DE2813320A1 - Fireproof hollow body contg. alkali silicate soln. - which seals leaks by foaming, esp. as interior window - Google Patents

Abstract

A fireproof construction unit consists of a hollow body filled with a soln. of is not 1 alkali silicate. The unit is esp. an interior window. When the glass breaks under the action of heat or a flame, pref. at a pre-determined breaking point, the alkali silicate leaks through the break and foams, preventing further leakage and sealing the break. The hollow body is esp. constructed of glass or a clear transparent synthetic material, but for certain purposes opaque materials, e.g. synthetic or metal sheets, may be used. In the silicate, the ratio of Me2O:SiO2 is 1:2.8-3.5. The soln. has a solids content of 32-38 wt%, and may contain is not >8 wt.% of a cpd. which increases the viscosity, e.g. an alkali phosphate, pref. K tripolyphosphate or diammonium phosphate, or urea. A cpd. which is compatable with waterglass, e.g. sugar, may also be incorporated.

Description

description

DT-PS 1 900 054 describes heat-insulating, translucent laminated glass of at least two glass plates arranged one above the other, optionally up to atf at least one can also be replaced by a transparent plastic plate, described. These laminated glasses have an inorganic intermediate layer made of a solid hydrous alkali silicate containing 10 to 40% by weight of water1.

Such laminated glasses are exposed to heat or flame exposed, the plate exposed to the heat cracks, while the Intermediate layer made of the alkali silicate with the water contained in it boiling away is inflated to a foam layer, which is effective for further heat transfer Opposes resistance.

A disadvantage of this laminated glass is that it is practical it is impossible to make them in a completely transparent form because of the alkali silicate interlayer cannot be applied in a homogeneous and absolutely transparent form. The clarity the laminated glass decreases with increasing thickness of the alkali silicate interlayers away. Since, however, to achieve sufficient fire safety either as possible thick alkali silicate interlayers, the thickness of which can be up to 5 mm, should be selected, or, if possible, several in combination with glass plates Such alkali silicate layers are provided, the laminated glasses obtained are although still translucent, but no longer clear-sighted, because they have an appearance, as if they contained numerous driving implications.

In DT-OS 27 13 849 a fire-retardant glazing is made of one Described hollow glass body which is filled with a liquid-containing gel, which also contains a substance that creates an insulating foam under the influence able to form thermal radiation. As foam-producing substances are under other alkali silicates mentioned, but it should be noted that when using of water glass should not be used more than 10%, as the gel is then opaque will. Derivatives based on acrylic acid are used as gels.

The invention has set itself the task of a fire-proof component to create this in a more economical manner than that from the one described above DT-OS can manufacture known component.

This object is achieved according to the invention in that the hollow body with an alkali silicate solution or with a mixture of two or more alkali silicate solutions is filled.

The hollow body is preferably made of glass or a clear transparent one Plastic. After the alkali silicate solution filled into it is water-clear, is the fire-resistant component obtained in this way is clearly transparent and can be used anywhere can be used where a clear transparency is required, for example for the production of windows in interiors etc ..

The liquid-tight hollow body can, however, also be made of opaque Materials, for example plastic or sheet metal, depending on the desired Purpose 1 exist.

When exposed to heat or flame, in the case of glass, cracks the liquid-tight hollow body at any point.

However, a weak point or predetermined breaking point is preferably provided, where the jumping up should take place, so that the arising one excessive pressure in the cavity is avoided. The alkali silicate solution swells by boiling off the water it contains to form a layer of foam that provides effective resistance to further heat transfer.

When using plastics, the liquid-tight ones stew Hollow body at any point, whereby the same effect occurs. Consists the liquid-tight hollow body, for example made of sheet metal, is also preferably a predetermined breaking point is provided at which by the resulting Internal pressure when exposed to heat creates a leak, whereupon the heat immediately alkali silicate solution coming into contact turns into a foam layer.

It is extremely surprising that after cracking or leaking of the liquid-tight hollow body only a minimal negligible loss takes place on alkali silicate solution, which in itself would not have been expected. Much more occurs when the alkali silicate solution comes into contact with a flame for the first time or a hot environment, foam immediately forms, which causes the crack respectively.

the leak is sealed, whereby the foam formation increases with increasing Heat can continue.

The alkali silicate solution used preferably consists of one Solution of an alkali silicate with a Me20: SiO2 ratio of 1: 2.8 - 3.5. It preferably has a solids content of 32 to 38% by weight.

In order to increase the viscosity, salts in dissolved form can be added to this solution are added, preferably in amounts of up to 8 wt .-%, these salts in expediently exert a fire-retardant effect. Examples of such Salts are phosphates, such as alkali metal phosphates, especially potassium tripolyphosphate, or Diammonium phosphate, or urea and its derivatives You can also use others Add water-glass compatible substances, such as sugar.

Since the thickness of the liquid-tight hollow body can be chosen arbitrarily can and also bodies with multiple chambers come into question, it is absolutely possible to manufacture fireproof components for any purpose. For example Liquid-tight hollow bodies made of glass can be used, the thickness of which is arbitrary can be selected, with the alkali silicate solution contained also still in a considerable thickness appears clearly transparent.

The invention is explained in more detail by means of the accompanying drawings. 1 shows an embodiment of a fire-proof component according to the invention in side cut.

2 shows a side section through another embodiment according to the invention.

The embodiment represented by FIG. 1 is preferred from a liquid-tight hollow body 1 made of glass, the interior 2 with a Alkali silicate solution is filled. The hollow body can be made in one piece, however, it can also be composed of the various side parts in a suitable manner will. In the embodiment shown, it is left open at the top to indicate that it is, for example, a larger part that continues upwards.

After filling with the alkali silicate solution, this component can be converted into are closed in a liquid-tight manner in a suitable manner.

FIG. 2 shows an embodiment according to FIG. 1, but with in this case a division into two chambers 2 and 4 by the middle partition 3 has been made. At this Embodiment remains for example after one of the side walls of the chambers 2 has been destroyed by fire, at least First the chamber 4-still-intactO Only after all the alkali silicate has been removed from the Chamber 2 is foamed, if. its insulating effect is insufficient Partition wall. 3 jump, whereupon the alkali silicate solution foamed out of chamber 4 will.

It is also possible in the case of making the liquid-tight Hollow body made of glass. to make the individual sides from different types of glass, for example made of toughened glass, laminated glass, etc.

Furthermore, as already mentioned, at predetermined points weak points, for example predetermined breaking points, can be provided that or exposure to heat, preferably by destroying the alkali silicate solution.

Example A liquid-tight hollow body made of glass with a thickness of 11 mm, a width of 50 mm and a length of 200 mm and a diameter of -5 mm (wall thickness of the glass 3.mm) was treated with an alkali silicate solution in which 6% potassium tripolyphosphate dissolved. with a ratio Mm20: Sio of 1: 3.2 filled. After filling, the filling end was closed in a liquid-tight manner. Then a Bunsen burner flame with a temperature of about 10000C. With a Distance of the burner outlet opening of 9-10 cm on one of the broad sides of this Part directed. Immediately after the flame took effect, the glass wall shattered. The emerging alkali silicate solution was immediately peeled off while the water was boiled off. After allowing the flame to act for a period of 0.5 hours on the back of the part whose glass wall was left intact, a temperature measured from 1400C.

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Claims (6)

Fire-proof component Patent claims Fire-proof component from one liquid-tight hollow body filled with a fire-retardant liquid, characterized in that the hollow body with an alkali silicate solution or with a mixture of two or more alkali silicate solutions is filled. 2. Component according to claim 1, characterized in that the alkali silicate solution from a solution of an alkali silicate with a Me2O: SiO2 ratio of 1: 2.8 - 3.5 exists. 3. Component according to claims 1 to 2, characterized in that the alkali silicate solution has a solids content of 32 to 38% by weight. 4. Component according to claims 1 to 3, characterized in that the alkali silicate solution contains compounds in dissolved form to increase viscosity, preferably in amounts of up to 8% by weight. 5. Component according to claim 4, characterized in that the solution Phosphates, such as alkali phosphates, in particular potassium tripolyphosphate or diammonium phosphate, or Contains urea, 6. Component according to claim 5, characterized in that the Solution also contains waterglass-compatible substances, such as sugar.