EP3196396B1 - Construction element with fire protection - Google Patents

Description

The invention relates to a component in fire protection according to the preamble of claim 1.

The eligible frame construction is preferably used for windows, doors and facades. The frame members are made in a preferred embodiment of aluminum hollow sections, which were manufactured by extrusion. The surface element may be a filling plate or a glass sheet. The holders are usually made of metal, as in a fire-proof design in case of fire, a relatively long time should pass until the frame construction coincides.

In a known frame construction, each holder consists of two angle elements, the frame spar facing legs are bolted to the frame rail. The assembly work for this frame construction is relatively high, due to the drilling of the screw holes and the screwing of the screws. In addition, the required accuracy today is not achieved because the screw holes are drilled by hand by means of a drill.

It is therefore already known a one-piece holder which engages around the surface element and which is fixed by means of webs inserted in bores on the frame construction. The effort for the assembly of this frame construction is relatively high, also due to the drilling of the holes in the frame spars. In addition, it is necessary that the holders are adapted to the different thicknesses of the surface elements used. There are therefore different manufacturers to deliver from the manufacturer of such frameworks, so that the production and storage are not economical. The DE 695 29 594 T2 discloses a housing system for a facade in which anchors are hooked in a profile to keep the panels in position even in case of fire. For this purpose, a plate overlapping the arm is provided.

The EP 1 327 739 A2 discloses a building element with frame profiles in which glass elements are held. In order to secure the glass elements in case of fire, fasteners are provided which engage around an edge of the glass elements. The fasteners are locked detent in two Schraubnuten a frame profile. The GB 2 362 676 A discloses a holder of two mutually movable angle elements, with which a surface element is mounted in a door opening to achieve an improved anti-burglary.

The invention has for its object to provide a device in fire protection, which is easy to install and allows improved adaptation to different thickness surface elements. The stated object is achieved by a component in fire protection design with the features of claim 1.

The frame members facing the legs of the angle elements have at least one engaging in at least one locking groove of the frame Holmes latching web.

The frame members are provided with preferably undercut locking grooves anyway. These can now be used to fix the frame member facing the angle element to the frame rail by the latching web or the locking webs have a corresponding shape. This eliminates the need to drill bolt holes in the frame spars and screw in screws. Since the angle elements are produced by means of suitable tools, the manufacturing tolerances are negligible, so that the mounting accuracy is extremely high.

For secure fixing of each holder is provided that the locking webs of the angle element are positively and / or non-positively fixed in the respective locking groove.

According to the invention, each holder consists of a first angle element facing the respective frame spar of the component and a second angle element, and the leg of the first angle element facing the frame spar forms a guide for the second angle element which is adjustable relative to the first angle element.

It is particularly advantageous in this embodiment that the same holder can be used by the adjustability of the second angle element for different thicknesses of the surface elements. In addition, the distance between the transverse to the plane of the component leg can be adjusted in distance to the inner surface of the surface element. The webs encompassing the surface element of each holder are at a certain distance from the outer and the inner surface, so that the surface element is movable by the seals inserted into the outer shell and the retaining strip.

To adapt to the largest and the smallest thickness of the surface elements is provided that the second angle element is adjustable within the adjustment infinitely variable with respect to the first angle element and can be locked in any position. Due to the stepless adjustment not only the different thicknesses of the surface elements can be considered, but also on different seals. The second adjustment is designed so that it can be locked in any position without holes must be drilled in the frame spar.

To lock the second angle element is provided that in the frame spar associated leg of this angle element, a bore is provided, into which a locking screw is screwed. The bore can be introduced during the manufacture of the angle element, it being possible that this is stamped, and that the locking screw is equipped with self-tapping threads.

According to a second solution it is provided that the second angle element is locked by latching. For this purpose, the first angle element is equipped with a spring tongue, which is formed by incisions and in the second angle element, a slot is incorporated, the lateral edges are toothed. In this slot or in this toothing engages the arcuate end of the spring tongue. Once the arcuate end of the spring tongue is pushed out of the slot, the second angle element can be adjusted. Depending on the pitch of the teeth, the adjustment of the second angle element takes place in correspondingly small steps.

In an advantageous manner, it is provided that the leg of the first angle element facing the frame spar rests against the frame spar with its central area, and that the side areas are bent to form the guide of the second angle element, so that the outer edges of the bent area are spaced apart Stand frame frame. By this design can be dispensed with spacers between the first angle element and the frame member, whereby the assembly would only be difficult. To guide the second angle element is provided that this has lateral guide pockets which engage around the outer edges of the cranked portion of the first angle element. This also creates a positive connection between the two angle elements. It is sufficient if the guide pockets of the second angle element extend beyond the surface element facing away from the end region. This also achieves a material-saving design. The same applies if the laterally bent portion of the frame spar associated leg of the first angle element extends over an end portion which faces away from the surface element. This cranked region extends approximately over half the length of the frame spar facing leg.

In a preferred embodiment it is provided that the first angle element is positively and / or non-positively fixed in at least one longitudinal groove of the frame Holmes. For this purpose, this angle element is provided on the frame spar associated side with four rectangular squares descriptive locking webs, which are aligned in the direction of the locking grooves of the frame Holmes and equidistant from each other. The distance between these locking webs is adapted to the distance of two locking grooves. The locking webs are arranged so that a quadrangle is formed by the connections of the individual locking webs with each other. In a particularly advantageous manner, the locking webs are arranged so that two diagonally opposite webs are formed in a straight line, and that the other two diagonally opposite locking webs are formed as Kröpfstege or angle webs. By this arrangement and design of the locking webs is achieved that first the first angle member relative to the frame spar is brought into a first inclined position, wherein the Kröpfstege or angle webs and the rectilinear locking webs dive into the locking grooves of the frame spar, that then the angle element is rotated, so that whose longitudinal edges are perpendicular to the locking grooves. The Kröpfstege be levered under bias over the rectilinear locking webs in the locking grooves, whereby the final position of the angle element is fixed. By levering the Kröpfstege be powerfully clamped under the Nutstege, so that a secure positive and non-positive connection is made. After inserting the surface elements then the second angle element is positionally mounted to the first according to the thickness of the surface element mounted so that after attachment of all holders this is exactly fixed. Since the locking grooves are arranged in their cross-sections mirror images of each other, it is provided that the angled or cranked end portions of the angle or the Kröpfstege are aligned with each other.

Reference to the accompanying drawings, the invention will be explained in more detail.

Figur 1

eine mögliche Ausführung eines Rahmenprofils,

Figur 2

das Rahmenprofil gemäß der Figur 1 mit einem eingesetzten Flächenprofil und den Haltern,

Figur 3

eine der Figur 2 entsprechende Darstellung, jedoch in einer isometrischen Darstellung,

Figur 4a

das dem Rahmenprofil zugewandte erste Winkelelement in einer Ansicht,

Figur 4b

das Winkelelement gemäß der Figur 4a in einer isometrischen Darstellung,

Figur 4c

das Winkelelement gemäß den Figuren 4a und 4b mit Blick auf die dem Rahmenprofil zugewandte Fläche,

Figur 4d

das in zwei Rastnuten des Längsholmes eingesetzte erste Winkelelement in einer Draufsicht,

Figur 4e

das in die Rastnuten einzusetzende erste Winkelelement in einer Anfangsstellung,

Figur 4f

das zweite Winkelelement in einer isometrischen Darstellung,

Figur 4g

den aus den beiden Winkelelementen gebildeten Halter in einer isometrischen Darstellung,

Figur 4h

den aus den beiden Winkelelementen gebildeten Halter in einer Vorderansicht

Figur 5a

eine zweite Ausführung des ersten Winkelelementes in isometrischer Darstellung,

Figur 5b

eine zweite Ausführungsform des zweiten Winkelelementes in isometrischer Darstellung und

Figur 5 c

den aus den beiden Winkelelementen gemäß den Figuren 5a und 5b zusammengesetzten Halter in isometrischer Darstellung.

Show it:

FIG. 1

a possible embodiment of a frame profile,

FIG. 2

the frame profile according to FIG. 1 with an inserted surface profile and the holders,

FIG. 3

one of the FIG. 2 corresponding representation, but in an isometric representation,

FIG. 4a

the frame profile facing first angle element in a view

FIG. 4b

the angle element according to the FIG. 4a in an isometric view,

Figure 4c

the angle element according to the FIGS. 4a and 4b with a view of the surface facing the frame profile,

FIG. 4d

the first angle element used in two locking grooves of the longitudinal beam in a plan view,

Figure 4e

the first angle element to be inserted into the latching grooves in an initial position,

FIG. 4f

the second angle element in an isometric view,

Figure 4g

the holder formed from the two angle elements in an isometric view,

Figure 4h

the holder formed from the two angle elements in a front view

FIG. 5a

a second embodiment of the first angle element in isometric view,

FIG. 5b

a second embodiment of the second angle element in isometric view and

FIG. 5 c

from the two angle elements according to the FIGS. 5a and 5b composite holder in isometric view.

That in the FIG. 1 illustrated hollow section is formed as a composite profile 1 from which a frame construction for fire protection elements, such as windows, doors or façade elements are made. The composite profile 1 consists of an outer shell 2 and an inner shell 3, which are connected to each other via two insulating bars 4 for thermal insulation. The outer shell 2 and the inner shell 3 are, for example, extruded aluminum. The insulating bars 4 are usually made of a plastic. The outer shell 2 and the inner shell 3 are provided with a plurality of grooves 5 - 7, which are undercut at least on one side, ie it extends a web into the groove 5, 6, 7. In the grooves 5, for example, a glass retaining strip, not shown, are used. The grooves 6 are provided for receiving seals, not shown, and finally the locking grooves 7 are designed to receive the holder described above.

As the FIG. 2 shows, in the outer shell 2, a surface element 10, for example, used in the form of a fire-resistant insulating glass. This surface element 10 is encompassed by still further explained holder 8 in the frame construction. To hold the surface element 10, the glass retaining strip 9 is latched into the groove 5. The glass retaining strip 9 also carries a seal 11, which is associated with the inside of the surface element 10. In the groove 6 of the outer shell 2, a further seal 12 is inserted, which bears against the outside of the surface element 10.

The FIG. 3 shows a fixed to the outer shell 2 and a fixed to the inner shell 3 holder 8 in a perspective view. So that the holder 8 is visible, the glass retaining strip 9 is not drawn. In a manner not shown, a plurality of holders 8 are used at intervals in the shells 2 and 3 to secure the surface element 10. As will be described in more detail, this is done without screws by each holder 8 is engaged in two parallel and spaced locking grooves of the shells 2 and 3.

As the Figures 4g and 4h show, each holder 8 consists of a first angle member 16 and a second angle member 23, wherein the first angle member 16 forms a guide for the second angle member 23. This is in accordance with the characters 4a and 4b the region of the first angle element 16 facing away from the surface element 10 is provided with cranks 22 in the lateral regions. As the Figure 4h shows, these cranked edge regions 22 are at a distance from the facing surface of a frame spar, not shown, when the central region is applied thereto. So that the second angle element 23 is guided, the areas facing away from the surface element 10 are angled so that guide pockets 25 are formed. The first angle element 16 is associated with two holding legs 14, which are associated with the outside of the surface element 10. Between the two retaining legs 14 is a recess 19. Like the Figures 4f and 4g show, the second angle member 23 is provided with a bore 30 into which a locking screw 24 is screwed to prevent in this embodiment, the second angle member 23 against displacement relative to the first angle member 16. It results in particular from the Figures 4g and 4h in that, within the adjustment range, the second angle element 23 is infinitely variable with respect to the first angle element 16.

In order to improve the heat conduction of the holder 8, so to minimize, recesses 20 and holes 21 are provided for reducing the cross-section.

As the Figures 4b and 4c show, the first angle member 16 is equipped with four locking webs 17, 18 which describe a quadrangle, ie, the distances between the locking webs 17 and 18 correspond to the distance between two the locking grooves 7 of the frame Holmes. How the particular Figure 4c shows, the diagonally opposite latching pins 17 are formed in a straight line, while the likewise diagonally opposite latching pins 18 are angled or cranked.

After the second angle element 23 has been pushed onto the first angle element 16, according to the Figure 4e brought the first angle member 16 in an inclined position to the two parallel and spaced locking grooves 7. The locking webs 17 and 18 then enter into the grooves 7 a. Subsequently, as shown in FIG FIG. 4d the first angle member 16 is rotated counterclockwise, so that the rectilinear locking webs 17 are supported in the locking grooves 7 and the locking webs 18 are levered under the Nutstege 32, so that the holder 8 is clamped positively and non-positively fixed.

The FIGS. 5a-5c show a variant of the holder. The basic structure is the same, but the locking of the second angle element 28 takes place by latching. Thereafter, the first angle member 26 is provided with a spring tongue 27 which is formed by incisions. The movable end of the spring tongue 27 is arcuate. In the second angle element 28 a slot 29 is incorporated in a correct position, the lateral edges are toothed. In this toothing engages the arcuate end of the spring tongue 27, as shown in FIG. 5c seen. Depending on the pitch of the toothing adjustment of the second angle element 28 is now in accordance with small steps. To adjust the bent end of the spring tongue 27 must be disengaged from the teeth. The advantage of this design is that it can be dispensed with a screw 24.

The invention is not limited to the illustrated embodiments. It is advantageous, however, if the holder 8 is formed from two angle elements 16, 23, 26, and that the first, the frame spar facing angle member 16, 26 is provided with locking webs 17, 18, so that this form in locking grooves 7 of the frame profile and / or non-positively fixed. In addition, it is important that the second angle element 23, 28 is infinitely variable or in relatively small steps relative to the first angle element 16, 26 adjustable.

Claims (10)

1. Structural element of fire-resistant design, comprising a frame construction with frame members and having a planar element (10), wherein the frame members are provided with locking grooves (7) in which holders (8) are inserted for securing the planar element (10), wherein two limbs of the holder (8) engage around the planar element (10), characterized in that each holder (8) is composed of a first angle element (16), directed towards the respective frame member of the structural element, and of a second angle element (26), and in that the limb of the first angle element (16) directed towards the frame members has at least one locking web (17, 18) engaging in at least one locking groove (7) of the frame member, and in that the limb of the first angle element (16) directed towards the frame member forms a guide for the second angle element (26) adjustable with respect to the first angle element (16) and in that the second angle element (26) is steplessly adjustable, within the adjustment range, in relation to the first angle element (16) and is lockable in each position or in that the second angle element (26), within the adjustment range, is lockable by means of latching in relation to the first angle element (16).
2. Structural element according to Claim 1, characterized in that the locking webs (17, 18) of the first angle element (16) are held in the locking groove (7) in a form-fitting or force-fitting manner.
3. Structural element according to Claim 1 or 2, characterized in that a bore (30) is provided in the limb of the second angle element (26) assigned to the frame member, into which bore (30) a locking screw (24) is turned.
4. Structural element according to one or more of Claims 1 to 3, characterized in that the limb of the first angle element (16) directed towards the frame member bears with its middle area on the frame member, and in that, in order to form the guide for the second angle element (26), the lateral areas (22) are flanged such that their outer edges are spaced apart from the frame member.
5. Structural element according to Claim 4, characterized in that the second angle element (26) has lateral guide pockets (25), which engage around the outer edges of the flanged areas (22) of the first angle element (16), whereby the guide pockets (25) extend across the end area directed away from the planar element (10).
6. Structural element according to Claim 4 to 5, characterized in that each laterally flanged edge area (22) of the limb of the first angle element (16) assigned to the frame member extends across an end area that lies away from the planar element (10).
7. Structural element according to one of Claims 1 to 6, characterized in that the first angle element (16), on the side assigned to the frame member, is equipped with four locking webs (17, 18), which describe a right-angled polygon and which are arranged in the locking grooves (7) of the frame member so as to be aligned with and at a uniform distance from one another.
8. Structural element according to Claim 7, characterized in that two diagonally opposite webs (17) are formed rectilinearly, and in that the two other diagonally opposite locking webs are designed as flanged webs or angled webs (18).
9. Structural element according to one of Claims 1 to 8, characterized in that each holder (8) is locked in two locking grooves (7) of a composite profile (1), said locking grooves (7) being arranged parallel and at a distance to each other.
10. Structural element according to one of Claims 1 to 9, characterized in that the frame construction is comprised of composite profiles (1), said composite profiles being comprised of an external leaf (2) and an internal leaf (3) made from extruded aluminum sheaths which are connected to each other by means of two insulating webs (4) being made from plastic for thermal insulation.

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