WO1993016249A1 - Panel supporting building structure - Google Patents

Abstract

Building structure supporting glass panels and comprising main profiles and perpendicularly thereto extending transverse bars, said profiles comprising extruded aluminium tubes of quadrangular cross-section and provided with drainage channels placed on the upper wall of the quadrangular profile, said channels being defined by upstanding flanges with grooves for sealing lists and an anchoring rib placed in the middle, the transverse bars being connected with the main profiles in such a way that the upper wall of the transverse bars overlaps the vertical flanges on the main profile for discharging liquid from the drainage channels of the transverse bars into the drainage channels of the main profile. To improve drainage of leak water and reduce its possibilities by capillary action to leak out of the drainage channels, the drainage channels of the main profiles have a bottom inclining inwards towards the anchoring rib.

Description

PANEL SUPPORTING BUILDING STRUCTURE

The present invention relates to a building structure supporting glass panels and comprising main profiles and perpendicularly thereto extending transverse bars, said pro¬ files comprising extruded aluminium tubes of quadrangular cross-section and provided with drainage channels placed on the upper wall of the quadrangular profile, said channels being defined by upstanding flanges with grooves for sealing lists and an anchoring rib placed in the middle, the trans¬ verse bars being connected with the main profiles in such a way that the upper wall of the transverse bars overlaps the vertical flanges on the main profile for discharging liquid from the drainage channels of the transverse bars into the drainage channels of the main profile.

In building structures of the type mentioned drainage channels are required for draining off condensed water and rain, which has penetrated through smaller leakages between the glass panels and the building structure. Known structu- res, for instance disclosed in EP-A-162 227, therefore com¬ prise a system of drainage channels in the transverse bars with drainage into the drainage channels of the main profi¬ les, which in turn have an outlet on the outer side of the structure. Even though the drainage seems to be correctly de¬ signed, water may appear in undesirable places. Apparently a capillary effect may occur or evaporation with subsequent condensation within the volume of the comparatively narrow channels. The object of the invention is to eliminate or at last reduce these drawbacks.

According to the invention this object is met in that the structure is characteristic by the subject matter of the characterizing clause of claim 1. The inclining bottom will lead the drain water to¬ wards the middle of the profile in such a way that the water is collected here in a narrower, but more quickly flowing stream. The bottom is inclining inwardly in order to lead the drain water towards the coldest part of the profile, where the evaporation will be the least. Simultaneously with a quicker draiing off of drain water, which in itself redu¬ ces the possibility of evaporation, the evaporation is re- duced on account of the generallly lower temperature at the middle of the main profile. Furthermore, the drain water is kept away from the areas, in which chinks may occur, which may bring about a capillary action.

It is preferred to design the main profile as stated in claim 2, whereby, on account of the increased thickness of the material, also an effective reinforcement of the pro¬ file is attained.

With the purpose of leading the drain water from the transverse bars directly down towards the middle part of the drainage channels of the main profile, the transverse bars are designed as stated in claim 3. The drips effectively prevent the drain water from running back along the surface of the transverse bar, where it might penetrate into chinks at the jointing between the transverse bar and the main pro- file and bring about a leakage on account of capillarity or wick effect. A particularly advantageous way of designing the drips is stated in claim 4.

It is generally advantageous to design the building structure with throughgoing framework in the transverse di- rection of the structure, where the main profiles are as¬ sembled by means of butt joints. According to the invention the thickest part of the upper wall serves as a support for an interior fish plate placed in the main profile at the butt joints. It is preferable that the butt joints comprise two fish plates mounted with intermediate layers of resilient material in the profiles.

According to a particularly advantageous embodiment according to the invention, the intermediate layer forms a lower delimitation of a chamber placed below the butt joints of the upper wall. This chamber may be useful, when a seal¬ ing compound is pressed into it, in providing a very safe sealing against the penetration of drain water into the in- terior of the profile.

The invention will be described in detail in the fol¬ lowing with reference to the drawing, in which

Fig. 1 is a cross section and a longitudinal section of main profile and transverse bar, respectively,

Fig. 2 is a perspective view of a butt joint with two transverse bars connected and with a cut illustrating the sealing chamber.

Fig. 1 shows a cross section through a main profile l connected with a transverse bar 2, which is shown in a lon¬ gitudinal view. The main profile and the transverse bar are designed as a quadrangular profile tube distinguishing it¬ self by having a big bending strength. The main profile has a lower wall 3 and an upper wall 4 as well as two side walls .5. In extension of the side walls 5 there are on the upper, wall two upstanding flanges 6 provided with a groove 7 for sealing lists 8. Along the middle of the upper wall 4 an upstanding anchoring rib 9 is provided, said rib serving for the fastening of screws for securing a covering list 10. Between the upstanding flanges and the anchoring rib two drainage channels 11 are provided for draining off water which may have penetrated through leakages, if any, or which has occured in the structure on account of condensation of humidity in the air. There is a considerable likelihood that condensation of air humidity may occur, for the preferred material for the main profiles and the bar profiles 1,2 is aluminium, which is a good heat conductor. Water, if any, which may have penetrated into the drainage channels 11, will be conveyed into the area close to the anchoring rib 9 on account of the inclining surface of the bottom 12 of the drainage channel. It is preferable to establish the inclin¬ ing bottom by increasing the wall thickness of the upper wall towards the edge flanges 6. The increased wall thick¬ ness contributes to giving the main profile a big•resistance moment against downwards bending due to a load coming from above. By leading the drain water towards the middle of the upper wall, the water collects in a stronger flow, which will be more quickly drained off, and the water gathers in the coldest area of the upper wall, where evaporation, if any, will be the least. It is important to reduce re-evapo¬ ration, as in connection therewith an effective heat trans¬ mission from a warmer part towards a colder one occurs. The transverse bars 2 are likewise tubes with a quad¬ rangular profile. Fig. 1 is a sectional view of a bar profi¬ le with a lower wall 14, an upper wall 15 and side walls 16. The upper wall is along the side edges provided with grooves for sealing lists 18. Along the middle of the upper wall of the transverse bars an anchoring rib (see Fig. 2) is pro¬ vided like on the main profile. The upper edges of the seal¬ ing lists on the main profiles and on the transverse bars are positioned in the same plane and therefore form a plane support for a glass panel 19, which is from the upper side secured by the covering list 10 and corresponding covering lists on the transverse bars 2.

The transverse bars are fastened to the main profiles by means of fittings 20 bolted to the main profiles and en¬ tered into the transverse bars 20. For the securing screws or blind fasteners may also be used. Opposite the transverse bars 2 the sealing lists 8 are discontinued on the main pro¬ file. Furthermore, the transverse bar profile has been re¬ leased of trip gear, its upper wall extending completely over and past the groove for the sealing list on the main profile. A projecting flap is provided thereby, which for the formation of a drip is bent downwards. It is advanta¬ geous that the drip conveys possible leak water completely into the area, in which the transport of liquid in the drainage channel 11 takes place. The drip effectively pre- vents drain water from being conveyed backwards along the under side of the flap on account of adherence to the upper wall of the transverse bar and into the area, in which the sealing between the main profile and transverse bar is posi¬ tioned. The sectional view of the main profile shown in Fig. 1 is made close to a butt joint thereof. Butt joints are used partly for assembling at angles several profiles at the purlin or eaves of roofs, partly for extension of rectili- nearly running profiles. Butt joints are reinforced by means of interior fish plates 22, resting partly against the lower wall of the main profile and partly against the thickened part of the upper wall. The thickening serves in this con- nection effectively as reinforcement for absorbing the for¬ ces transmitted from the fish plates. It is preferable that two fish plates with intermediate layers of a form body 23 consisting of a hard, resilient foam material are provided, said body being opposite the jointing in the upper wall pro- vided with a recess, which may form the walls of a chamber to be filled with sealing mastic 24. The sealing mastic may be pressed in through small holes in the side walls of the quadrangular tubes.

Fig. 2 is a diagonal view of the jointing between two main profiles 1,1' at a purlin and the jointing between the main profiles and two transverse bars 2,2'. In the butt joint between the two main profiles depicted a cut 26 has been made which shows how the chamber to be filled with sealing mastic 27 may be established. The chamber is, as will be seen, provided by cutting away part of the fish plates 22 and the form body 23.

Claims

C L A I M S

1. Building structure supporting glass panels and com¬ prising main profiles and perpendicularly thereto extending transverse bars, said profiles comprising extruded aluminium tubes of quadrangular cross-section and provided with drainage channels placed on the upper wall of the quadrangu¬ lar profile, said channels being defined by upstanding flanges with grooves for sealing lists and an anchoring rib placed in the middle, the transverse bars being connected with the main profiles in such a way that the upper wall of the transverse bars overlaps the vertical flanges on the main profile for discharging liquid from the drainage chan¬ nels of the transverse bars into the drainage channels of the main profile, c h a r a c t e r i z e d in that the drainage channels of the main profiles have a bottom inclining inwards towards the anchoring rib.

2. Building structure according to claim 1, c h a r a c t e r i z e d in that the upper wall of the quadrangular profile of the main profile is of varying thickness, the inner surface of the upper wall being essen¬ tially plane, while the wall thickness is biggest at the up¬ standing flanges.

3. Building structure according to claim 1 or 3, c h a r a c t e r i z e d in that the transverse bars are provided with a drip directed towards the inner part of the drainage channels of the main profile.

4. Building structure according to claim 3, c h a r a c t e r i z e d in that the drip is a downwardly bent part of the upper wall of the transverse bars.

5. Building structure according to claims 1, 2, 3, or 4, in which the main profiles are assembled by means of butt joints for the formation of throughgoing frameworks in the transverse direction of the structure, c h a r a c t e r i z e d in that the thickest section of the upper wall is adapted to support an interior fish plate placed in the main profiles at the butt joints.

6. Building structure according to claim 5, c h a r a c t e r i z e d in that the butt joints comprise two fish plates mounted with intermediate layers of resili¬ ent material in the profiles.

7. Building structure according to claim 1, c h a r a c t e r i z e d in the intermediate layers en¬ circle a chamber placed under the butt joint at the upper wall.