DE2033737A1 - Non-load-bearing fire protection wall - Google Patents

Description

Non-load-bearing fire protection wall The invention relates to a non-load-bearing one Fire protection wall with at least two opposite edges is attached to other components.

Non-load-bearing fire protection walls that do not fulfill any static tasks but only have to serve to subdivide and close off rooms not only have sound, heat and fire retardant properties, but also one Have sufficient stability to be stable.

While the stability of load-bearing walls is a sufficient A non-load-bearing partition wall fulfills this requirement, which is almost always required to be thick the tasks assigned to her with a suitable choice of materials are often very small thicknesses. However, depending on the height and length of the wall, the overall stability is often unsatisfactory.

The object of the invention is to improve the overall stability of thin, non-structural Fire walls while maintaining their heat and sound insulating and fire retardant Increase properties without increasing the thickness of the grand.

This object is achieved with the invention in that the wall Put under tensile stress at least at individual points and on the other components is anchored.

This configuration has the advantage that the wall panel also with a very small thickness of only about 5 cm, even with a large area a high one Stability is achieved because it is like a membrane under tension on the floor slabs and / or load-bearing walls or supports is clamped onto these can also be quiet a very thin wall perpendicular to its plane without any significant forces Resist deformation.

According to the invention, the non-load-bearing fire barrier preferably consists from several, prefabricated wall construction panelsR those at their abutting edges Show grooves9 in which a tongue is inserted, which with both ends under Tensile stress is anchored on the other components.

This training has the advantage that to build the non-load-bearing Wall commercially available wall construction panels can be used. Nevertheless, the from these wall panels built up by the as tension straps between the adjoining Components tensioned springs provide a high level of stability.

At the same time, the construction of the wall is particularly easy.

The spring can be formed from a strip of non-combustible material which is reinforced with sheet metal strips. The strips of sheet steel or a other tensile material take over the tensile stresses exerted on the spring, while the material of the bar itself ensures a fireproof covering of the butt joint cares.

The spring can consist of several lamellas and the sheet metal strips can between the slats and at least two opposite one another Be arranged on the outside of the spring. Such a training allows an easy one Connection of the anchoring means to the spring and ensures a perfect Introduction of force into the bar even if the bar itself does not have any has high inherent strength.

Order the slats as well as the wall panels expediently the end Asbestos silicate and are glued and / or screwed to the sheet metal strips. on In this way, springs of almost any length can be used for wall stiffening, which can be subjected to tensile stress be made, the asbestos silicate strips appropriately offset in the joints to be ordered. An anchoring device is attached to at least one end of the spring arranged with jig. The spring can then be positioned opposite one another Components, such as the floor slabs attached and placed under tensile stress will.

T-head bolts are expediently used as tensioning and anchoring means used, which are attached to the adjacent components in rails with C-profile intervene and clamp them by means of screw bolts and nuts via profile pieces the ends of the springs are connected. The assembly of the partition according to the invention This makes it very easy, since the anchoring means are easy to insert and the spring attached to them transversely to their longitudinal axis even after installation iam, 1, wil put them in the correct position to} ringeii.

The wall panels expediently point in the area of the clamping devices Openings that are covered by baseboards or itancileists. Through this it is possible to adjust the tension of the springs after the wall has been assembled to change and thereby tighten the wall. Of course this possibility also exists if the tensioning and anchoring means are attached to the Wall panels are attached themselves.

The invention is illustrated in greater detail by means of the drawing of exemplary embodiments explained. It shows: FIG. 1 a partial view of one of two prefabricated wall panels manufactured partition according to the invention, Fig. 2 the object of Fig. 1 in a vertical cross-section along the line II-II, with the middle part of the wall is omitted, Fig. 3 the object of Fig. 1 in a horizontal partial cross-section, FIG. 4 is a view of the junction from FIG. four clashing blocks, Fig. 5 shows another embodiment of the partition wall according to the invention in one horizontal partial section and FIG. 6 the ceiling connection of the partition wall after the other Embodiment according to FIG. 5 partly in an end view and partly in Cut.

The non-load-bearing fire protection wall 10 shown in FIG. 1 consists made of prefabricated wall construction panels 11, which have a frame construction made of asbestos allicate strips 12 have, which are covered on both sides with asbestos silicate plates 13.

The wall panels 11 have on their edges grooves 14, in each a spring 15 is inserted, which abutting wall panels 11 on their Edges connects together, the spring 15 is formed by a bar that consists of several lamellas 15a and 15b made of asbestos silicate strips. Between A sheet steel strip 16 is arranged for lamellas 15a and 15b. Besides, the Bar 15 on two opposite outer sides with sheet steel strips 17 covered, which like the sheet steel strip 16 with the lamellae 15a and 15b glued with a non-flammable adhesive and screwed with self-tapping screws 18 are. The sheet metal screws 18 screwed in from the outside are so long that they engage in the middle sheet steel strip 16. The one between the metal strips 16 and 17 lying slats 15a and 15b made of asbestos silicate can be at different Bumped in places, as indicated by the joints 19.

The vertical spring 15 shown in Fig. 2 is with its upper End connected to the ceiling indicated by 20. To this end are the outer sheet steel strips 17 extended beyond the lamellae 15a and 15b and on theirs upper ends bent inwards so that they meet each other overlap. The overlapping ends 21 and 22 are provided with a bore 23 provided through which the anchoring device 24 is inserted, which is formed by a threaded rod with a screwed-on threaded plate 25, which the overlapping ends 21 and 22 of the sheet metal strips 17 engages behind. A second threaded plate 26 is screwed onto the other end of the threaded rod .24, which engages in a rail 27 with a C-profile which is attached to the floor ceiling 20 is. The whole anchoring is then covered laterally by edge strips 28, which on the wall panels 11 and a strip 29 covering the rail 27 on the top side made of fire-resistant material.

A screw bolt 31 is attached to the lower end 30 of the spring 15 a profile steel angle 32 is screwed on. A hammer head screw 33 passes through a Bore of the short leg 32b of the profile steel angle and is with its head 33a anchored in a C-shaped retaining rail 27, which in turn is attached to the lower floor 34 is attached. Two grooves 33b screwed onto the hammer head screw 33 allow the strip-shaped spring 15 to be tensioned in its longitudinal direction and to lock in the tensioned state. As a result, the spring can be subjected to tensile stress be granted.

The tensioning and anchoring device 32 and 33, which by recesses 35 is accessible in the cover plates 13, is laterally covered by baseboards 36, which, like the wall components themselves, can also be made of asbestos silicate to be able to produce high walls from smaller panels9 there is the possibility of to put two or more panels on top of each other and in the butt joint one of the vertical ones Tension spring 15 analog horizontal tension spring 37 to be arranged (Fig0 3) 0 of one Pieces or lamellas consisting of asbestos silicate core is then in the area of the intersection interrupted with the vertical SpenSeder 15. Strip the side sheet steel 38 of the horizontal tension spring 37, however, run over the sheet steel strips 17 of the vertical tension spring away9 so that a tensile connection of the on both sides the vertical tension spring arranged horizontal tension spring is given. aside from that can the horizontal tension spring 37 in the same or a similar way as the vertical Spring 15 on other components, for example a load-bearing wall or a building support, be anchored and prestressed.

In the embodiment shown in FIGS the sheet metal strips 16 and 17 between the individual slats 15ap l5b and l5c and on both sides of the span of FIG. 15 not parallel to the plane of the wall building panel, but rather perpendicular to O The anchoring and tensioning device exists in also here from T-head bolts 33, the C-shaped support rails embedded in the ceiling 27 engage and are fastened to angle profile pieces 32, which in turn are screwed to one end of the tension spring 15.

The invention is not restricted to the exemplary embodiment.

For example, it is also possible to use the wall panels themselves To provide tensioning and anchoring devices and the wall panels under tension to put. Instead of the sheet metal strips, other reinforcement means can also be provided to give the tension spring sufficient tensile strength.

It is also possible to use other anchoring and clamping devices, such as to provide turnbuckles to the springs or plates to generate the desired tensile stress.

Claims (8)

P a t e n t a n s p r u c h e 1. Non-load-bearing fire protection wall9 with at least two of each other opposite edges is attached to other components, characterized in that that the wall (10) is placed under tensile stress at least at individual points (15, 37) and is anchored to the other components (20, 34). 2. Wall according to claim 1, characterized by several wall panels (11) which have grooves (14) on their abutting edges9 in one Spring (15) is inserted9 which at both ends (30) under tension the other components (20, 34) is anchored. 3. Wall according to claim 1 or 2, characterized in that characterized in that the spring (15) consists of a strip of non-combustible material is formed, which is made with sheet metal strips (16, 17 or 38) is reinforced. 4. Wall according to one of claims 1 to 3, characterized gekennzeicha net, that the spring (15, 37) consists of several lamellae (15a, 15b, 15c) and that the Sheet metal strips (16, 17) between the slats (15a, 15b, 15c) and on at least two opposing outer layers of the spring (15) are arranged. 5. Wall according to one of claims 1 to 4, characterized in that that the springs or their lamellas (15a, 15b, 15c, 37) as well as the 11andbauplatten (Test stand made of asbestos silicate and glued to the sheet metal strips (16, 17, 38) and / or are screwed. 6. Wall according to one of claims 1 to 5, characterized in that that at least one end (30) of the spring (152 37) an anchoring device (27) is arranged with clamping device (33). 7. Wall according to one of claims 1 to 69, characterized in that that the tensioning and anchoring means (33) - are T-head bolts, which in Engage rails (27) with C-profile attached to the adjacent components g20p 34) and can be tensioned by means of screw bolts (31) and nuts (33b) via profile pieces (32) are connected to the ends (30) of the springs (15, 37). 8. Wall according to one of claims 1 to 7, characterized in that that the wall panels (11) in the area of the Spannvorricl) ungen (33) recesses (35) which are covered by baseboards (36) or edge strips (28).