented lead to a percentage of failures of the order of 50%, which also lead to increased opacification of the treated glass or else use aggressive products at dangerous concentrations.

 This is why the Applicant has set himself the goal of providing a composition for the renovation of glass and more particularly the renovation of windows (double glazing, for example) which better meets the needs of the practice than the solutions currently used, especially in that it does not have the drawbacks of previous solutions (treatment failure with increased clouding or significant harmfulness), in that it is easy to implement, in particular in that it is not very harmful and that the contact time is insignificant (which avoids the degradation of the seals of the double glazing units, for example) and that its manufacturing cost is low.

The subject of the present invention is a composition for renovating glass, characterized in that it comprises, expressed by weight of the composition
- an agent for breaking the electrostatic barrier found on the surface of the glass, present in proportions of between 0.01% and 5% in pure product, and selected from halogen acids, their salts or a mixture of those -ci, which agent also has dissolution properties of carbonates and amorphous silica, formed by the corrosion of glass
- At least one agent for the rapid dissolution of carbonates, present in global proportions of between 0.02% and 55% in pure product, and selected from mineral acids and / or organic acids; and
- At least one surfactant, optionally combined with at least one carbonate sequestering agent, in overall proportions of between 1.3% and 80%.

 According to an advantageous embodiment of said composition, the agent for breaking the electrostatic barrier is hydrofluoric acid, one of its salts or a mixture of these different compounds.

 The concentrations used vary from 0.01% to 5%, depending on the temperature of use of the composition and / or the composition of the mixture of agent for breaking the electrostatic barrier (mixture of fluorides and hydrofluoric acid or acids such as fluosilicic or fluoboric acids); for example, in the composition according to the invention, when hydrofluoric acid is the only agent for breaking the electrostatic barrier, it is particularly advantageous to use it at concentrations of less than 0.6%.

 According to another advantageous embodiment of said composition, the carbonate dissolving agent is selected from the group which comprises hydrochloric acid, present in proportions at least 5 times greater than that of the barrier breaking agent electrostatic, sulfamic acid or a mixture of organic acids such as acetic acid and its derivatives, present in global proportions of between 0.1 and 35 t.

 In accordance with the invention, the surfactant can be, in particular and without limitation, a quaternary ammonium or a nonionic surfactant such as derivatives of octyl and nonyl phenols, C 8 -C 15 alcohols, oxide copolymers ethylene and propylene oxide and derivatives of nonionic polyol-esters, and the sequestering agent is notably selected from the group which comprises the tripolyphosphate derivatives and the ethylene diamine tetraacetic acid (EDTA).

 The mixture of surfactant and sequestering agent is hereinafter referred to as a detergent.

 According to yet another embodiment of said composition, the dissolving agent is advantageously combined with a pH regulating agent.

 According to a preferred arrangement of this embodiment, said dissolving agent is advantageously combined with formalin in proportions of between 0.002 and 6%.

 The composition in accordance with the invention may, in addition, comprise suitable additional additives.

A preferred formula of the composition in accordance with the invention has the following formulation - HF (and its salts) 0.01 - 5% - HC1 0.02 - 20% - formalin 0 to 6% - sulfamic acid 0.11 - 35% - detergent 1.3 - 80% - water qs 100%
A particularly preferred formula of the composition in accordance with the invention has the following formulation - HF 0.037 - 0.6% - HCl 0.4 - 20% - formalin 0.04% - 2% - sulfamic acid 0.11 - 25 % - detergent 1.3 - 80% - water qs 100%
Surprisingly, such compositions have the advantage of allowing de-opacification of the treated glasses with a success percentage of the order of 100%.

 The Applicant has in fact found that by using hydrofluoric acid (by weight of pure product), at concentrations of less than 0.6% when used alone, -concentrations for which there is no corrosion of the glass during the treatment itself, associated in particular with hydrochloric acid (dissolving agent) in proportions at least 5 times greater than those of hydrofluoric acid, sulfamic acid and also with a quaternary ammonium-EDTA detergent mixture, a total de-opacification of the treated glasses is obtained.

 Dissolving agents and more particularly hydrochloric acid prevent the formation of insoluble fluorides, which could form in the presence of hydrofluoric acid and which would have the disadvantage of increasing the opacity of the glass instead of renovating it; the association of two acids as dissolving agents, and in particular hydrochloric acid associated with sulfamic acid combine their effects to obtain complete dissolution of the carbonates formed by corrosion of the glass; in addition, quaternary ammonium, associated with hydrofluoric acid at the abovementioned concentrations, makes it possible to effectively break the electrostatic barrier located on the surface of the glass and more precisely on the corroded parts; moreover, the sequestering agent increases the action of the dissolving agents, by sequestering said carbonates.

 The composition in accordance with the invention finds particular application in the de-opacification of the internal double glazing, of the single glazing, in particular in hot and humid countries, in which frequent condensations can cause corrosion, over-glazing and any other susceptible glass support to opacify.

The present invention also relates to a method for renovating glasses, characterized in that it consists
- to bring into contact for a period appropriate to the total de-opacification of the glass to be treated, the glass to be treated and a composition in accordance with the invention
- to rinse said glass and
- to dry it.

 In addition to the foregoing arrangements, the invention also comprises other arrangements, which will emerge from the description which follows, which refers to examples of implementation of the method which is the subject of the present invention.

 It should be understood, however, that these examples are given solely by way of illustration of the subject of the invention, of which they do not in any way constitute a limitation.

EXAMPLE 1 Example of formula by weight of pure products.

HF 0.12%
HC1 2.12%
Formalin 0.16%
Sulfamic acid 9.60%
Detergent 11.00%
Water 77.00%
EXAMPLE 2 Use of a composition in accordance with the invention on double glazing.

 - Drilling of the glass or the frame (or even in the case of breathable double glazing: access to the breathing holes) to allow the injection of the composition of Example 1 between the two glasses 1 1 hole for the injection of the composition, and 1 1 hole for the evacuation of the composition.

 In the case of drilling glass, the drill could be a diamond drill bit drill held vertically by a suction cup.

 - Injection of the composition of Example 1 through the upper hole, either by high pressure, or by low pressure or runoff.

 - Evacuation of the composition of Example 1 continuously through the bottom hole, in the case of large injections of said composition, or evacuation of the composition after sufficient contact with the glass.

 - Rinsing the double glazing with water, until a neutral pH is obtained.

 - Drying of double glazing.

 - Installation of a filter on the top hole (possibly several filters, depending on the internal air volume of the double glazing).

 - Plugging with a plug from the bottom hole.

EXAMPLE 3 Use of a composition in accordance with the invention on a single-glazing or on panes or double-glazing coated with an anti-solar film.

 Corrosion comes essentially from the storage of the glasses against each other, preferably in a humid atmosphere (this often occurs on construction sites); these films or films degrade under the action of natural agents (rain, wind, snow, carbon oxides and dioxides ...) and transform into a powder which is literally stuck and which cannot be removed with current products without scratch the surface of the film.

 Processing: apply to the corroded part using a cloth, brush, steel wool, sponge, the composition of Example 1, rub, leave to act for a few minutes, rinse and dry.

 After treatment with the composition according to the invention, the appearance of the film is identical to that of a new film, i.e., it regains clarity, reflection of light, shiny and clean appearance.

 As is apparent from the above, the invention is in no way limited to those of its modes of implementation, embodiment and application which have just been described more explicitly; on the contrary, it embraces all the variants which may come to the mind of the technician in the matter, without departing from the framework or the scope of the present inventory.

Claims (6)

- At least one surfactant, optionally combined with at least one carbonate sequestering agent, in overall proportions of between 1.3% and 80%. - At least one agent for rapid dissolution of carbonates, present in global proportions of between 0.02% and 55% in pure product, and selected from mineral acids and / or organic acids; and - an agent for breaking the electrostatic barrier found on the surface of the glass, present in proportions of between 0.01% and 5% in pure product, and selected from halogen acids, their salts or a mixture of these, which agent also exhibits dissolution properties of carbonates and amorphous silica, formed by corrosion of glass  1 ') Composition for the renovation of glass, characterized in that it comprises expressed by weight of the composition  2) Composition according to claim 1, characterized in that the agent for breaking the electrostatic barrier is hydrofluoric acid, one of its salts or a mixture of these different compounds.  3) Composition according to claim 1 or claim 2, characterized in that the carbonate dissolving agent is selected from the group which comprises hydrochloric acid, present in proportions at least 5 times greater than that of the agent for breaking the electrostatic barrier, sulfamic acid or a mixture of organic acids such as acetic acid and its derivatives, present in global proportions of between 0.1 and 35%.  4) Composition according to any one of claims 1 to 3, characterized in that the dissolving agent is advantageously combined with a pH regulating agent.  5.) Composition according to claim 4, characterized in that said dissolving agent is advantageously associated with formalin in proportions of between 0.002 and 6%.  - to dry it.  - to rinse said glass and  - to bring into contact for a period appropriate to the total de-opacification of the glass to be treated, the glass to be treated and a composition according to any one of claims 1 to 7  8 ') Glass renovation process, characterized in that it consists  7) Composition according to claim 6, characterized in that it has the following formulation - HF 0.037 - 0.6% - HC1 0.4 - 20% - formalin 0.04% - 2% - sulfamic acid 0.11 - 25% - detergent 1.3 - 80% - water qs 100%  6) Composition according to any one of claims 1 to 5, characterized in that it has the following formulation - HF 0.01 - 5% - HC1 0.02 - 20% - formalin 0 to 6% - sulfamic acid 0 , 11 - 35% - detergent 1.3 - 80% - water qs 100%