RU2232241C2 - Method of fire-proof door leaf unit production, door leaf unit manufactured by above method, method of fire-proof door case or door decorative elements production and door case or door decorative elements manufactured by above method - Google Patents

Abstract

FIELD: methods and equipment for door structure production.

SUBSTANCE: method of fire-proof door leaf unit production involves providing the first and the second door leafs with the first and the second sides; applying adhesive homogeneous fire-resistant silicate suspension having hardening agent at least on one side of the first door leaf, wherein silicate suspension includes free water and bound water which provide the majority fire-proof characteristics; applying filler material above said silicate suspension; assembling door leafs into single leaf unit so that the first sides of the first and the second door leafs face each other; hardening fire-proof silicate suspension up to hardening thereof; extracting portion of free mater. Remainder free water provides additional protection against fire. Method of fire-proof door case or door decorative elements includes applying adhesive homogeneous fire-resistant silicate suspension having free water, bound water and hardening agent on door case or door decorative elements; applying filler material above said silicate suspension; curing homogeneous fire-resistant silicate suspension during hardening period thereof and extracting portion of free mater.

EFFECT: providing effective fire-proof capabilities of door leaf, case or decorative elements.

16 cl, 3 dwg

Description

The invention relates to a method for manufacturing door structures, in particular door leaves, door frames and door trim with a fire protection function, and also to door structures. It also relates to the use of silicate slurry as a flame retardant in door structures.

A known method of manufacturing fire-resistant doors, which consists in cutting out the appropriate size of the panel of gypsum or silicate, also making holes for locks, etc. The panels are laid and attached to the corresponding door sheets, for example, with glue. Insulating material, such as mineral wool, can be applied to gypsum panels and attached, for example, adhesively, after which the door leaf is assembled. Moreover, each gypsum panel covering the door leaf has a thickness of 6-12 mm and contains about 18-20 weight percent of bound water.

Known fire protection door (German patent DE 3603705), consisting of panels and gaskets placed between them asbestos-free silicate fiber (known as calcium silicate fiber), and the water content in it does not exceed 10%. Gaskets are arranged in pairs so that there is space between them and the panels. Gaskets contain air or are filled with some other refractory and insulating material.

Known soundproof steel door (German patent DE 3807833) containing absorbing panels placed on the inner sides of the door sheets. The panels are made of fibrous silicate material and have refractory properties. Mineral wool is used as a filler in this invention.

In European application EP 0741003 a fire-resistant viscous silicate mass is described, which is placed between two canvases of fiberglass fabric and then dried at a temperature of 130 ° C. Then, from these pre-prepared fire-retardant elements, panels of appropriate sizes are cut out and mounted.

The main disadvantage of the known fireproof doors and their elements is that their manufacture requires considerable time spent on cutting fireproof panels, their adhesive fastening and fixing of insulating material on them.

In addition, these doors have the disadvantage that in cases where it is necessary to provide particularly high fire protection locally, this is difficult to achieve. Door leaves are relatively heavy.

Further, the silicate material used requires a long time for hardening and drying, as a result of which the panels must be kept for at least several days.

SUMMARY OF THE INVENTION

The objective of the invention is the creation of a method of manufacturing door structures, in particular a door leaf, door frame or door trim with an effective and flexible fire protection function.

Another objective of the invention is to reduce weight and reduce the cost of fireproof or fireproof door construction. The expressions "flame retardant" and "fireproof" are considered in this application as synonyms.

These and other problems are solved in the method according to which the first and second door sheets are provided, each of which has first and second surfaces. At least on the first side of the first of the door sheets, a layer of fire retardant, mainly homogeneous silicate suspension with a hardener is applied. The silicate suspension should include alkali metal silicate and a filler, preferably obtained by a process in which the filler is treated with acid to form a slurry, followed by mixing the slurry with an aqueous solution containing alkali metal silicate. The method is further described in European application EP 0507368. An additional filling material, such as, first of all, mineral wool, is placed on a silicate suspension, after which the door leaf is assembled, i.e. the first and second door sheets are arranged so that the first surfaces of both sheets face each other. Then the flame retardant, mainly homogeneous silicate suspension is allowed to harden and a part of the free water is isolated.

The fire retardant, substantially homogeneous silicate slurry is preferably applied in relatively large quantities, in particular at least 1-2 kg per square meter of door leaf. To locally change the degree of fire protection of the door leaf, a silicate suspension can be applied to the surface of the door leaf in uneven amounts. A silicate slurry may also be applied to the first surface of the second door leaf. To increase the adhesion of the silicate slurry to the door leaf, ordinary glue can be used.

A disadvantage of such an invented door leaf, which manifests itself when using the leaf in conditions of significant temperature gradients, is that the silicate slurry can release so much water that it will leak out of the door. Therefore, it is preferable to place moisture-absorbing means inside the doorway to absorb free water released from the fire-retardant, mainly homogeneous silicate suspension. Desiccants dry for a very long time. Alternatively, or in addition to using desiccants, the door leaf may be exposed to elevated temperatures during assembly. The preferred temperature is 50-70 ° C. The temperature should be high enough to allow rapid evaporation of free water, but not enough to lose bound water, since the presence of this particular water provides real fire protection.

Drying the door alignment can also be done by blowing through it, preferably compressed air, to remove water.

According to a second aspect of the invention, the inventive method can be used appropriately in the manufacture of door frames and door finishes with fire protection properties.

The advantages of the present invention are to simplify and reduce the cost of the manufacturing process, as well as to enable flexible placement of the refractory material.

An additional advantage of the invention is that the generally homogeneous silicate suspension used in the production according to the claimed method is an environmentally friendly material and allows you to create an environmentally friendly production. It can also play the role of sound-absorbing material.

An additional advantage of door leaves or door leaf made in accordance with the claimed method is the reduction in the weight of the leaves (by about 10-20 kg compared to similar door leaves designed for 60-minute fire protection). Reducing the weight of the door leaves reduces the load on the door hinges and reduces transportation costs. Ultimately, the weight of the door leaves is determined by the choice of the thickness of the steel and the thickness of the layer of silicate suspension.

The invention is illustrated by drawings, presented in figures 1-3. These drawings serve to illustrate the invention and in no way limit it.

Figure 1 in two projections shows a fireproof door sash, made in accordance with the claimed invention.

Figure 2 shows a cross section of the inventive door leaf along the line aa shown in figure 1.

Figure 3 shows a part of the above section in an enlarged scale.

In the description below, in order to clarify the essence of the invention, information is provided on the details and features of its implementation, which in no way limit the scope of the invention, but serve only for the best understanding. It will be apparent to those skilled in the art that other embodiments of the invention are possible within the scope of the claims.

Figure 1 shows the inventive door leaf, including door leaves 1 made of steel. These sheets may be bent around the edges to facilitate assembly of the door leaf.

A silicate suspension 2 is mixed with a hardener and applied to the door sheets 1 through the nozzle in relatively large quantities, in particular about 10 times more than with conventional adhesive. The suspension flow rate when applied to a door leaf of standard sizes at the rate of 1-3 kg / m ² is 1-6 kg. The amount of suspension is related to the desired degree of fire protection and other door parameters. The silicate suspension, otherwise referred to as silicate solution, contains an alkali metal silicate with a filler and is described in EP 0 507368, the contents of which are incorporated by reference. The composition of the solution is presented in the present description below. A hardener or accelerator, which may comprise about 30-60% of the ether, is added to the suspension in small amounts, preferably 2-5% of the volume of the silicate suspension. To obtain a satisfactory fire retardant effect, it may be necessary to use a two-component composition. As an example of a material containing such a silicate slurry and hardener, Thorsil 7104 ™ and Thorsil K67-P ™, manufactured by ESA CHEMICALS, can be cited.

The suspension is applied in fluid form so that the thickness of the suspension layer on the entire surface to be coated or part thereof is several millimeters. This method of applying the suspension is very flexible and allows locally increasing the thickness of the layer of suspension in those places where enhanced fire protection is needed.

Aggregate material 3, for which it is preferable to use an insulating material such as, for example, mineral wool, is then applied to the slurry layer, after which the door sheets 1 are collected in the door leaf. When assembling the door leaf, the door sheets are bolted or welded. Alternatively, the door sheets can be mounted on a door frame made of, for example, bent or rolled sheet steel. Door sheets can also be made in one piece from the very beginning and represent only one door sheet.

Thus, in the inventive method of manufacturing the door leaf, you can do without cutting, installing and gluing panels that provide the fire protection function, as described in the known methods. The fire protection function and fixing on the door sheets in the claimed invention is provided simultaneously with the same material.

The fireproof door can also be made of wood in accordance with the claimed method, while the door sheets can be made of wood or laminate, and a fiberboard can be used as the filler material.

Normal water glass contains about 35% of a mixture of Na ₂ O and SiO ₂ at a ratio of 1: 3.4 and water. Such a composition of the mixture means that liquid glass can release all the water at room temperature. Almost liquid glass contains about 5% bound water, which disappears only at high temperatures.

In the essentially homogeneous silicate suspension used in the claimed invention, the proportion of bound water is 20-25%, the proportion of free water is the same amount. The rest of the substance is the dry residue. Bound water is called water, which is stored in the substance at room temperature and is released from it when heated to a temperature of the order of 100-110 ° C. Free water refers to the water contained in a substance and released from it over time at room temperature. The fact that bound water, which provides the bulk of fire protection properties, is released at a temperature of about 70-150 ° C, is essential for the ability of fire protection.

A silicate suspension can be prepared in the following way.

The filler is treated with acid to form a slurry, after which the slurry is mixed with an aqueous solution of alkali metal silicate to obtain a homogeneous suspension. As the acid, it is preferable to use a water-soluble organic acid. Powder of kaolin, feldspar, perlite, titanium dioxide, aluminum trihydrate, muscovite, talc, etc. with a particle size of less than 100 microns. The filler content in relation to the weight of alkali metal silicate is from 4% to 80%. As the alkali metal silicate, a mixture of M ₂ O is used, where M is sodium, potassium or a mixture thereof, and SiO ₂ in a ratio of 1 to about 2-4.

The suspension prepared in the described manner is characterized by a stable state and is not subject to delamination. It is highly viscous (about 20,000 centipoises) and has a relatively high adhesion to certain sheet materials, such as galvanized sheet material.

The silicate suspension described above, unlike ordinary liquid glass, is not so sensitive to moisture and does not emit so much water.

A silicate slurry is usually not applied to the top trim of door sheets, although this can also be done. To increase adhesion, you can additionally use ordinary glue. As shown below, refractory material can also be applied to the door frame and door trim.

Free water from a silicate slurry is usually released within two years after the manufacture of the door leaf (if the slurry layer is not closed, this can happen much faster). As long as free water is kept in suspension during this time, additional fire protection is provided. However, in connection with the release of a large amount of free water (1.5-2 kg), the problem arises of combating its leakage. There are two ways to solve this problem.

Firstly, moisture absorbing means 4 are used inside the door leaf to absorb free water released from the silicate slurry, and thereby prevent water leakage from the door alignment. It is preferable to use a thin-layer moisture-absorbing material capable of absorbing 100-200 times more water than it weighs itself, and retaining absorbed water for a long time.

Secondly, free water is removed as far as possible from the slurry during door leaf production. Water is removed by drying the door leaf at a temperature of 50-70 ° C, as a result of which the suspension hardens faster, and part of the free water evaporates.

Large amounts of water can be removed from the door leaf by blowing compressed air through the insulating material. During the experiments, half the water, i.e. 6 dl was removed in this way in 15 minutes. The door leaf should not be heated, otherwise the removal of bound water will begin, which will reduce fire safety.

Tests of models and working samples of door leaves showed that door leaves made in accordance with the claimed invention with a large margin meet the requirements of the EI fire safety standard both in temperature and in integrity. It was shown that at room temperature and humidity, the silicate suspension loses no more than 25% of its weight. Laboratory tests also confirmed a very high degree of fire protection.

In the present invention, the term “door leaf” also refers to gates and shutters. Door leaves can be made angular or grooved. The invention is also applicable to other parts of door devices. For example, silicate masses can be applied to the door frame, in particular to the side surface of the frame and / or on the front surface of the frame. The door frame can be made one- or two-facet, or it can be a special door frame. Silicate slurry can also be applied to the door trim.

Thus, the invention described above through the use of liquid material, in particular silicate slurry, when directly applied to door sheets, door frames and door finishes, solves the problem of ensuring fire safety and adhesion at the same time. It is obvious that the claimed invention is not limited to the implementations described in the description, including those presented in the drawings, and the scope of the claimed invention is determined by the features contained in the claims.

Claims (16)

1. A method of manufacturing a door leaf with a fire protection function, characterized in that it includes the following steps: providing the first and second door sheets (1), wherein each door sheet has a first and a second side; applying an adhesive fire retardant, substantially uniform silicate slurry (2) with a hardener to at least a first side of the first door leaf, wherein the silicate slurry contains free water and bound water, and said bound water provides the bulk of fire protection properties; applying a filler material to said silicate slurry; assembling the door sheets (1) in the door leaf so that the first surfaces of the respective door sheets face each other; curing the fireproof homogeneous silicate slurry before hardening and liberating part of the free water, the free water remaining in the silicate suspension provides additional protection against fire. 2. The method according to claim 1, characterized in that a substantially uniform silicate suspension (2) is made by treating the filler with an acid to form a slurry, which is then mixed with an aqueous solution of alkali metal silicate. 3. The method according to claim 1 or 2, characterized in that the flame retardant homogeneous silicate suspension (2) is additionally applied to the first surface of the second door sheet. 4. The method according to any one of claims 1 to 3, characterized in that the fire-resistant homogeneous silicate suspension (2) is applied to the surface of the door leaf in the form of a layer. 5. The method according to any one of claims 1 to 4, characterized in that said suspension (2) is applied in the form of an uneven layer, the layer thickness being increased in those places where enhanced fire protection is required. 6. The method according to any one of claims 1 to 5, characterized in that glue is added to the fire-resistant homogeneous silicate suspension (2). 7. The method according to any one of claims 1 to 6, characterized in that moisture-absorbing agents are used to absorb free water released from the fire-resistant homogeneous silicate suspension. 8. The method according to any one of claims 1 to 7, characterized in that the door leaf is maintained during assembly at a temperature of 50-70 ° C to evaporate part of the free water. 9. The method according to any one of claims 1 to 8, characterized in that compressed air is blown through the door leaf. 10. The method according to any one of claims 1 to 9, characterized in that the first and second door sheets are made of steel. 11. The method according to any one of claims 1 to 9, characterized in that the first and second door sheets are folded at the edges. 12. The method according to any one of claims 1 to 9, characterized in that the silicate suspension is highly viscous. 13. A door leaf with a fire protection function, consisting of first and second door sheets (1), a layer of silicate slurry (2) and aggregate (3), characterized in that it is made by the method claimed in any one of claims 1-12. 14. A method of manufacturing a door frame or door trim with a fire protection function, characterized in that an adhesive fire-retardant homogeneous silicate suspension (2) with a hardener is applied to the door frame or finish, wherein the silicate suspension contains free water and bound water, and said bound water provides the main part of the fire-retardant properties, put the filler material on the specified silicate suspension, withstand fire-resistant homogeneous silicate suspension during the curing time and the allocation of part of the free discharge water retained in said silicate suspension free water provides additional protection against fire. 15. The method according to 14, characterized in that a homogeneous silicate suspension (2) is made by treating the filler with an acid to form a slurry, which is then mixed with an aqueous solution of alkali metal silicate. 16. A door frame or door trim with a fire protection function, containing a silicate layer, characterized in that it is made by the method claimed in any of paragraphs 14 and 15.

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