NO133241B - - Google Patents

Description

The present invention relates to a device for connecting two mutually parallel and spaced apart profile strips, as described in the introduction to claim 1.

A number of connections between building parts, especially metal ones, are exposed to a high temperature drop. Thus, e.g. modern windows of composite profiles, which consist of one facing the outside air and one facing the indoor air. profile part, , _ . , . , . veined profile part/ in that these two parts are connected via connecting means of a material with low thermal conductivity, e.g. plastic. The same insulation problem exists with steel structures in high-rise buildings, e.g. in the case of a steel frame where flat steel profiles end

in line with the house's outer wall, must be firmly connected to a metal profile running in the wall or along the inside of the wall.

It is previously known to glue the plastic connecting elements together with the profile parts. In this way, however, no sufficient and lasting durability can be achieved. It is also known to connect the plastic members to the profile parts by toothing. Sufficiently solid connections cannot be achieved in this way either. In the case of light metal profiles, attempts have subsequently been made to increase the strength of the connection by local deformation of the profiles. However, apart from the necessary labor consumption, the profile parts can be weakened in this way in an undesirable way.

The invention has the task of providing connections between such profile parts, which have great strength and good thermal insulation and which can be produced in a simple and affordable way.

According to the invention, this can be achieved using a device as described in patent claim 1.

Such a formed connection cannot then be detached. The two connected building bodies, together with the usually elongated connecting elements made of plastic, form a bending and torsionally rigid building part of high strength and with a large moment of inertia. A finely blistered, strongly adhesive plastic foam, e.g. of the polyurethane type. The introduction of the foam takes place appropriately under overpressure of approx. 2 ato.

In addition to being used in windows and doors arranged in the outer wall of buildings, the device according to the invention is also suitable as insert bodies in the outer walls of buildings, e.g. like posts in the walls of high-rise buildings. Furthermore, the invention can be used for particularly light beams, posts and the like, which, in addition to being building elements in buildings, can also be used as framing frames for relatively large and heavy glass plates, e.g. insulating glass, in the outer wall of buildings. Such strips run in the outer wall of buildings preferably within the window front between two windows vertically from storey ceiling to storey ceiling.

Such building bodies or profiles for large and heavy windows

should have a relatively low weight, and furthermore they should be designed to be rigid in bending and, above all, resistant to buckling loads.

As these struggle for reasons of firmness, they must mainly consist of profiled metal or even of profiled thin-walled steel, precautions must also be taken to ensure that temperature equalization between the outer and inner sides cannot take place as far as possible. While retaining the basic idea of the invention, in this case it has proved appropriate to make the profile part facing the outside of the wall with the connected strip-shaped connecting member entirely of plastic and in one piece.

Further features of the invention will appear from the subclaims. The invention is also described in more detail in the following with reference to the exemplary embodiments shown in the drawings, where fig. 1 shows in cross-section two metal profiles, which are firmly connected by means of a strip-shaped member of a material with low thermal conductivity, fig. 2 shows the metal profiles according to fig. 1 with a connecting piece united in a different way, fig. 3 and 3a show connecting pieces with closed filling or foam chambers and with split, mutually overlapping walls in the area for anchoring protrusions,

fig. 4 and 4a show connecting means with a closed filling chamber, fig. 5 shows a cross-section through two connected window frames,

where each frame is divided in the window plane. The outer and the inner frame parts are firmly connected by insulating and

connecting means with low thermal conductivity. At the two window frame parts (right side) there are special anchorages that protrude into the filling chamber of the connecting piece; fig. 6 shows an open connecting piece in the area of the anchoring protrusions with conically tapering filling chamber walls that are tightened against the contact rafts of the metal parts, fig. 7 shows a drawing of a roof profile in a window frame, fig. 8 and 9 show a section A-A resp. B-B through the window frame according to fig. 7 on an enlarged scale, and fig. 10 and 11 show a profile section running on the outer wall side or a flat cover profile made of sheet steel that can be pushed on or pressed onto this profile part.

The profile 1 made of light metal is connected to the profile 2 also made of light metal by connecting a hollow connecting member 3 made of relatively hard plastic. The elongated profile 3 made of plastic grips with its contact surfaces at arranged protrusions 4 behind similarly shaped protrusions or grooves on the profile 1 and the profile 2. In order to be able to recess these plastic bodies using a transverse suspension in these protrusions, the two wall parts 5 and 6 of this hollow connecting piece are connected in the middle with an intermediate strip 7 of soft plastic. This intermediate strip has the property that it can yield springily. By precise adaptation, the protrusions can be bent into the grooves or protrusions on the two profile bodies 1 and 2. When it has been ascertained that the two metal profile bodies are aligned in the correct position in relation to each other, the hollow plastic body, whose wall-shaped intermediate strip 7 is filled has an opening, under pressure with a relatively fast hardening plastic skin 9. This plastic skin, which is preferably produced from a plastic mass from the polyurethane group, has the property that it is intimately connected to adjacent building parts with a good adhesion as a result.

In the design example in fig. 2, the intermediate strip 10, which likewise has an opening 8, is made of solid material, so that the two outer walls 5 and 6 of the connecting piece 3 together with the intermediate strip form a unit. According to this example, for the protruding beads or protrusions to be recessed into the designed grooves in the metal profiles, it is necessary to press together the branch ends facing the metal profiles during material rebound, whereby the intermediate strip 10 consisting of solid material does not yield. Also in this example, the inner space is filled, i.e. the connecting piece's filling chamber, in connection with the correct connection of the two profiles, so that the possibility of springing back of the anchoring protrusions is excluded. Also in this example, the filling mass is intimately connected to the construction rafts of the adjacent profiles 1 and 2, which in the area of the grooves and protrusions form flat construction surfaces.

In the design example according to fig. 3 and 3a, it is likewise about, by means of transverse suspension in adjacent grooves in the profiles, concave connection members. In this example, it has been shown that the flat contact surfaces on the counter-profiles, which do not always occur, may require a special design for the connecting member in order for a closed filling chamber for the foam to be formed. The connecting member is therefore produced on both sides in the area of the anchoring members with a yielding overlapped wall 11, so that transverse springing can take place, as can be seen from fig. 3a, whereby the through-piercing intermediate strip can be regarded as a non-yielding counter-hold.

In the design example according to fig. 4 and 4a, the connecting piece with regard to the selected cross-section is designed as a closed chamber. The walls 12 and 13 in the area of the anchoring zones are made thinner than the walls 5 and 6; In the compression in the direction of the arrow according to

fig. 4a, the wall 12 bends somewhat inwards, whereby however this

At the same time, the wall can be considered as a suspension system for the squatters

freiospting. In connection with this, as in the previous embodiments, the filling chamber is filled with hardenable foam, whereby the wall 12 is almost completely straightened. It has been shown that polyurethane foam leads to a small increase in volume of the chamber by vaulting the yielding chamber walls. This prestressing has a beneficial effect in that the pressure during the hardening of the foam material is somewhat reduced, while a disengagement of the mechanically connected protrusions does not occur due to an insignificant shrinkage.

In the design example according to fig. 5 is shown by profiled window frames made of light metal, which during connection of a plastic made cold- or thermal bridges are firmly connected to each other. The metal profiles used can, as shown on the right side of fig. 5, have T-shaped anchoring means 14. These means of T-shaped cross-section extend on slow sides into the filling chamber in the connection means intended for filling with foam, whereby the hardening filling compound is intimately connected to the construction rafts of metal

the profiles.

At least one of the profiles used has a rectangular, elongated cavity, the end sides of which branch to the anchoring means for the connecting piece. These rectangular chambers in the profiles form, as box girders 15, 16, particularly flexurally rigid and torsionally rigid connections, which, together with the connected connecting means, provide particularly good holding strength for the window frame, especially for the movable window half.

The design example in fig. 6 shows, in an enlarged and perspective view, a connecting member with cross-spring anchoring branches for use together with smooth contact surfaces of the metal profiles in the anchoring zones. The inner walls of the filling chamber in the connector taper towards the adjacent metal parts, i.e. the inner chamber walls are set narrower in the anchoring zone than in the middle.

The device and the embodiment according to the invention of the described connecting means are not limited to the examples of embodiment shown. The connecting means are, on the contrary, applicable everywhere where similar or almost similar conditions exist. This is, for example, the case when two-part struts or posts are arranged in the building's outer walls, which are flexurally rigid over a sufficient length and are firmly connected to each other while simultaneously insulating against undesirable temperature equalization.

In fig. 7-11 show buckling and bending resistant frame profiles for heavy window panes. The same profiles can also be used as supports for other purposes. The profile part 21 made of metal or steel mainly consists of a box girder with the usual stop strips in a window. The profile 22 made of plastic has two branches 23 projecting in the direction of the profile part 21, which with edge projections 24 engage springily in corresponding grooves in the profile 21. After joining the two profile parts, the transverse spring property of the branches 23 is canceled by injecting hardenable plastic 25 through hole 26 in the foam chamber, so that an unwanted disconnection of the anchoring protrusions cannot occur.

A decoupling of the two profile parts can, however, also be prevented by a steel roof profile 25, e.g. of stainless steel, while enclosing the two edges 28 and 29 of the plastic profile are pushed on or pressed on.

In the execution of the plastic strip 22 according to fig. 10 shows that the edge 28 of this profile has a chamfer 32, which causes the roof profile

27, when it already encloses the edge 29, can be pressed across the longitudinal extent of the profile body, as the plastic yields springily. To block the spring action of the plastic branches, it is sufficient that the roof profile 2 7 lies closely against the outside of the plastic profile and encloses the edges of this plastic profile. However, it is better if there is a negligible bias.

The design of the profile as a whole, i.e. the connection of the partial profile 21 and the partial profile 22, has been chosen so that for the insertion and for fixing of a relatively heavy insulating glass plate 30 using sealant 31, a frame-shaped frame profile is created, such as shown in cross-section in the drawing.

In the design example according to fig. 10, the flat side of the profile 22 is pushed somewhat outwards across the longitudinal direction of this "•"' profile, so that when the flat roof profile 27 is placed

the edges 28 and 29 of the plastic profile are bent back in one plane, whereby the two branches 23 with their edge projections 24 are fixed into the longitudinal grooves in the root profile and are thereby prevented from undesired disengagement.

A joining of the roof profile with the plastic profile should be avoided,

as the two bodies consist of materials with different coefficients of expansion.

Claims (11)

1. Device for connecting two mutually parallel and spaced apart profile strips which have undercut grooves on their connecting sides, with at least one hollow connecting member made of a material with lower thermal conductivity, which has two connecting steps which in the connection position cross the joint between the profile strips and engages in the grooves and which are provided with projections that can slide springily into the undercuts in the profile strips, characterized by the fact that a hardenable filler (9) is introduced into the cavity of the latched connector (3) which cancels the spring effect. 2. Device in accordance with claim 1, characterized in that the filling mass (9) is a fine-pored, strongly adhesive plastic foam, e.g. polyurethane. 3. Device in accordance with claim 1, characterized in that in each of the profile strips (1,2) grooves are arranged bodies (14) with a T-shaped cross-section, which project into the filling mass (9). 4. Device in accordance with claim 1 or 2, with an H-shaped connecting member in cross-section, characterized in that on the ends of the connecting steps (5,6) which carry the projections (4) there are aligned, overlapping strips (11 ). 5. Device in accordance with claim or 2, with a cross step which is arranged between two connecting steps on the connecting member, characterized in that the cross steps (12,13) are designed curved towards the connecting member's cavity. 6. Device in accordance with claim 1 or 2, with a connecting member which has an H-shaped cross-section, characterized in that the connecting step is provided with one or more openings (8, fig. 3). 7. Device in accordance with claim 1, consisting of a metal profile strip and a plastic profile strip, with which the connecting member is connected in the material, characterized in that the distance from the outside of the two mutually assigned connecting steps (23) in the direction towards the profile strip (21) decreases and the connecting steps (23) in the front part each have a protruding locking nose (24), and that the distance to the mutually facing insides of the corresponding metallic motor rails in the direction of the plastic profile strip (22) increases, as these motor rails each have their own groove within this funnel-shaped extension, in which the snap noses (24) are snapped (fig. 9). 8. Device in accordance with claim 1, characterized in that at least one of the two building elements to be connected has a hollow, elongated projection (15,16) perpendicular to the cross-section, with receiving notches for the connecting piece, so that the hollow projection forms a bending and a torsionally rigid box carrier which, in the miter angles of window frames, simultaneously accommodates the ends of angle pieces in a known manner (fig. 3). 9. Device in accordance with claim 1, characterized in that the plastic profile is curved slightly outwards across its extension, so that it is held tightly clamped in the straight and flat profile (27) of stainless steel (fig. 8 and 9 ). 10. Device in accordance with claim 9, characterized in that at least one edge (28) of the plastic profile (22) has a chamfer (32) and the steel profile (27) can be attached across the longitudinal direction of the profile (22) to this by means of the self-suspension to the material in the weakened edge. 11. Device in accordance with claim 1, characterized in that instead of a plastic filling (25), a flat cover profile (27) is placed on the plane side of the plastic profile (22), with the edges (28,29) of this profile being gripped (fig. 8).