EA018915B1 - Fire protection glazing - Google Patents

Abstract

The present invention relates to fire protection glazing for avoiding the passage of fire and smoke from one room into another in the event of fire, comprising at least two fire protection panes arranged so as to be aligned horizontally and/or vertically, leaving a joint, each of which is composed of two parallel glass panes arranged at a distance from each other, the sealed interior of which is filled with in particular a gel-like fire protection agent, wherein a fire-inhibiting insulating agent is disposed in the joint formed between the butt surfaces of the fire protection panes. The fire protection glazing is characterized in that the fire protection panes are held on both sides in the edge region by a profiled section, that the mutually opposing profiled sections cover the joint formed between the fire protection panes or the fire protection pane and an adjacent structure delimiting the space, and that the mutually opposing profiled sections are joined to one another in a thermally insulated manner exclusively via the fire protection panes serving as an insulating layer.

Description

The invention relates to fire-prevention glazing to prevent the penetration of fire and smoke in the event of a fire from one room to another with at least two horizontally and / or vertically aligned in one plane, located relative to each other with the formation of a joint gap with fire-resistant glasses, which are made respectively of two fixed with the removal of parallel glasses from each other, the closed inner space between which is filled, in particular, with a gel-like, fireproofing medium tion, thus performed in between the mating surfaces of the fireproof panes gap is flame retardant insulating material.

Fire glazings are translucent structural elements, which are designed, according to their degree of fire resistance, not only to prevent the spread of fire and smoke, but also to additionally avoid unacceptable heat transfer. For this purpose, fire-resistant glass is used, which are made of laminated glass with a fire-retardant layer (intumescent material) located respectively between them. In case of fire, this flame retardant layer is activated. It absorbs thermal radiation and forms a highly efficient insulating layer. In this case, the foaming, fire-retardant material leaves the connecting surfaces of the fire-resistant glass and closes the gap left between adjacent fire-resistant glasses, so that henceforth it prevents the penetration of fire, smoke and heat. Unfortunately, in anti-fire glazing formed from such fire-resistant glass, the gate against smoke and fire functions only due to the penetration of intumescent fire-resistant material in the joint area.

Further, from EP 1194673 B1, fire-resistant glazing of a fundamentally different design is known, which uses fire-resistant blocks of glass panels that are made of several polished sheet glasses with a fire-retardant layer located between them from a gel-like, water-containing mass of alkali metal silicates. These gel coatings do not foam in the event of a fire. Moreover, such fire retardant coatings are provided on the glass wall side with a groove in which the barrier material is embedded to seal the fire protection material used against the penetration of moist and airborne environments. Unfortunately, this uses multiple glasses and many layers of fire-retardant material located between them with an expensive insulating seal located on the side of the wall relative to the butt gap.

As part of the improvement of this well-known fire-prevention glazing, to eliminate the aforementioned drawbacks, in UO 02/070234 an alternative fire-prevention glazing is proposed, which requires fewer glasses, a simpler construction and provides greater protection against penetration of fire and smoke in the butt gap. The known fire-prevention glazing comprises at least two transparent fire-prevention blocks of glass panels which are joined directly by side edges, while the remaining side edges are fixed on the structural element, while each fire-prevention block of glass panels is made of fixed apart from each other, parallel glasses, between which fireproof material is located. At the same time, between the lateral edges of the blocks of fire-retardant glass panels that are opposite to the butt gap, a fire-retardant system of insulating material is located. Each fireproof block of glass panels is made as an insulating glass system from fixed single shatterproof glasses (E8O) fixed at the edges of each other and between each other by means of a spacer element and a polyurethane compound, the inner space between which is filled with gel as a fireproof material, while a gap zone of at least between two fire-resistant blocks of glass panels as a system of insulating material laid fire-resistant ceramic insulation lane. Since in this known fire-prevention glazing indirectly only vertical, inner side edges of at least two blocks of glass panels are indirectly joined to each other, and all other sides are fixed by means of a circumferential frame, wider or higher glazing, which includes other indirectly joined together blocks of glass panels different in width and / or height cannot be implemented using a known fixing structure (frame). The use of the frame limits the freedom to manufacture large-sized fire-prevention glazing.

In view of this state of the art, the object of the invention is to develop fire-prevention glazing using the described fire-prevention blocks of glass panels, which (glazing) is simply assembled, provides further increased safety against penetration of fire and smoke and, also in case of fire, offers increased stability, so that it allows to increase the width, as well as, in particular, the height of fire-prevention glazing of a large area, and due to this, constructive freedom expands.

The problem according to the invention is solved in that the fire-resistant glasses are fixed respectively on both sides in the edge zone by means of a corresponding profile, that the opposing profiles overlap the gap formed between the fire-resistant glasses, respectively, the fire-resistant glass and the adjacent room-bounding structure, and that they are opposite to each other pros

- 1 018915 whether thermally separated are connected to each other exclusively by means of fire-resistant glasses serving as an insulating layer. Due to the general and bilateral fixation of fire-resistant glasses in the edge zone with the overlapping of the corresponding gap, an exceptional increase in the stability of fire glazing is achieved and, accordingly, the construction of large-sized glazing is ensured. Of course, it is also permissible, depending on the thickness of the profiles used, to form glazings with a height of 5, 6 and more than 7 m; despite the fact that there is no frame setting for individual fire-resistant glasses, they are simply mounted one above the other. In this case, one after the other, such a number of fire-resistant glasses can be installed that their own bearing capacity allows.

Advantageously, the opposing profiles are connected respectively to fire-resistant glasses, respectively, to fire-resistant glass and an adjacent room-limiting structure by means of a silicone sealant, firstly in the sense of increasing the bonding stability and secondly, to protect the gap. The width of the gap is expediently greater than 6 mm, preferably greater than 10 mm.

Thanks to the invention, a large number of fire-resistant glasses can be installed horizontally and / or vertically aligned with each other in the same plane and fixed by profiles located respectively on both sides that overlap the corresponding gap in the edge zone. It is particularly preferred that the profiles are made as steel hollow profiles.

According to one preferred embodiment of the invention, the fire-resistant glass is made of single-layer safety glass with I-shaped spacers and a polyurethane edge connector, and a fire-retardant ceramic insulation strip is laid in the butt region as an insulating material. Alternatively, the insulating material may also be mineral wool or intumescent material in the form of a strip. Preferably, the I-shaped spacer element is made as a gel-resistant, refractory plastic.

Other details, features, and advantages of the subject invention arise from the following description of the respective drawings, in which a preferred embodiment of large-sized fire-prevention glazing is presented. The drawings show:

FIG. 1 is a view of fire glazing according to the invention;

FIG. 2 is a section along line AA of FIG. one;

FIG. 3 is a section along line BB of FIG. 1 and FIG. 4 is a section along line CC of FIG. one.

Presented in FIG. 1, fire-prevention glazing in the form of a fireproof partition is suitable and provided in order to prevent the penetration of fire and smoke from one room to another in case of fire. It is a large-sized glazing, consisting of a total of eight fire-resistant glasses 1, 2, 3, 4, 5, 6, 7 and 8, which are aligned with each other in a vertical plane and are located one above the other. The location of the fire-resistant glasses relative to each other is made in such a way that between adjacent edges there is a gap of more than 6 mm, as will be explained in more detail below with reference to the figures in the context. Fire-prevention glazing is generally fastened, for example, in the opening of a building wall or directly on the side walls, as well as on the ceiling or floor of a building.

Fire-resistant glass 1-8 may have various dimensions and are combined with each other in accordance with architectural requirements, as explained in FIG. 1. Thus, the relatively long fire-resistant glasses 1-7 in this embodiment are arranged in the vertical direction or horizontal direction and the square fire-resistant glasses 6 or 8 are arranged in the vertical direction one above the other and in order to win in height, they are combined with a rectangular fire-resistant glass 4 in the vertical direction, and finally in FIG. 1 schematically shows other combinations of rectangular fire-resistant glasses 2, 3 and 5 in order to illustrate the variety of possible arrangements and thus ensured constructive freedom.

Fundamentally fire-resistant glass 1-8 are identical. They differ only in shape and size. Therefore, as an example, the implementation of fire-resistant glass 1 is described below with reference to FIG. 2.

Fire-resistant glass 1 consists of two, located in parallel, with the removal of glass 9 and 10 from a single-layer shatterproof glass. Between the glasses 9 and 10 around the edge there is an I-shaped spacer element 11 made of resistant against fire protection means and refractory plastic. The spacer element 11 is slightly biased inward relative to the edges of both glasses 9 and 10. The circumferential groove thus formed is filled along the edges with a polyurethane connector 12 of the edges, so that both E8O-glasses 9 and 10 are fixed to each other, forming a closed interior like insulating glazing. To create the desired fire protection properties, this interior space 13 is filled with a gel-like fire protection agent, which is known as such and therefore does not require a more detailed description. Unlike other fire-resistant glasses, a gel-like fire-retardant does not foam in the event of a fire and can also remain in the described inner space 13 of the fire-resistant glass.

- 2 018915

Shown in FIG. 2 is a section along line AA of FIG. 1 illustrates the location of both fire-resistant glasses 1 and 2 aligned with each other in the same plane, while a butt gap 14 is left between both glasses 1 and 2, i.e. the distance that the fire-retardant, insulating material covers. The embodiment shown is a fire-retardant, insulating material in the form of two ceramic insulating strips 15 and 16, which in case of fire impede the transfer of heat, as well as the penetration of smoke from the fire side of the fire glazing to the opposite side from the fire. In this case, the butt gap 14 is hermetically sealed against the penetration of smoke and fire.

The fastening of fire-resistant glasses 1-8 relative to each other, as well as, if necessary, on the floor, side walls and ceiling of the room in the building is carried out using steel profiles, which are located in the edge zones of fire-resistant glasses 1-8, overlapping butt gaps, on both sides of fire-resistant glasses as explained below in more detail with reference to FIG. 2.

In this embodiment, both fire-resistant glasses 1 and 2, forming the butt gap 14, are located one after the other in the same plane, and the butt gap 14 is closed by ceramic insulating strips 15 and 16. On both sides of the butt gap 14, both fire-resistant glasses 1 and 2 are fixed with steel hollow profiles 17 and 18, which are glued with silicone sealing mass 19 to the edge zones of both glasses 1 and 2. Steel hollow profiles 17 and 18 overlap the butt gap 14 on both sides, while the silicone sealing mass 19 due to the sealant effect protects the insulating material located in the butt gap 14 from external influences.

In FIG. 3 shows a section through the fixation point of the fire-resistant glasses 6 and 4 arranged on top of each other by means of steel hollow profiles, with a more detailed description being excluded due to the identical execution with respect to fixing with steel profiles in FIG. 2. However, in the horizontal butt gap 14, the location of the fire-resistant glasses 4 and 6 is carried out by means of known blocks (not shown), while in the butt gap 14 are placed according to FIG. 2 ceramic insulating strips 15 and 16.

In FIG. 4 shows the fixation by steel profiles of fire-resistant glass 4 from the side of the wall, which in principle is identical to the fixation described above with the difference that the wall acts as a room-bounding structure instead of the second (adjacent) fire-resistant glass and the cavity remaining in the joint gap 14 to the wall is filled with non-combustible mineral wool twenty.

All steel profiles for fixation are welded to each other in the joining places or otherwise fixed to each other, respectively, fixed from the side of the wall, floor and ceiling by means of threaded connections according to FIG. 4.

The described embodiment allows you to create a fireproof partition P with a height of H more than 3 m, for example 4 m, without other measures that increase stability, due to the complete thermal separation of opposing steel hollow profiles and the action of adjacent fire-resistant glasses as an insulating layer in case of fire tight circuit with respect to the penetration of fire and smoke is provided (completion).

List of Reference Items

P - fireproof partition;

H is the height;

- fireproof glass;

- fireproof glass;

- fireproof glass;

- fireproof glass;

- fireproof glass;

- fireproof glass;

- fireproof glass;

- fireproof glass;

- glass from single-layer safety glass;

- glass from single-layer safety glass;

- ϋ-shaped spacer element;

- polyurethane edge connector;

- inner space;

- butt gap;

- ceramic insulating strip;

- ceramic insulating strip;

- steel hollow profile;

- steel hollow profile;

- silicone sealing compound;

- non-combustible mineral wool.

Claims (6)

CLAIM 1. Fire glazing to prevent the penetration of fire and smoke in the event of a fire from one room to another with at least two horizontally and / or vertically aligned in the same plane, located relative to each other with the formation of a joint gap with fire-resistant glass, while formed between the fire-resistant insulating material is located by the joint surfaces of the fire-resistant glass, each fire-resistant glass is made of two single-layer shatterproof parallel parallel to each other ol, which are removed from each other by means of an I-shaped spacer element and fixed to each other by means of a polyurethane connector of their edges so that a closed inner space is formed between them, and this inner space is filled with a gel-like fire-retardant, and the fire-resistant glass is fixed on both sides in the edge zone by means of a corresponding steel profile, while the opposing steel profiles overlap the gap formed between the fire-resistant glass or, respectively, between fire-resistant glass and an adjacent room-limiting structure, wherein the opposing steel profiles are thermally separated from each other exclusively by means of serving as an insulating layer of fire-resistant glasses. 2. Fire-prevention glazing according to claim 1, characterized in that the opposing steel profiles are connected, respectively, by means of a silicone sealant to both fire-resistant glasses, respectively, fire-resistant glass and an adjacent room-limiting structure. 3. Fire glazing according to claim 1 or 2, characterized in that the gap width is more than 6 mm, preferably more than 10 mm. 4. Fire-prevention glazing according to one of claims 1 to 3, characterized in that a fire-retardant ceramic insulation strip is laid in the butt region as an insulating material. 5. Fire protection glazing according to claim 4, characterized in that the insulating material consists of mineral wool or intumescent material in the form of a strip. 6. Fire-prevention glazing according to one of claims 1 to 5, characterized in that the ϋ-shaped spacer element is made of gel-resistant refractory plastic.