EP0414105A1 - Drainage device, specially for inclined glazing and glazed roof - Google Patents

Abstract

In a drainage device, specially for inclined glazing and glazed roofs constructed using mullions and transoms, there are arranged vertical and horizontal sealing profiles (2, 17) which, with sealing lips (15, 28) arranged on their inner edges, lie sealingly against infilling elements. The vertical sealing profiles (2) are arranged to extend over the entire vertical length of the construction and have at least one discharge channel running parallel to the centre line. The horizontal sealing profiles (17) likewise have a discharge channel (20) at their edge located at the top in the installed state, so that water collected in this channel is led away at the crossing points into the vertically extending sealing profiles and from these towards the outside. <IMAGE>

Description

The present invention relates to a device for drainage, in particular of sloping and roof glazing, which are constructed in a known mullion and transom construction, and wherein orthogonally running sealing profiles with sealing lips arranged on inner edges lie sealingly against infill elements.

Sloping and roof glazing, which are made in post and beam construction, are known per se. A construction made of mullions and transoms is built up and infill elements are used with sealing profiles that can be braced against each other, for example, by means of screws that can be inserted into screw channels.

The particular problem with such constructions is, on the one hand, that there is sufficient sealing in the area of the crossing points between the horizontal and vertical plane sealing profiles as well as in the safe discharge of water that has entered or formed by condensation. In particular, there is a problem in the sufficient sealing of the areas provided for the drainage at the crossing points in order to avoid unnecessary distribution of the water to be drained off.

Various solutions are known for solving these problems, for example the arrangement of drainage channels running in the profiles with outlet openings and the like. A satisfactory drainage and prevention of water distribution or fogging by condensation is practically unknown. Another disadvantage of the systems with outward-opening drainage channels is that wind forces can push back the water to be drained off or rainwater can push into the rebate areas of the filler elements from the outside, so that drainage does not take place or even the opposite effect is achieved.

The invention is therefore based on the object of providing a device for drainage, in particular of sloping and roof glazing, according to the generic term, which does not have the aforementioned disadvantages and through which adequate sealing and reliable drainage of water both from the fold area of the infill elements and also condensation is guaranteed.

The above object is achieved by the characterizing features of patent claim 1.

In an advantageous embodiment of the present invention, it is proposed to form at least one drainage channel running parallel to the axis of symmetry on the sealing profiles running in vertical planes and to arrange these sealing profiles continuously over the entire vertical length of the construction. In addition, those in ho sealing profiles running in horizontal planes to the sealing profiles running in vertical planes, at least one opening being arranged in the sealing profiles running in vertical planes at the connection points. Thus, for example, water formed by condensation and collected on the sealing profiles running in horizontal planes can advantageously also be drained off through the sealing profiles running in vertical planes. Since the drainage channels do not have a connection to the outside of the structure, but rather drain the water inside the mullion-transom structure, the problem described above does not arise due to wind forces.

Advantageously, it can be provided that the sealing profiles overlap in the intersection area, such that the sealing profiles overlap in the intersection area, such that the horizontal sealing profiles buttly connect to the vertical sealing profiles and at least the horizontal sealing lip lips engage positively in cutouts of the vertical sealing lips, wherein at least the horizontal sealing lips are brought up to the vertical drainage channels.

In a further advantageous embodiment of the present invention, it is proposed to arrange a central web on the sealing profiles, so that screw channels arranged in the axis of symmetry are generally covered in a sealing manner.

In a further advantageous embodiment of the present invention it is provided that the sealing profile running in a vertical plane has at least one outer edge on a hollow chamber running parallel to the axis of symmetry over the entire length of the construction. A hollow chamber is preferably provided on both sides. These limit the drainage channel at the edge and provide the Advantage that condensed water collected in the drainage channels can be discharged through the hollow chambers.

In a further advantageous embodiment of the present invention, it is provided that both the horizontal and vertical sealing profiles have predetermined breaking points in the area of the sealing lips, so that the separation of the sealing lips from the foot area of the sealing profiles is advantageously simplified.

In a further advantageous embodiment of the present invention, a drainage channel is arranged on the sealing profile running in a horizontal plane on its edge lying in the installed state at the top, which is connected to an adjacent hollow chamber of the sealing profile running in the vertical plane via an opening. Water can thus advantageously be collected above the sealing profile and passed on to the crossing points in the region of the hollow chambers or drainage channels of the sealing profiles running in vertical planes. The drainage channel is advantageously opened upwards over its entire length, so that condensation water is drained off from the filler element directly via the drainage channel and the hollow chamber.

It is also advantageously provided that in the transition area from the upwardly open drainage channel and the hollow chamber there is provided an upwardly open tube segment which is positively inserted into the drainage channel and engages in the opening of the hollow chamber.

In a further advantageous embodiment it is proposed that the sealing profile running in a horizontal plane has at least one hollow chamber on its edge lying in the installed state at the bottom.

Furthermore, it is advantageously proposed that a leg be arranged on the horizontally running sealing profile, which extends in the installed state between the sealing profile and an outer horizontal sealing strip and thus advantageously seals the vertical spaces lying between the Ausfachelemente. Water collected on this leg can then be passed on to the crossing points and from there downwards. The leg can be continued in the crossover area of the sealing profiles up to at least the inner drainage channel and can run at an acute angle to the upper connection area of the horizontal sealing profile, whereby the collection and drainage of condensation water in or out of the rebate area is favored.

The device according to the invention has the advantage that the sealing profiles running in horizontal planes can be attached to the vertical sealing profiles at the crossing points in a simplified manner by the intended breaking points in such a way that, on the one hand, the introduction of water collected and passed on by the horizontal sealing profiles into the hollow chambers the downward-running sealing profiles and, on the other hand, adequate sealing of the rebate areas against the drainage areas is ensured.

In principle, the invention proposes two independently functioning drainage systems for the rebate areas on the one hand and the inside of the infill elements on the other hand, with the water being diverted downwards in both cases by the posts of the construction arranged in vertical planes, but in separate ones Drainage and hollow chamber systems. An air exchange between the systems is therefore excluded.

• Fig. 1 eine horizontale Schnittdarstellung durch ein Ausführungsbeispiel der erfindungsgemäßen Vor­richtung, und
• Fig. 2 eine vertikale Schnittdarstellung des Ausführungsbeispiels gem. Fig. 1.

An embodiment of the present invention is described in the accompanying drawings. Show:

• Fig. 1 is a horizontal sectional view through an embodiment of the device according to the invention, and
• Fig. 2 is a vertical sectional view of the embodiment according to. Fig. 1.

1, the sealing profile 2 extending in a vertical plane is arranged on the vertical post 1. The Ausfachelemente 3, 4 are clamped between the sealing profiles 2 and 5, wherein the outer sealing profile 5 is arranged on an outer pressure bar 6 and the screw 7 extends through a screw channel provided for this purpose. A cover profile 8 is then placed on the outer pressure bar 6. The sealing profile 2 is arranged on the post 1 with its profile pieces 9 designed for fastening in a manner known per se. The sealing profile 2 has a central web 10 which has the predetermined breaking point 13 for the screw channel and on both sides of which the drainage channels 11 connect symmetrically to the central axis. The outer boundary of the drainage channels 11 is formed by the profile edges provided with hollow chambers 12. The sealing lips 15 are located on the profile edges. The connection between the hollow chamber region 12 and the sealing lips 15 is provided with the predetermined breaking points 14.

Due to this symmetrical arrangement, condensing or entering water will always collect in the drainage channels 11 and flow downwards. Furthermore, the screw channel 27 is well sealed by the sealing lips and by the central web 10.

According to FIG. 2, the sealing profile 17 extending in a horizontal plane is arranged on the horizontal bar 16. This also has a central web 18 with a predetermined breaking point 28 for the screw channel 29. Close on the top side of the central duct when installed a hollow chamber 19 and a drainage channel 20. The drainage channel 20 is designed in the form of a circular segment and is opened in the direction of the infill element 25. The drainage channel 20 is connected to the hollow chamber via a pipe segment 30 which is also open at the top and which passes through an opening 31 in the side wall of the hollow chamber 12, so that condensation water from the Ausfachelement about the gutter 20 in the hollow chamber and from this down.

Two hollow chambers 21 adjoin the side lying in the installed state below the central web, and the sealing lips 22 are formed on the upper and lower outside, the predetermined breaking points 23 being arranged in the connection to the profile foot. The sealing lips 22 bear against the infill elements 24, 25. Furthermore, the sealing profile 17 has a leg 26 which, when installed, extends between the sealing profile and an outer horizontal sealing strip 32. Thus, the rebate space 33 lying between the Ausfachelemente 24 and 25 is sealed, and entering or condensing water can be drained into the vertical drainage channels 11 via the leg 26 forming a further channel.

In the described embodiment, it is provided that in the area of the crossing points the sealing lips 15 are removed over a length which corresponds to the width of the horizontal sealing profile. The predetermined breaking points 14 are provided for this purpose. Conversely, in the case of the horizontal sealing profiles 17, the foot areas at the predetermined breaking points 23 are removed from the sealing lips 22. The flaps of the horizontal sealing profiles 17 formed from the sealing lips 22 protruding on both sides are bent backwards and engage in the downward gutters 11 of the sealing profiles 2 running in vertical planes. The forward leg 26 is cut at the ends of the horizontal sealing profiles at the junction between the leg 26 and the sealing lips 22 and for example wise bent down with a clamping piece or simply protrudes into the vertical space between the Ausfachelemente 3, 4, as shown in the right part of Fig.1 .. Thus, condensation occurring in the horizontal area can no longer be distributed in the construction, but is derived into the vertical drainage channels 11 of the vertical sealing profile 2.

The horizontally running channel 20 of the horizontal sealing profile 17 is connected to the vertically running hollow chamber 12 of the vertical sealing profile 2 by breaking through the outer edge of the vertical sealing profile 2 at this point. Water collected in the channel 20 is now drained downward via the hollow chambers 12 of the vertical sealing profiles 2. This can be seen from the right part of FIG. 1, which shows a sectional view in the area of the overlap of the sealing profiles 2, 17, while the left part of FIG. 1 shows a sectional view in the area above the crossing point.

Claims (13)

1.Device for drainage, in particular of inclined and roof glazing in mullion and transom construction, with orthogonally running sealing profiles (2, 17) which, with sealing lips arranged on their inner edges (15, 22), seal on filler elements (3, 4, 24, 25), characterized in that the sealing profile (2) running in a vertical plane is arranged continuously over the entire length of the construction and has at least one drainage channel (11, 12) running parallel to the central axis, that the sealing profile running in a horizontal plane (17) also has at least one drainage channel (20, 26) running parallel to the central axis and is connected at a crossing point to the sealing profile (2) running in the vertical plane and that in the sealing profile (2) running in the vertical plane at the connection point at least one opening is arranged through which the vertical drainage channel (s) with the / de n horizontal drainage channel (s) is / are connected. 2. Apparatus according to claim 1, characterized in that the sealing profiles (2, 17) overlap in the intersection area, such that the horizontal sealing profiles (17) connect to the vertical sealing profiles (2) butt and at least the horizontal sealing lips (22nd ) engage positively in cutouts of the vertical sealing lips (15). 3. Device according to claims 1 and 2, characterized in that at least the horizontal sealing lip pen (22) up to the vertical gutters. 4. The device according to at least one of the preceding claims, characterized in that the sealing profiles (2, 17) have a central web (10, 18) which sealingly covers a screw channel. 5. The device according to at least one of the preceding claims, characterized in that the sealing profile (2) extending in the vertical plane has at least on an outer edge a parallel to the central axis, extending over the entire length of the construction hollow chamber (12). 6. The device according to at least one of the preceding claims, characterized in that the sealing profiles (2, 17) in the region of the sealing lips (15, 22) have predetermined breaking points (14, 23) in order to easily separate the sealing lips (15, 22) from To ensure foot areas of the sealing profiles (2, 17) in the area of crossing points. 7. The device according to at least one of the preceding claims, characterized in that the sealing profile (17) extending in the horizontal plane has a drainage channel (20) on its edge lying in the installed state, which with the adjacent hollow chamber (12) in the vertical plane extending sealing profile (2) is connected via an opening. 8. The device according to claim 7, characterized in that the drainage channel (20) is open upwards. 9. Apparatus according to claim 1 and 7 or 8, characterized in that in the transition region from the upwardly open drainage channel (20) and the hollow chamber (12) the drainage channel is inserted in a form-fitting manner and is open at the top and engages in the opening of the hollow chamber (12). 10. The device according to at least one of the preceding claims, characterized in that the sealing profile (17) extending in the horizontal plane has at least one hollow chamber (21) on its edge lying in the installed state. 11. The device according to at least one of the preceding claims, characterized in that the sealing profile (17) extending in the horizontal plane has a leg (26), which is in the installed state between the sealing profile (17) and an outer, horizontal sealing strip It extends such that the space between the stacking elements (24, 25) is sealed down. 12. The apparatus according to claim 12, characterized in that the leg (26) in the intersection of the sealing profiles (2, 17) is continued at least in the inner gutter (11). 13. The device according to at least one of the preceding claims, characterized in that the leg (26) extends at an acute angle to the upper connection region of the horizontal sealing profile (17).

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