CA1152813A - Fire window - Google Patents

Abstract

Fire-resistant window comprising: a continuous frame in the form of a U-shaped profile having a bottom, a window mounted in this profile, and means for sealing said window in said profile, these means forming a seal. A tongue made of material abounding in heat is placed in this profile between the bottom of the U-shaped profile and the seal so that this tongue swells under heat and replaces the seal which under the effect of the heat is reduced and loses its sealing property.

Description

Fireproof window ____._ ___________ The pre ~ ent invention is relati ~ e to a window firebreak including a window, single or double, do ~ t the ~ edges surrounded by a sealing anointed appropr ~ é are housed da ~ s grooves presented by a sleeper.

In co ~ nue7 1R ~ ltre est fire windows straight up in a rai ~ ure of the frame or ~ erte on one side ~ this effat ~ Ens ~ ite, this window is sealed by the gasket in the groove beforehand closed, p ~ r example p ~ r a batten with added glazing on the claimant.

When mounting such a window on a site, the frame is first placed in llou ~ erture corres-laying of masonry and flxed to it. Then, the ~ itre is positioned in the opening of the frame and sealed ~ e in the grooves thereof.

During its manufacture, it sometimes happens that the frame do not rigorously angle especially in the gra ~ dime ~ ions. Tolerances may be of ex ~ cuticn of the frame are depaesées. F ~ besides, it arrives ~ e ~ u ~ if the frame is lace up out of square 25 lor ~ of its mounting in masonry. In these two case, the opening defined by the bottoms of the grooves of the is awkward and takes the approximate form ~ n parallelogram or trapezoid instead of ~ oral form of a rectangle. Therefore, after place ment of the glass in the opening ~ question e, the edges of the glass are not pa ~ regularly distant from the ~ ond rain ~ res and the epalssor of the ~ watertight anointed more important in certain places of the perimeter of . ~.

f ~ L3 the window. These places are weak points from a fire protection perspective because they offer rapid changes to flames and hot gases in the event fire.
The object of the invention is a new window firewall which overcomes the aforementioned drawbacks of known windows.
According to the present invention, there is provided a fire-resistant window including: a continuous shaped frame of a U-shaped profile having a bottom, a window mounted in said profile, and means for sealing said window in said profile, these means forming a tight seal cheerfulness. A tongue made up of abundant material under heat is placed in this profile between the bottom said U-shaped profile and said seal so that said tongue swells under the heat and replaces places said sealing jolnt which under the effect of heat is reduced and loses its sealing property.
Thus, the factory assembly of the glass and the frame provides a seal between them regular with no weak spots or areas.
In addition, the mounting on site of the frame in the grooves of the frame makes it possible to obtain between this frame and the rigid groove elements particularly play low which creates a very high pressure drop for all gas leak. Consequently, the window according to the invention tion has fire-resistant features important and easily reproducible, whatever the actual dimensions of the opening in the masonry for the dormant and whatever manufacturing tolerances for this frame. Preferably, the window frame is made of synthetic material.
Preferably, to ensure easy adjustment of each rigid element relative to the bottom of the groove corresponding to the frame, a rigid element is mounted 213 ~ 3 on the bottom of the corresponding groove of the frame by clamping screw and a ~ interposition of a flexible and elastic element which is compressed along the entire length of the groove.
Preferably, and in the case where ~ the frame has a metallic profile delimiting internally the opening of this frame, the profile presents grooves and form on one side of them, a pan continuous serving as support for the frame, and on the opposite side, a commitment opening of this framework, the ~ uelle ouver-ture is provided after mounting with a vltrage lath serving as support opposite said frame.
Other details and particularities of the .vention will appear during the following description, lS made by referring to the appended drawings.ci which represent te ~ t schematically and by way of examples only, three forms of realization of the invention:
Figure 1 is a partial horizontal section of a first embodiment of a fire window ~ according to the draw;
- Figure 2 is a partial horizontal section of:
second form of execution of the new cut window fire;
.. ... _. . . . ... . _. _. _ _ _. . . _ _ .. ... . _ 2B ~ 3 - la ~ lgure 3 e ~ t a partial sectional view ~ e of third form of Réal1satlo ~ de la nou ~ elle fen ~ tre, a ~ ec a dormant sen ~ ibly different from the previous ones.

On the ~ in ~ the r ~ era ~ this digital 1 denotes a laminated glass pane resistant in particular to impact ~ The Yitre 1 could be ~ glass similar to double paro ~. The vertical and horizontal edges of the ~ lter ~ are sealed in a vert1cal 2 continuous frame through a ~ anointed seal 3 ~ The frame 2 is advantageously const ~ tu ~ identlques profiles in synthetic and U-shaped material.
pro ~ llés are solicited from each other. The wings of dirlged profiles ~ ers inside are located respec-ti ~ ement in two planes parallel ~ the glass 1. The ~ anointed 3 continuous surrounds the edges of ~ itre 1 to the interior of the frame 2. The joint 3, known in the ground, is 8 ~ synthetic material, for example based on silicone.
.

AYanta ~ badly not necessarily bad, a tongue continuous 4 is applied against the souls of the pro of frame 2 around the entire periphery of the latter. The tab 4 ~ e trQu ~ e do ~ c actually insert between the ~ anointed 3 and the frame ~ ond 2. The tongue 4 e ~ t made of u ~ abundant material, known per se ~ by example of sodium silicate. The extension of the tongue 4 as follows. In the event of a fire on one side the ~ in ~ be firewall, the ~ anointed 3, the frame 2 and the tab 4 receive ~ not ch ~ their growing e ~ their temperature increases ~ On the other hand, the seal ~ is br ~ lé and progressively reduced by fla ~ my ~
However, as and when the reduction of the aoint 3 ~ the tongue 4 of plu3 in hotter gon ~ the in the frame 2 and reaches the ~ edges of the glass 1 for then provide temporally more or less loss ~ ch ~ ity along this ~ edges, due to elimination synthetic material of ~ anointed 3.

~ - s ~

The ~ fire breaker is completed with a 5 th frame ~ case-very in an opening of the mason ~ erie 6 and secured ~ This d ~ rnière of a ma ~ ière known per se. In the first e ~ illustrated example (~ igure 1), the frame 5 includes takes a metallic profile ~ constitutes for example by a tale of aier folded more ~ eur ~ ~ o ~ s longitudinally.
The profile of the frame 5 is applied against the mason-nerie 6 and moreover covers it. The profile in question e ~ t ~ formed by two external aisles 7 and 8 pourYues each one of a ledge 9, by two ~ my 10 and 11, by two a ~ lntér ~ eures 12 and 13 and a bottom 14.
The wings 7 ~ 8, 12 and 13 are parallel to each other and perpendicular to ~ my 10 and 11 and the bottom 14O
The outer wings 7 and 8 are anchored in the ~ 5 mason ~ nerle 6 by their edges 9 which are embedded therein.
The outer wing 77 the ~ me 10 and the inner wing 12 form a continuous ba ~ ée. The outer wing 8, 1 ~ me 11 and the inner wing 13 form a shoulder cont1nu for example me ~ s tall and narrower than the pan. The inner wings 12 and 13 and the bottom 14 delimit Ul'lQ longitudinal alignment. ~ 15 is-à- ~ ris de which is hole ~ e the frame ~ 2.

Da ~ s each ralnur ~ 15 9 a hard and rigid element 16 is mo ~ tee from ~ a ~ on adjustable from the bottom 11 ~ ,. Element rigid 16 extends over the entire length and over the entire width of the groove 15. The rigid element 16 e ~ te ~ made u ~ flat thermally insulating material, for example ~ the e ~ asbeste-cement comprlm ~ or the like.
Between the bottom 14 and 1 ~ element rig ~ of 16 is a ~ soft, flexible and elastic element 17. This element 17 is actually a strip of material preferably thermally ~ solant and in particular u ~ tamping, for example in amlante foam. The rigid element 16 ~ 5 is mont0 ~ ur the profile of do ~ mant 5 and more on the ~ ond 14 of the groove 15 by ~ is ~ 6 -18 self-tapping tools. The tightening of the element rigid 16 by the ~ vi ~ 18 produces the compression of the flexible element and éla ~ tlque 17. hinsi, after a tightening ~ finished ~ is 18 9 the rigid element 16 is positlo ~ born selectlvement in the groove 15 and bad ~ held dan ~ ~ a position thanks to the back pressure elastic of the flexible and elastic element 17 then tablet O

Frame 2 is engaged san ~ ~ eu between ~ elements rlgide ~ 16, ~ applied against the above-mentioned pan and maintained by glazed slats 19. Here, each glazing strip 19 is fixed to the shoulder by of ~ vls of ~ ixatio ~ 2V self-tapping The assembly of the fire barrier window is carried out as follows ~ In the factory 9 we mount the glass 1 in the frame 2 provided with the tongue 4 and it is sealed by the ~ anointed d I sealing 3. On site, we mount the frame 5 ~ years or the corresponding opening of the masonry 6 and we seal it to the latter. Then we settle the.position of the rigid elements 16 relative to the ~ waves 14 of ~ grooves 15, in ~ anointing of dimensions of frame 2 and so as to put them square between them, We engage the frame 2 through tra ~ ers ouYerture dé ~ inie by the shoulders of the frame 5 and one is introduced without ~ had between the elements ~ rigid 16 ~ usque against of this frame 5. We finally mount the slats at vltrage 19 on ~ payment ~ O
~ 0 In the event of a fire inside the building, ie ~
dlre on the side of the ~ me 10 relative to the plane of the vltre 1 ~ le3 flames, ~ umées and burning gases ~
~ e paYent pa ~ to flow between the frame 2 on the one hand and internal aisles 12 and rigid elements 16 on the other hand 9 to ~ ause the negligible game that exists there and which is d ~ including the possibility ~ of adjustment.

oes rigid elements 16, In addition ~ the flames attack the joint 3 and the con ~ ument, but if ~ ultan ~ ment the tab 4 whose temperature increases 9 fills with more and more inside the groove of the frame 2. From this ~ a, the tab 4 replaces the ~ olnt 3 for temporarily extend ~ 'tightness between frame 2 and the vltre 1. So ~ the flames, the ~ umées and the hot gases are hole ~ ent retained during one fairly long period of time inside the building without being able to cross the ~ in ~ be whose character firewall is QinSi ensures ~

The second illustrated example (~ igure 2) dlffere du premler only by the fact that the slats glazing 21 are clipped between the shoulders of the standing 5 and the rigid ~ e ~ ts 16 in the grooves 15 instead of being fixed by clamping screws.

Dan ~ the third example illustrated ~ Figure 3) the dormant ~ st a ch ~ ssis wooden 22 p; resentee a paned 23 and a notch 24 in the corner. Each notch 24 is ~ erm ~ e on the side opposite the bat ~ e 23, by a slat in bowls 25 ~ fixed by wood screws 26 so as to d ~ llmiter the groove 15 in laqu0lle are also housed ~ men ~ flexible and ela ~ tick 17, the ~ l ~ ment rigid 16 and frame 2 Eraser in the ~ two others examples.

It is important to note that in the event of a fire, the tongue in ma ~ eriau ~ lounging can expand almost llbrement c8t ~ of the frame 5 because of the presence of the compressible element 17, which re ~ force the ef ~ icacit ~ of the material ~ lounging.

~ 5 It is obvious that the invention is not exclusively limited to the embodiments shown and that many modifications can be made in the ~ o ~ me, the di ~ position and the constitution of some ~ elements involved in their realization, s ~ ns ~ Get out of the scope of the present invention ~ on.

Claims (18)

The realizations of the invention, about of which an exclusive property or privilege right is claimed, are defined as follows: 1. Fire-resistant window comprising:
- a continuous frame in the form of a U having a bottom, - a window mounted in said profile, - Means for sealing said window in said profile, these means forming a seal sealing, - a tongue made of a material abounding in heat being placed in this profile between the bottom of said profile in U and said seal so that said tongue swells under the heat and replaces said seal heat which under the effect of heat is reduces and loses its sealing property. 2. Firestop window according to claim 1, further comprising, - a frame provided with a longitu groove-dinal. having a bottom, to receive said frame, - a flexible and elastic element, placed against said bottom of said frame, - a rigid element made of thermal material mically insulating mounted and extending over full length and full width of said groove, and - adjustable clamping means for adjustable element takes precedence flexible and elastic to position cor-rightly and tightly said frame in said dormant. 3. Firestop window according to claim 2, wherein said longitudinal groove of said frame forms a continuous pan to support one side of the window, a continuous shoulder, and fixed slats said shoulder to keep said frame applied against said pan. 4. Firestop window according to claim 3, wherein said frame comprises a profile. 5. Firestop window according to claim 4, in which said profile which makes up the frame is metallic 6. Firestop window according to claim 5, wherein said frame profile is applied against masonry embedded in an opening in the window. 7. Firestop window according to claim 6, in which said frame profile is formed by two outer wings each provided with a rim, in pairs souls, by two inner wings and by said bottom of said longitudinal groove. 8. Firestop window according to claim 7, in which the outer wings are anchored in masonry by their ledges which are embedded in said masonry. 9. Firestop window according to claim 8, in which one of the outer wings, the corres-laying and one of the inner wings form said panic continues. 10. Firestop window according to claim 9, in which the other outer wing, the correspon-dante and the other inner wing form said shoulder continued. 11. Firestop window according to claim 10, in which said shoulder is less high and less as wide as said pan. 12. Firestop window according to claim 11, wherein said longitudinal groove is formed by said inner wings and said bottom of the groove longitudinal. 13. Firestop window according to claim 3, wherein said slats are clipped between said shoulder of the frame and said rigid element. 14. Firestop window according to claim 2, wherein said frame is a wooden frame presented both a pan and a corner notch. 15. Firestop window according to claim 14, in which each notch is formed on the opposite side to said pan, by a wooden slat fixed by screws wood so as to define said longitudinal groove in which said flexible element is also housed and elastic, said rigid element and said frame. 16. Firestop window according to claim 1, characterized in that said frame is made of synthetic material tick. 17. Firestop window according to claim 2, characterized in that there are several rigid elements and in that each rigid element is mounted on the bottom of said longitudinal groove of the frame via the clamping screw medial and with interposition of said flexible, elastic and compressed element over the entire length of the groove. 18. Firestop window according to claim 3, characterized in that said frame has a profile metallic internally defining an opening of this standing, said profile forming grooves on one side, a continuous pan to support the frame and the side opposite of these grooves, an engagement opening of this frame provided after mounting of a glazing slat serving as support for said framework.