DE4107933A1 - Facade fire protection system - has hollow metal body fixed alternately to outside and inside glazing clamping members - Google Patents

Abstract

The fire-protection system for a facade structure comprises a supporting metal frame with inside and outside hollow profiled members joined together, together with composite glazing secured by seals and fixing devices. The latter pass through lengthwise insulating bodies between the inside and outside members. At the space (14) between the glazing the insulating body (15.1, 15.2) is interrupted by a hollow rectangular metal body (26) running in the lengthwise direction. The fixing devices (16) alternately join the body to the outside (25) and inside (24) members. The composite glazing component (10, 10') comprises one or more fire-resistant panes, and is clamped between the members via non-combustible seals (5-5"'). ADVANTAGE - Simplicity, and resists fire for 30 minutes at least.

Description

The invention relates to a fire protection construction for a Facade system according to the preamble of claim 1.

According to DIN 4102 Part 13, Table 3, facade systems, that are designed as fire protection constructions, high demands posed. This applies in particular to F glazing intended for this are not only those according to their fire resistance class Spread of fire and smoke, but also the passage of the To prevent heat radiation.

One of the difficulties that must be solved is for one specified time z. B. equal to greater than 30 or equal to greater than 60 minutes to delay the passage of heat in the facade system so that the fire surface turned away by no more than 140 K (mean) or 180 K (largest single value) warmed.  

A generic fire protection construction for one Fire resistance of 30 minutes and G-glazing is known (see MRW brochure, Hermetic series, facade system, page 65, stand 1989). An essential element of this construction is a spacer block from a non-flammable fire protection board A1 according to DIN 4102 z. B. "Promatect" from Promat, of which the two hollow profiles connecting screw is penetrated. The arrangement of the Screw head within the hollow profile, so that the heat flow on to delay the outer surface. Is between the two hollow sections a laminated glass pane element with a Clamped total thickness of about 28 mm, with the inner pane of the laminated glass pane element is an ISO glass G30. The Air gap between the ISO glass and the flow glass pane is about 8 mm. This construction is for F glazing and for higher ones Fire resistance classes not suitable.

The object of the invention is to provide a fire protection construction for Specify facade systems with which for a simple F-glazing and a fire resistance of at least 30 minutes preferably greater than 60 minutes the requirements of the DIN standard 4102 are met.

This object is achieved with the in the characterizing part of claim 1 specified features solved. Advantageous further developments are Components of sub-claims.  

For higher fire resistance classes, e.g. B. F60 is the already known Arrangement of an insulating spacer block is not sufficient, since one much of the heat but the fastener itself drains away. Around to create an interruption here is proposed according to the invention, to split the insulation piece in the longitudinal plane and in between to arrange continuous intermediate profile made of metal, the alternating via a fastener with the outer load-bearing hollow profile and with the inner load-bearing hollow profile is connected. Has this interruption the effect that the heat first inside the room via the Fasteners can flow to the intermediate profile and then cannot flow directly onto the external hollow profile, because the associated fastener at a certain distance, for. B. 150 mm is arranged. This means that the heat first of all Intermediate profile must flow along and then again on the next arranged fasteners are forwarded to the outside can. This leads to a corresponding delay, which is reflected in a increased duration of resistance according to the DIN standard. With this Arrangement can also reach times equal to or greater than 90 minutes , provided that a correspondingly thicker Laminated glass pane element is used. The otherwise usual fireproof seals for clamping the Laminated glass panels are also for a fire resistance class F90 can be used. The seals on the side facing the fire burn, but due to the special structure of the fire retardant This space becomes laminated glass pane elements again closed. The fire-proof side resists on the side facing away from the fire Seal through the insulation of the panes from burning. alternative to the seals are clamped in the laminated glass pane element also possible between ceramic fiber layers, but at least outside are protected from the weather by seals  have to.

In the already known arrangement of the insulation piece in In the longitudinal direction of the hollow profiles, the heat flow from the inside of the room delayed to the outside hollow profile. The reduction takes place in the way that by extending over the entire length Spacer block a large part of the opposite radiant Area is covered. For the most part, the heat flow only takes place via Heat conduction, which is strong due to the insulation properties of the block is delayed. In the case of radiation, the heat flow begins immediately. Around to intensify the effect of covering the radiating surfaces, is proposed for further education, the inside of the room and / or load-bearing hollow profiles on the outside of the room Profiling the glass-facing side so that it can be received a transverse to the already known spacer Insulation body is suitable. This transverse insulating body is also penetrated by the fastener.

In the drawing, the Fire protection construction according to the invention explained in more detail.

Show it:

FIG. 1 is a partial cross-section of the already known fire protection construction,

Fig. 2 shows a partial longitudinal section along the line AA in Fig. 1,

Fig. 3 is a partial cross section through an inventive embodiment,

Fig. 4 shows a partial longitudinal section along the line AA in Fig. 3,

Fig. 5 to Fig. 3, but with a modified attachment,

Fig. 6 similar to Fig. 5, but a different type of glass holder and

Fig. 7 shows a partial longitudinal section along the line AA in Fig. 6.

Fig. 1 2 1 shows a partial cross section and Fig. Is a partial longitudinal section along the line AA in Fig. 1 by the previously known fire protection construction. The essential elements of these constructions are a supporting hollow profile 1 arranged on the inside, which in this example has an outwardly extending nose-shaped projection 2 and two C-shaped inwardly extending profiles 3 , 4 arranged in the edge region. In these profiles 3.4 engage sealing elements 5 , 5 ', which consist of ethylene-propylene terpolymers (EPDM) or flame-retardant chloroprene (CR). A further holding profile 6 , which is also called a glass holding profile, is arranged on the outside of the room and is connected to the first-mentioned hollow profile 1 by a screw 7 . In this case, a rivet nut 8 is arranged in the nose-shaped projection 2 as the nut element. Between the two load-bearing hollow sections 1 , 6 , a laminated glass pane element 10 , 10 'is clamped via seals 5 , 5 ', 9 , 9 '. On the details of the structure of the laminated glass pane element 10 , 10 'is omitted here, the only important thing is that a pane thereof has fire protection properties. Such a pane can be a so-called F-glass. To complete the outer finish, a strip 11 is fastened to the outer hollow profile 6 with screws 12 , 12 ', which is provided on the outer edge areas with a notch in order to be able to attach a finish profile 13 . The required resistance period of z. B. greater than 30 minutes corresponding to the fire resistance class F30 is achieved in such a way that an insulation piece 15 is arranged in the glass free space 14 , which extends according to FIG. 2 over the entire length of the hollow profile 1 or 6 . This insulation piece 15 is clearly shown in FIG. 2, z. B. penetrated every 300 mm by a screw 7 , 7 '.

So that the heat in the event of fire is not transmitted too quickly via the fastening screw 7 , 7 'to the outer hollow profile 6 , it is also known to arrange the screw head 16 on the inside 19 of the hollow profile 6 . So that the fastening screws 7 , 7 'can be inserted into the hollow profile 6 , a bore 18 is arranged on the outside 17 .

An embodiment of a fire protection construction according to the invention is shown in FIG. 3. In this example, the same shape and profile are used for the load-bearing hollow profile 24 lying on the inside of the room as for the hollow section 25 arranged on the outside of the room, as is the profile 1 shown on the inside of the room in FIG . In order to further delay the heat flow in the event of a fire, the insulation piece is divided into two sections 15.1 , 15.2 with a box-shaped hollow profile 26 lying between them. As can be seen from the associated Fig. 4, the intermediate profile 26 is alternately connected with the screws 16 , 16 'on the outer hollow profile 25 and with the self-tapping screw 28 with the inner hollow profile 24 . The distance 29 between the outer screw 16 , 16 'and the self-tapping screw 28 is 150 mm in this example. To reinforce the thermal insulation is further proposed to arrange in the recess 14 facing the glass free space of the two supporting hollow profiles 24 , 25 a transverse insulation body 29 , 29 ', which is also penetrated by the fastening screws 27 , 27 ', 28 . This arrangement has the effect that in the event of a fire, the hollow section 24 lying inside the room can no longer radiate across the glass free space 14 onto the opposite surface of the hollow section 25 , but rather the heat flow is delayed via the greatly reduced heat conduction of the insulating body 29 'between them.

Fig. 5 shows a comparable embodiment as Fig. 3, but with a different type of attachment. Instead of the self-tapping screw 28 as in Fig. 3, an Allen screw 16 'is used in this embodiment. However, this is not screwed in from the intermediate profile 26 , but from the hollow profile 24 that supports the interior of the room. As a nut for the fastening screw 16 '', a rivet nut 8 '' is arranged in the intermediate profile 26 .

Another embodiment is shown in FIG. 6. In contrast to the previously illustrated embodiments ( Fig. 3, 5), the laminated glass pane element 10 , 10 'between ceramic fibers 30 , 30 ', 30 '', 30 '''is clamped. Accordingly, the load-bearing hollow profiles 31 , 32 are shaped differently. In order to protect in particular the outer ceramic fiber layers 30 , 30 'from the weather, correspondingly shaped seals 34 , 34 ' are arranged in the C-shaped longitudinal sides 33 , 33 'of the hollow profile 31 .

The insulation piece is comparable to that in FIG. 3 divided 15.3, 15.4 in the longitudinal plane. In this exemplary embodiment, the intermediate profile 35 is not square in cross section, but rather rectangular. This has the advantage that the overall depth becomes smaller without impairing the fire protection function. It should be noted that with respect to the head 16 '' of the fastening screw 27 '' or the rivet nut 8 '' sufficient space is created so that there is no contact with the opposite side of the intermediate profile 35 with the fastener.

Claims (9)

1.Fire protection construction for a facade system consisting of a load-bearing metal frame, which is formed from hollow interior parts arranged and connected to one another on the inside and outside of the room, and a laminated glass pane element held by means of seals and fasteners, whereby in the area of the glass space of the metal frame construction, the internal and external hollow profile parts at certain intervals fasteners connecting to one another penetrate an insulation body lying in the longitudinal direction, characterized in that in the region of the glass free space ( 14 ) the insulation piece ( 15.1-15.4 ) is interrupted by a metallic rectangular hollow profile part ( 26 , 35 ) lying in the longitudinal direction and the fasteners ( 16 , 16 ' 16 '', 28 ) alternately the outer load-bearing hollow profile ( 25 , 31 ) with the central hollow profile part ( 26 , 35 ) and the central hollow profile part ( 26 , 35 ) with the inn The underlying load-bearing hollow profile ( 24 , 32 ) is connected and the laminated glass pane element ( 10 , 10 '), which has at least one pane with fire protection properties, on non-combustible seals ( 5 , 5 ', 5 '', 5 ''', 34 , 34 ', 34 '', 34 ''') is clamped between the two supporting hollow profiles ( 25 , 31 , 24 , 32 ). 2. Fire protection construction according to claim 1, characterized, that the fire protection glass is an F glass.   3. Fire protection construction according to claim 1, characterized in that the cross section of the centrally located hollow profile part ( 26 ) is square. 4. Fire protection construction according to claim 1 or 3, characterized in that the inside height lying in the direction of the fastening of the hollow profile part ( 26 , 35 ) is equal to or slightly larger than the length of the head part of the fastening means ( 16 '', 28 ). 5. Fire protection construction according to claim 1 or 3, characterized in that the inside height of the hollow profile part ( 26 , 35 ) is slightly larger than the length of a locking means for the fastening means ( 16 ''). 6. Fire protection construction according to claim 5, characterized in that the locking means is a rivet nut ( 8 ''). 7. Fire protection structure according to claim 1, characterized in that the interior and / or exterior lying supporting hollow profile parts ( 24 , 25 ) on the side facing the glass free space ( 14 ) have a profile which is adapted to receive a transverse to the insulation piece ( 15.1 , 15.2 ) lying insulating body ( 29 , 29 ') is suitable and this is also penetrated by the fastening means ( 16 , 16 ', 16 '', 28 ). 8. Fire protection construction according to one of the preceding claims, characterized in that at least the outer load-bearing hollow profile part ( 25 ) on the two longitudinal sides has an inwardly directed C-shaped ( 3 ', 4 ' 9 ) profiling, in which one on the glass pane ( 10 , 10 ') engaging or resting seal ( 5 '', 5 ''') engages. 9. Fire protection construction according to claim 8, characterized in that both the outer ( 25 ) and the inner ( 24 ) supporting hollow profile has a C-shaped profile ( 3 , 3 ', 4 , 4 ') on the long sides.