EP0722527B1 - Roof ridge sealing strip - Google Patents

Abstract

A roof ridge sealing strip (1) has a central area (D) that allows the passage of air and two marginal areas (9) corrugated in the longitudinal direction with a stretchable stabilising insert (S) arranged next to their edge and adaptable to the corrugations of the laid roofing plates (6). In order to optimise this strip, both marginal areas (9) are linked to each other by intermediate webs (11) that form a row of perforations (8) in the longitudinal direction.

Description

The invention relates to a ridge sealing strip according to the preamble of claim 1.

Such a ridge sealing strip is from WO 93/09309 known. The ridge sealing strip there has a central zone that allows air to pass through enables. For this purpose, the middle zone forms across Extension of the ridge waterproofing strip Ventilation ducts made with openings below the two wavy on their entire broad side connecting pleated edge areas Connection strips open. Near the edges of the edge areas a stabilizing insert is provided. The connecting strip is on the wave crests of the glued pleated edge areas glued so that these wave crests form bridges there.

From European patent application 0 341 343 is a Ridge sealing strip previously known, in which the medium, air-permeable area from one to one Expanded metal corset applied fleece is formed. Which adjoin the middle area on both sides Edge areas consist of an isobutylene coating of the expanded metal grid, so that the edge area plastically deformable to the wave form of the roofing tiles is malleable.

The invention has for its object a generic Ridge sealing strips in terms of production and handling to make it cheaper.

The problem is solved by the one specified in claim 1 Invention.

According to the two edge areas are through middle webs connected to each other. It forms a row of holes running in the longitudinal direction. in the The ridge sealing strip thus formed becomes the area of this row of holes on the upper longitudinal surface of a Ridge rafter fixed.

The two longitudinal edge areas lie down easily without external force on the roofing tiles, where they can be Stabilizing insert are molded. Through the longitudinal row of holes in the middle Zone of the ridge sealing strip becomes ventilation achieved the upper longitudinal surface of the ridge slat, with what an insect and fungal attack due to excessive moisture content the ridge slat is counteracted. The webs formed by the row of holes between the edge regions are particularly in terms of manufacture of such a ridge sealing strip of great size Advantage. Since the ridge sealing strip with its two Edge areas can be designed in one piece this can be pleated in one operation. In contrast to a ridge sealing strip the two separate Has edge areas in the specified invention the ridge sealing strip clamped for pleating with which a warping or one out of the Web run is counteracted during the process. The openings forming a roof ridge ventilation zone of the row of holes point in the transverse direction of the ridge sealing strip a width of 10-30mm, preferably 15mm on. Those formed between the openings in the row of holes The webs are in the longitudinal direction of the ridge sealing strip 3-6mm, preferably 4mm wide and are in the vertex zones of the waves of the peripheral areas intended. It proves to be particularly advantageous that the row of holes is covered by a median strip is that with the apex zones of the waves of the peripheral areas connected, e.g. is glued. The median has a width of 40-60mm and is on both sides the row of holes on the top of the ridge sealing strip with the crests of the waves of the Border areas connected. It is also conceivable here webs coming into contact between the openings the row of holes with the middle area of the flat connecting median strip, for example to glue. Be conditioned by this configuration Air passage channels formed by a linear arrangement of the wave crests of the longitudinally undulated Edge strip with the smooth central strip are achieved. In the area of the troughs thus the air passage channels for ventilation the roof ridge. The width of the median corresponds about the width of a ridge slat, with which one optimal ventilation of the latter is achieved. For stabilization the roof ridge slat ventilation zone is further an extending over the area of the row of holes, arranged according to the waveform Stabilizing strips are provided, approximately of the width a ridge slat. Through this stiffened ventilation zone of the ridge sealing strip, in which the fixation of the ridge sealing strip on the roof ridge slat takes place, these stabilize laterally Zone bending areas around which the undulating Edge areas of the ridge sealing strip when laying Bend on the roof ridge without external force can. The laying of such a ridge sealing strip is essentially simplified, because the edge areas after fixing the ridge sealing strip on the ridge slat lay the roofing slabs, with which the molding and Fix to the latter without pretensioning the ridge sealing strip can be done. This is still because of it supports that the bending zones formed at one of the Roof ridge slat corresponding width of the stabilizing strip outside the area of the roof ridge lie. In an advantageous further development, that the stabilizing insert is designed as a lead tape and your waveform is shaped accordingly. With the help of this lead tape, the edge areas can Surface course of the roofing slabs accordingly be adjusted, preferably the stabilizing insert the same in the longitudinal direction of the ridge sealing strip running waveform like the edge areas having. The lead tape can also be in one Adhesive bead or the like to be embedded, which an optimal fixation of the outer longitudinal edges of the Ridge sealing strip on the roof covering panels enables. The adhesive beads can be used on delivery of the ridge sealing strip with a continuous Protective film. To the ventilation in Area of the middle zone of the ridge sealing strip are to be optimized in the area of the stabilization strip spaced ventilation holes intended. Here, these ventilation holes have the same size and arrangement as the openings in the row of holes of the ridge sealing strip. The order is taken so that the ventilation holes of the Stabilizing strip with the openings in the row of holes the ridge sealing strip in a superimposed position are brought. It is conceivable here to have a ridge sealing strip in its original, smooth form to be provided with a stabilizing insert in the middle, for example by gluing. After punching the row of holes in the longitudinal direction through the Stabilizing insert and the ridge sealing strip the pleating is carried out together. An improvement in Ventilation of the roof ridge slat is also achieved by that the median strip with small, finely divided breathing holes Is provided. These are breathing holes designed such that air can pass through can, however, water or snow is prevented becomes. In an advantageous further development, that the fill hole edges of hollow rivets are. These hollow rivets both penetrate the stabilization strip and the ridge sealing strip in the Roof ridge slat ventilation zone, as well as the flat running median strips and act as a chimney to Ventilate the roof ridge slat. The hollow rivets are factory-made already at regular intervals in the Roof ridge slat ventilation zone of the ridge sealing strip used. The openings are advantageously the row of holes in this zone at the distance of the shaft pitch burned into the material. Such a branding is also after applying the stabilizing strip conceivable on the ridge sealing strip, the Perforated edges of ridge sealing strips and stabilizing strips merge with each other. In an advantageous Further training is one of the characteristics of the wave crests formed channel to mark the course the stabilizing insert provided. Such a mark can while pleating the ridge weatherstrip are formed, for example that Material of an edge area close to its edge a gutter is compressed, which is about the same Has width like that of the stabilizing insert to be applied, the gutter still being the same Has wave shape like the rest of the edge area. The Sealing the roof interior against rain or flying snow is optimized in that the stabilizing insert opposite top of each edge area has a metal protective layer. This protective layer extends from the outer edge to about Middle of the respective border area. In a preferred one Design is provided that the metal protective layer is made of copper. This protective layer is the Adjusted wave course of the edge area and has one small thickness so that the edge areas continue to the course of the roofing panels without further ado are customizable. Finally, it’s an advantage that the material of the ridge sealing strip is one Is diffusion film. The ventilation of the roof interior is hereby guaranteed in the most optimal way, whereby However, rain or flying snow can get into it The roof is counteracted. A further education of the Invention provides that the middle, an air passage enabling zone is strengthened dimensionally stable. This Finishing can be done, for example, with a synthetic resin coating or a layer of varnish or a rubber coating be generated. It is envisaged that the openings the valleys of the undulating strip section assigned. The webs are then with Clearance on the forehead plank. If the valleys on the forehead plank lying on, form in the waves towards the Ventilation ducts running in the lateral direction. The channels are covered on the top by the ridge sealing strip and underneath through the surface of the ridge screed educated. As a result of the dimensionally stable strengthened zone easy attachment of this ridge cover strip possible on the ridge screed. The attachment can, for example be done by stapling or nailing. The non-strengthened border areas are flexible and can the surface contour of the roofing slabs to adjust.

Figur 1

einen Querschnitt im Bereich des Firstes zur Darstellung der Anordnung von Abdeckkappe, Firstabdichtungsstreifen und Dacheindeckungsplatten,

Figur 2

die Draufsicht auf einen Abschnitt des erfindungsgemäßen Firstabdichtungsstreifens, eine erste Ausführungsform betreffend,

Figur 3

den Schnitt gemäß der Linie III-III in Figur 2,

Figur 4

den Schnitt gemäß der Linie IV-IV in Figur 2 im Bereich einer Hohlniete,

Figur 5

den Schnitt gemäß der Linie V-V in Figur 2, ebenfalls den Bereich einer Hohlniete betreffend,

Figur 6

den Schnitt gemäß der Linie VI-VI in Figur 2,

Figur 7

eine vergrößerte Ausschnittsdarstellung der Figur 1 im Bereich der Firstlatte,

Figur 8

eine der Figur 2 entsprechende Darstellung, jedoch eine zweite Ausführungsform betreffend,

Figur 9

den Schnitt gemäß der Linie IX-IX in Figur 8,

Figur 10

den Schnitt gemäß der Linie X-X in Figur 8,

Figur 11

die Unterseite des erfindungsgemäßen Firstabdichtungsstreifens gemäß der zweiten Ausführungsform,

Figur 12

einen Teilausschnitt des mittleren Bereiches des Firstabdichtungsstreifens in stark vergrösserter, perspektivischer Darstellung,

Figur 13

die Draufsicht eines Randbereiches des Firstabdichtungsstreifens gemäß Figur 8, jedoch unter Fortlassung einer metallenen Schutzschicht,

Figur 14

den Schnitt gemäß der Linie XIV-XIV in Figur 13,

Figur 15

eine Darstellung gemäß Figur 6 eines weiteren Ausführungsbeispiels,

Figur 16

eine Darstellung gemäß Figur 7 des Ausführungsbeispiels gemäß Figur 15, und

Figur 17

einen Querschnitt durch die Zone D, welche mittels einem Heißnadelsystem perforiert ist.

Further advantages and details of the invention are explained in more detail below on the basis of two illustrative exemplary embodiments. It shows:

Figure 1

1 shows a cross section in the area of the ridge to show the arrangement of the cover cap, ridge sealing strips and roof covering plates,

Figure 2

the top view of a section of the ridge sealing strip according to the invention, relating to a first embodiment,

Figure 3

the section along the line III-III in Figure 2,

Figure 4

the section along the line IV-IV in Figure 2 in the area of a hollow rivet,

Figure 5

the section along the line VV in Figure 2, also regarding the area of a hollow rivet,

Figure 6

the section along the line VI-VI in Figure 2,

Figure 7

2 shows an enlarged detail of FIG. 1 in the area of the ridge batten,

Figure 8

2 a representation corresponding to FIG. 2, but relating to a second embodiment,

Figure 9

the section along the line IX-IX in Figure 8,

Figure 10

the section along the line XX in Figure 8,

Figure 11

the underside of the ridge sealing strip according to the invention according to the second embodiment,

Figure 12

a partial section of the central region of the ridge sealing strip in a greatly enlarged perspective view,

Figure 13

8 shows the top view of an edge region of the ridge sealing strip according to FIG. 8, but leaving out a metal protective layer,

Figure 14

the section along the line XIV-XIV in Figure 13,

Figure 15

6 a representation of a further exemplary embodiment,

Figure 16

a representation of Figure 7 of the embodiment of Figure 15, and

Figure 17

a cross section through the zone D, which is perforated by means of a hot needle system.

As can be seen from Figure 1, the invention serves Ridge sealing strips 1 for sealing the roof interior 2 against rain and flying snow, the build up of the ridge sealing strip 1 is chosen so that at the same time, ventilation of the roof interior 2 is guaranteed is. For example, in the form of a role delivered ridge sealing strip 1 is on a unrolled on rafters 3 roof ridge slat 4 and fixed there. The edge areas 9 of the ridge sealing strip 1 be the waveform from on rafter side Roof battens 5 adapted roofing plates 6 adapted. After the ridge sealing strip has been molded on 1 to the roofing panels 6 is the conclusion of the ridge forming cap 7 is placed.

The ridge sealing strip 1 consists essentially from a wavy in the longitudinal direction Diffusion film, which on the one hand rain and flying snow prevents, but also allows air to pass through. By a middle row of holes 8 running in the longitudinal direction the ridge sealing strip 1 is divided into two, which two equally wide parts referred to as edge areas 9 become. The row of holes 8 is dimensioned so that the Width of each opening 10, transverse to the longitudinal direction the ridge sealing strip 1 measured, about one Width of 10-30mm, preferably corresponds to 15mm. The Distance between the individual openings 10 corresponds the distance of the corrugation of the corrugated edge areas 9, leaving the edge regions 9 connecting Web 11, which in a preferred embodiment according to Figure 2 have a width of 4mm. The openings 10 of the row of holes 8 can be used in the manufacture of the Ridge sealing strip burned into the material become.

Around the roof interior 2 also against the arrow x to protect rising moisture in FIG. 1 the tops 12 of the edge areas 9 each with a Metal protective layer 13 provided by the outer Edge 14 to approximately the middle of the edge region 9 enough. The edge zone formed in this way is designated by A. A visually positive effect of the ridge area is achieved in that the aforementioned Protective layer 13 is a copper layer 15. The protective layer can also be non-metallic, e.g. Plastic.

Zone D remaining between the two edge zones A. allows air to pass through, depending on the application a diffusion film as a ridge sealing strip 1.

The lengthways direction of the ridge sealing strip 1 form centrally arranged openings 10 of the row of holes 8 a ridge batten ventilation zone B. This is one constant ventilation of the top 16 of the roof ridge 4 secured, with which a moisture content of the roof ridge 4 less than 20% is guaranteed. This is particularly so very important against insect and fungal attack.

The row of holes 8 is on the top 12 of the ridge sealing strip 1 with a flat, with finely distributed breathing holes 26 provided median strips 17 covered, which with the apex zones 18 of the Waves of the edge areas 9 connected, e.g. is glued. A connection of the crest zones 18 of the edge areas 9 webs 11 are also here with the Underside of the middle strip 17 glued. The median 17 has a width of 60mm, which is about Width of the roof ridge 4 corresponds. Through the line-shaped Installation of the wave crests of the one perpendicular to the Surface of the edge regions 9 aligned waveform having edge areas 9 with the underside of the smooth surface extending median strip 17 are in the width direction lying air passage channels 19 are formed.

To vent the top 16 of the roof ridge 4 are to be optimized in the area of the median strip 17 in Longitudinal direction of the ridge sealing strip 1 in uniform Hollow rivets 20 spaced apart provided, the diameter of such a hollow rivet 20 is chosen smaller than the width of the median strip 17. The formation of the hollow rivets 20 is here solved so that a hollow rivet body 21 both Area of the row of holes 8 of the ridge sealing strip 1 as well as the center strip 17 from the bottom of the Ridge sealing strip 1 penetrates and starts this on the top of the median strip 17 by means of a clamping ring 22 is secured. Here are the adjacent edge areas of the median strip 17 and the Ridge batten ventilation zone B between your rivet body 21 and the clamping ring 22 arranged shoulders fixed. The hollow rivets 20 thus form a chimney optimal ventilation of the top 16 of the ridge slat 4th

The edge regions 9 are on their underside, i.e. to Laying the ridge sealing strip 1 the roof covering panels 6 facing and the median 17 opposite side near the outer edge 14 in each case with an adhesive bead 23 for adhering to the roofing panels 6 provided. These adhesive beads 23 can be made of self-adhesive rubber or plastic materials be formed, which on the roofing tiles 6 underside coming up with a removable, protective film, not shown, are covered.

About these adhesive beads 23 are stretchable stabilizing inserts S on the underside of the ridge sealing strip 1 attached. These stabilizing deposits S are designed as a lead tape and have one accordingly the edge areas 9 formed wave course on. Due to this configuration is an optimal Adjustment of the ridge sealing strip 1 in the areas its edge 14 on the wave gate of the laid Roofing panels 6 given.

By arranging the row of holes 8 of the ridge sealing strip 1 in the area of the air passage ducts 19 between the ridge sealing strip 1 and the median strip 17 the ridge sealing strip 1 is not used only for sealing the roof interior 2 against rain and Flying snow with simultaneous ventilation of the roof interior 2, but also for constant ventilation of the top 16 the roof ridge slat 4. The airflow for ventilation the roof ridge 4 is in Figure 7 with the arrows marked y. To this ventilation of the roof ridge 4 to optimize the ridge sealing strip 1 in Area of its central stripe 17 only point by point fixed on the roof ridge 4, for example by means of Nails, staples or the like.

The middle strut 17 also forms a stiffened Middle zone of the ridge sealing strip 1, which is especially with regard to the laying of the ridge sealing strip 1 on a roof ridge 4 advantageous affects. This is how the ridge sealing strip 1 lies after fixing on the roof ridge 4 already without external influence on the roofing tiles 6, with which the molding and gluing to the roofing panels 6 without bias. After deducting of the protective film covering the adhesive beads 23 to rest on the roofing tiles 6 coming with the stretchable stabilizing insert S provided edge regions 9 now the waveform of the Roofing panels 6 adapted. The one to attach of the stabilizing inserts S to the edge regions 9 serving adhesive beads 23 are, as already mentioned, formed as a self-adhesive layer and now serve also for fixing the edge areas 9 to the roofing panels 6.

Continuous ventilation of the roof interior 2 achieving waterproofness at the same time by the between the cap 7 and the edge areas 9 of the ridge sealing strip 1 remaining Gap in the area of the trough of the roofing slabs 6 enables (see arrow x in Figure 1).

In the second embodiment shown in Figures 8-14 the ridge sealing strip 1 is additional to the structure described so far with an underside stabilizing strips arranged on the ridge sealing strip 1 24 provided. This is corresponding the wave shape of the edge regions 9 shaped and points the same width as that of the central strip 17. This stabilizing strip 24 increases the bending stiffness in the middle area of the ridge sealing strip 1, which, as already mentioned, especially when laying of the ridge sealing strip 1 on a roof ridge slat 4 is a great advantage. Stiffened on both sides Bending zones are thus formed around which the edge regions 9 can lower when laying. To ensure optimal ventilation of the top 16 to ensure the roof ridge 4 is also the Stabilizing strip 24 with ventilation holes 25 provided, which are dimensioned and positioned so that they have the same opening area as the openings 10 of the row of holes 8 of the ridge sealing strip 1 and here in a stack on top of the openings 10 are brought. It is conceivable that both Openings 10 of the row of holes 8 as well as the ventilation holes 25 of the stabilizing strip 24 in one operation burn into the materials, leaving the hole edges of the two strips merge. It is also conceivable, one to a ridge sealing strip 1 diffusion film to be processed in the middle running in the longitudinal direction with such a stabilizing strip to provide which are interconnected e.g. are glued together and then mechanically be pleated.

The stabilizing strip 24 is just like that Center strip 17 with small, finely divided breathing holes 26 equipped.

As in particular FIGS. 13 and 14 show in Area near the edge 14 of each edge area 9 a groove 27 is formed, which for marking the The course of the stabilizing insert S is used. The gutter 27 becomes during the pleating of the ridge sealing strip 1 formed by expressions 28 of the wave crests.

Due to the described design of the ridge sealing strip 1 is optimal ventilation of the roof interior 2 guaranteed. Such a ridge sealing strip also shows 1 handling advantages, because this only when applied to a roof ridge 4 must be unrolled along the slat 4, whereby the edge regions 9 without external influence on the Place roofing tiles 6. It is only one after this Fix the ridge sealing strip 1 on the roof ridge slat 4 and, after removing a protective film, the Press the edge areas 9 in the area of the edge edges 14 to the roofing panels 6 required. Finally the specified invention is also in manufacturing technology In terms of particular advantage, since the the two edge regions 9 with one another by means of the webs 11 are connected and thus the ridge sealing strip 1 can be clamped for pleating, causing slipping or migration of the strip during the pleating process counteracts.

In the embodiment shown in Figures 15 and 16 is Zone D, which is located between the extends two edge areas 9 with a finish Mistake. The finish ensures a stable reinforcement this section of strip. The strengthened section 30 is, as shown in Figure 16, in circulation on the Ridge plank. Lower broadside channels form below the wave crests out through the air into opening 31 of the cover strip can flow. The ridge cover strip can be mounted with or without rivets 20. Dimensional stability is essential in this exemplary embodiment Zone D. This can be done by coating can be achieved. Synthetic resin, Lacquer or a rubber coating can be used. The Cover strips can be fastened with conventional fasteners fix it on the ridge plank.

Zone D can be perforated with a hot needle system become. This increases the air throughput. One Cross section through such a perforated zone D shows the figure 17. By means of heated, not shown Openings 108 are pierced into zone D by needles. The heated needles melt the plastic material of the strip. This creates crater-shaped Wells 101. The wells 101 become by melting the edge area of the openings 108 educated. A preferred hole diameter is included 0.3 mm or less. The hole pattern can be in different Arrangements can be arranged on the central zone D. The hole pattern preferably forms a grid with a rectangular one Unit cell. It is intended that only the Middle area of the ridge cover strip 1 by hot perforation is perforated.

The metallic one designated by the reference number 13 Protective layer, is on as copper or aluminum foil glued the edge area of the ridge strip. The glued on Foil stabilizes the waveform of the fleece and a UV resistance. It is further a possibility to adapt to the color of the roof tile and - if it is copper - finally too another possibility, in a known manner, via a electrolytic effect with the help of running water to limit or limit the formation of moss on the roof prevent. The copper layer 13 is opposite glued to the bead 23 on the edge region of the strip.

Claims (17)

1. Roof ridge sealing strip (1) with a central zone (D) which allows passage of air and which connects to each other two edge regions (9) which are pleated in corrugations in the longitudinal direction across their whole width and which in the vicinity of the edges have a stretchable stabilising inlay (S) that can be adapted to the corrugated shape of the laid roofing panel (6), wherein the central zone has a row of holes running in the longitudinal direction and webs formed by the pleating, characterised in that the webs connect the two edge regions to each other and the holes are arranged in corrugation troughs of the region resting on the roof ridge batten.
2. Roof ridge sealing strip according to claim 1, characterised in that the row of holes (8) is covered by a centre strip (17) which is joined, e.g. adhered, to the peak zones (18) of the corrugations of the edge regions (9).
3. Roof ridge sealing strip according to claim 2, characterised in that the webs (11) are joined, e.g. adhered, to the central region of the flat-surfaced centre strip (17).
4. Roof ridge sealing strip according to any of the preceding claims, characterised by a stabilising strip (24), approximately the width of a roof ridge batten (4), extending over the region of the row of holes (8) and arranged to run according to the corrugated shape.
5. Roof ridge sealing strip according to any of the preceding claims, characterised in that the stabilising inlay (S) is designed as a lead strip and formed according to the corrugated shape.
6. Roof ridge sealing strip according to claim 3 or 4, characterised in that in the region of the stabilising strip (24) are provided ventilation holes (25) arranged at a distance from each other.
7. Roof ridge sealing strip according to any of claims 2 to 6, characterised in that the centre strip (17) is provided with small finely distributed breathing holes (26).
8. Roof ridge sealing strip according to claim 6 or 7, characterised in that the ventilation hole edges are encompassed by hollow rivets (20).
9. Roof ridge sealing strip according to any of the preceding claims, characterised in that the openings (10) of the row of holes (8) are burnt into the material at the intervals of the corrugation divisions.
10. Roof ridge sealing strip according to any of the preceding claims, characterised by a channel (27) formed by indentations (28) of the corrugation peaks, for marking the course of the stabilising inlay (S).
11. Roof ridge sealing strip according to any of the preceding claims, characterised in that the upper side (12) of each edge region (9) facing away from the stabilising inlay (S) comprises a protective layer (13) which extends from the outer edge (14) approximately to the centre of the edge region (9).
12. Roof ridge sealing strip according to claim 11, characterised in that the metal protective layer (13) is a copper layer (15).
13. Roof ridge sealing strip according to any of the preceding claims, characterised in that the material of the roof ridge sealing strip (1) is a diffusion sheet.
14. Roof ridge sealing strip according to any of the preceding claims, with a central zone (D) which allows passage of air and two edge regions (9) which run in corrugations in the longitudinal direction, characterised in that the two edge regions (9) are connected to each other by central webs (11) forming a row of holes (8) running in the longitudinal direction, wherein the zone (D) forms a strip section which is strengthened for dimensional stability.
15. Roof ridge sealing strip according to claim 14, characterised in that the zone (D) which is strengthened for dimensional stability is obtained by coating with synthetic resin, lacquer or the like.
16. Roof ridge sealing strip according to any of the preceding claims, characterised in that a central zone (D) is provided with a plurality of crater-like openings.
17. Roof ridge sealing strip according to claim 16, characterised in that the openings are arranged in a grid and/or melted into the central region (D) of the roof ridge sealing strip by a hot needle system.

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