SE436374B - Suspension facing in a construction - Google Patents

Abstract

The invention concerns a suspension shoulder that serves as support on the body of a building (28). The suspension shoulder consists of a hollow profile (11) of thin non-corrosive plate, e.g. stainless steel, which is filled with binding agent (12), e.g. a cement mixture, where the plate and binding agent interact so that good resistance against bending and buckling in the plate and resistance against cracking in the binding agent are achieved. Consequently, only a relatively small profile volume can be used. Several short suspension shoulders at a distance from each other are used in preference to long suspension shoulders, if so in combination with supporting beams, e.g. pre-stressed brick beams (21), which, in combination with the suspension shoulders support the building brick facades (22, 23, 24, etc) and similar.<IMAGE>

Description

a1oo2s1-1 Swedish p ans no. 7606131-6 and 770162§-3 refer partly to molds for arches over wall openings, partly to beams for supporting facade cladding and the like. They have a substantially L-shaped cross section. One of its horizontally arranged legs 4 (p. No. 7606131-6) carries bricks 10 and its other legs 2 are provided with means 7,8 for holding the beam against the wall 3 of the building body (fig. 5), provided that the beam is not carried up in another way, for example by a brick wall next to the opening (fig.-3). The sheet, which is 3_mm thick, _ galvanized, has a passivation layer, a primer and a top layer and a finished 4 m long beam weighs 9 kg (brochure_SfB Fg 2, BSAB P4, sept 79). The National Planning Agency has approved such a beam as an arch arch shape.

It has now been found in accordance with the present invention that a stronger and more corrosion-proof and cheaper device for the above. said object can be prepared by bending thin stainless steel sheet to a hollow profile and filling the hollow profile with an adhesive and leaving the sheet untreated.

The present invention thus relates to a suspension lug on a building body. A load-bearing beam, _e.g. a prestressed brick beam or support beam, is applied to the suspension lug and a wall is masonry on the supporting beam. The wall can possibly be bricked directly on the suspension lug. It is mainly masonry of brick facades on storage beams that is referred to. The invention is thus characterized by a thin sheet of a corrosion-free material formed into a hollow profile. The hole profile is filled with an adhesive. It has partly a horizontal surface, against which the supporting beam is applied resp. on which the wall is directly bricked. It has a vertical surface, which is brought into contact with the building body.

In a preferred embodiment of the invention, in the formation of the plate, the edges of the plate which extend in the axial direction are caused to overlap each other and are connected to each other and form a portion otherwise projecting from the half profile. With the help of this part, the hole profile is held firmly against the building body. The portion is provided with occupied holes for fasteners. e = 1oozs1 -1 Since the corrosion-free plate is thin, hole-shaped thick washers with high strength are attached to the front of the protruding portion of the profile during the production of the hollow process file. The fasteners press the washers, when the suspension lug is fixed in the body of the building, against the projecting portion to prevent the two layers of thin sheet metal in the area around the occupied holes from being bent by tensile stresses in the horizontal part of the hole profile.i D A particularly suitable adhesive to fill the hole profile with is a cement-bonded mortar and a particularly suitable corrosion-free sheet material for the production of the hole profile is acid-resistant steel sheet, preferably <1 mm thick. These two materials work together in the hole profile so that the steel plate's resistance to bending and buckling and the mortar's resistance to cracking under compressive load increase surprisingly sharply. A suspension lug made according to the invention, made of 1 mm steel plate (SIS 2343) with a length of 120 mm and a conventional cement mixture, was loaded with 4 tons 130 mm outside its attachment plane without breaking and thus has a very large capacity.

Thanks to the good collaboration in terms of strength between the steel sheet and the mill, a surprisingly thin steel sheet and small hole profile volume can be used, which makes a use of stainless steel sheet economically attractive. The good economy is strengthened by the fact that the sheet does not need to be surface-treated and coated in any way.

The various advantages of the suspension lug according to the present invention become particularly interesting in the following two preferred embodiments: 1) The cross section of the half profile is essentially triangular. The suspension lug is divided into a number of relatively short suspension lugs. They are attached to the wall life outside the base of the building body. Load-bearing beams, e.g. prestressed brick beams, placed on the suspension lugs and used as support for e.g. a facade cladding of bricks. As a rule, you do not see much of the suspension lugs a1oo2s1-1l and no need for measures to hide the suspension lugs - probably does not arise. 72) The cross-section of the half-profile is ~ mainly rectangular with both an upward and a downward-facing horizontal surface. The suspension lug is divided into a plurality of relatively short suspension lugs.

They are attached to the building body at the upper edge of a door or window opening. A load-bearing beam, e.g. a pre-tensioned brick beam, is applied to and attached to the downward-facing surfaces of the suspension lugs.

A wall is built with the supporting beam as a base. The masonry wall should preferably cover the suspension lugs.-Recesses are made in the bricks that are placed next to the suspension lugs. In this case, the suspension lugs do not extend as far as the outer surface of the masonry wall.

The invention will be described in more detail below with reference to the accompanying drawing, which shows some preferred embodiments of the invention: Fig. 1 shows a section through a suspension lug according to the invention in a basic embodiment. Fig. 2 shows a section through a masonry wall and a suspension lug according to the invention applied as a supporting element over a door or window opening.

Fig. 3 schematically shows a plurality of suspension lugs according to the invention applied for supporting a facade cladding to a building body. The hollow profile 1 of the suspension lattice according to the invention has a plate 1 in the position shown in fig. 1, the basic embodiment showed a substantially triangular cross-section. The hole profile is filled with a cement-bonded mortar 2. Its edges 3 and 4, which extend in the axial direction of the hole profile, have been bonded to each other when forming the plate, e.g. by means of electric spot welding. The horizontal surface 5 of the suspension lug is intended to support a load-bearing beam or possibly bricks directly and its vertical surface 6 must abut against the body of the building. a1oo2s1-1 A thick washer 7 of strong material is fixedly attached to the edge 3 of the suspension lug and by means of bolts 8 the suspension lug can be fixed in the vertical wall of a building body (not shown). The washer 7 and the edges 3 and 4 of the suspension lug must jointly have such a thickness and such strength properties that the plate edges 3 and 4 with their occupied holes do not give way and bend out when a wall wall is built up on the surface 5 of the suspension lug.

Fig. 2 shows how a suspension lug according to the invention with a substantially rectangular cross-section is used to support a prestressed brick beam 21 and a wall with stones 22-24 etc., which are allowed to rest on the mold 21. The suspension lug or several partial suspension lugs consist of it to a hole profile bent the plate 11 and a cement-bonded mill 12, with which the hole profile is filled. The two joined edges 13 and 14 of the suspension lug form a projecting portion of the same and are used to fasten it to the body of the building 28, more particularly an upper edge of a door or window opening. Bolts 18 are passed through recessed holes in the edges 13 and 14 and are fixed in the body 28 in a known manner. A washer 17 is placed between the bolt heads and the edges of the suspension lug and together the washer and the edges obtain the resistance to bending of the edges which is required with respect to the weight of the wall 21-24, etc., which rests on the suspension lug.

The brick beam 21 is mounted against the downward horizontal surface 19 of the suspension lug. A bolt 26 is passed through a vertical hole in the suspension lug and joins the reinforcement of the brick beam at 27 and thus holds it against the suspension lug. The bricks 22, 23, 24, etc. with mortar 25 form a brick wall, which rests on the brick beam 21. The stones 22 may be at least partially modified, ie shortened or given outlets, so that they can also be placed in front of the suspension lugs and hide its, if desired.

Fig. 3 schematically shows a building body with a base 31 and a web 32 with suspension lug parts 33 according to the invention, which have a triangular cross-section and are attached to the web 32. On these suspension lugs, e.g. prestressed brick beams are placed and a façade surface is built up (not shown). The distances between the suspension lug parts are not true to nature in relation to their size.

Claims (5)

-e1oozs1-1 ") P Air E N T K R A v Suspension lug, intended to be fastened by means of fastening means to a building body, against which suspension lug a load-bearing beam is applied, on which beam a wall is bricked, or on which suspension lug a wall is bricked directly, for example when masonry of brick facades, a thin sheet (1) of corrosion-free material formed into a half-profile fi l), which half-profile is filled with a binder (2) and has a horizontal surface (5), against which the supporting beam is applied resp. . on which the wall is directly masonry, and a vertical surface (6), which is brought into abutment against the building body, by the fact that the edges of the half-profile 11) extending in axial direction during the formation of the plate (1) have been brought to overlap and be connected to each other and form a portion projecting from the hollow profile, by means of which the hollow profile is held firmly against the building body and which is provided with raised holes for fastening means (8), and of hollow-mounted washers (7) at the front of the projecting portion of the hollow profile, which washers fasten the fastening means (8) to the unsupported portion (3,4) when the suspension lug is attached to the building body in order to prevent the thin sheet metal layers (3,4) the occupied holes are bent by tensile stresses. Suspension lug according to Claim 1, characterized in that the adhesive (2) is a cement-bonded mortar. Suspension lug according to claim 1 or É, 'k ä'n - n e t e c k n a d- in that the plate (l) consists of stainless steel, preferably <1 mm thick. Suspension latch according to one of Claims 1 to 3, characterized in that the cross section of the half-profile is substantially triangular, that a plurality of relatively short such suspension lugs (33) are fastened to the base of the building body (31, 32) or similar, and that the load-bearing beam or beams supported by the suspension lugs serve as support for a masonry wall in front of the building body. 8100251 '1 Suspension lug according to one of Claims 1 to 3, characterized in that the cross section of the half-profile (11) is substantially rectangular, that the suspension lug (II) has both an upward and a downwardly directed horizontal surface (1s, 19). , a plurality of shortened such suspension lugs (II) are attached to the body of the building at the upper edge of a door or window opening (28), that a supporting beam (Z1) is applied to and attached to the downward horizontal surfaces (19) of the suspension lugs and that a wall (22-24osv) is masonry with the Gen-bearing beam (21) as a support, the masonry wall preferably having to cover the suspension lugs.