EP0732462B1 - Roof ventilating trim, in particular with anti-vegetation effect - Google Patents

Abstract

To the ridge, etc. region caps (2) is allocated a resilient sealing material (16), bridging over the gap to the roofing material edges. The sealing material is air permeable and pref. contains mutually movable elements. Typically the air permeable material is formed by a metal fabric, a metal mat, wire mesh, wire element, or an element with metal platelets. The material may be an ion releasing metal. It may deform by gravity when deposited on the roofing material. The cap has longitudinal edges carrying the sealing material.

Description

The invention relates to a ventilation element for roofs, with one arranged in the ridge, hip or ridge area Cap, which is a compliant, a gap to the mounting material of the roof bridging, permeable to air trained sealing material is assigned.

It is known with such ventilation elements sealing material made of foam. The disadvantage is that with different distance differences and / or sharp edged transitions of the foam due to its Structure is unable to adequately meet the Covering material for the existing intermediate area bridge. Another disadvantage is that the foam is subject to an aging process and over time becomes brittle and crumbly, so that parts come off can. Finally, the foam is also subject to that Bird eating. Laying the foam requires a strong compression pressure that makes work difficult and often to unsatisfactory work and Sealing results and also the harmonious appearance has a negative effect.

It is also known to use a fine thread brush as a sealing material with a variety of elastic, in flow-tight Pack of arranged brush threads. In critical areas, such as corner areas, is not guaranteed that the bristles up to reach into these areas. Furthermore, the bristles due to wind pressure to the rear, i.e. into the roof be pushed in and bent over, taking this paused position, so not back in their return to original position. This leads to Areas of the gap are released, so here Rain and snow can penetrate.

The US-PS 4,876,950 describes a ventilation element an air and water impermeable sealing strip, whose edge areas on their free longitudinal edges on hers Provide underside with strip-shaped sealing material are. This sealing material consists of open cell Foam through a variety of fabric-like interconnected fibers or threads is formed. By means of these gauze-like sealing strips, the gap should bridged air-permeable to the roofing material of the roof be, while penetrating moisture and small animals such as insects can be prevented should.

Such a ventilation element can only in the case of flat roofing materials, such as shingles or plain tile roof tiles can be used because the Sealing strips with different spacing differences and / or sharp-edged transitions are the existing covering material for the roof To bridge the gap sufficiently. This is evident in particular also in that the sealing material nailed the flat roofing materials or but has to be glued on. Accordingly, the Laying such a ventilation element a strong one Compression pressure, which on the one hand makes work more difficult and on the other hand often to unsatisfactory work and Results in sealing. Furthermore, they sit down Pores, especially the external pores of such rectangular, flat sealing material air-permeable thread pairs in no time Dust or the like too, so that after a short time There may be a loss of the initial ventilation effect can.

The invention is therefore based on the object To further develop ventilation element of the type mentioned at the beginning, that even with a wide variety of roofing materials penetration of small animals, moisture etc. in the roof interior at the same time permanent ventilation is reliably prevented.

This object is achieved with a generic Ventilation element by the features of claim 1 solved. Due to the configuration of the Ventilation element is achieved by a double function on the one hand ventilation of the roof through the air-permeable Sealing material can be made so that additional ventilation devices can be omitted or - If these additional ventilation devices are provided are - they are supported in their effect. On the other hand, the air-permeable sealing material prevents penetration of moisture and snow by it is sufficient, for example, compared to driving rain Offers protection, but air is always unobstructed lets happen. This air permeability also causes that with strong wind pressure no large forces on the air permeable sealing material are exerted so that it is not pushed back into the intermediate area can be because of the high air permeability little resistance to wind pressure is formed. Incoming rain is due to the Structure of the air-permeable sealing material braked, that means the kinetic energy of the raindrops is in the air-permeable sealing material destroyed or essentially consumed so that the raindrops not driven into the interior of the roof, but just "drip" on the air-permeable sealing material and in this way on the mounting material to flow down from there. The label "Sealing material" should therefore be understood to mean that has a sealing function against rain, snow etc. ventilation takes place. Preferably an air-permeable sealing material is used, that has no capillary action, so moisture not bound by driving rain and flying snow or is promoted with ascending effect. Due to the for moisture sieve-like effect of the air-permeable Sealing material creates air flow turbulence when there is a wind load, that don't drive up the moisture, so not in the gap between the cap and mounting material into it, but because of the depletion of energy cause a drain. Due to the adaptability the air-permeable sealing material is guaranteed that it is every ridge cover shape and also roof covering shape adapts optimally, so that always the ventilation is guaranteed and nevertheless protection against Driving rain, etc. This air-permeable sealing material unlike filter foams, always keeps its full ventilation function. Through dust or dirt the pores of all foams and so-called Filter foams in no time, and thus lose all foams and so-called filter foams quickly possible initial ventilation function.

The sectional elements of the ventilation elements are relative easily displaceable to each other, so that always an optimal Adaptation to the shape of the gap respectively the mounting material takes place.

It is also advantageous if the air-permeable Sealing material a metal mesh, a metal mat Multi-wire element, in particular made of metal wires, or is a metal plate member. Such an air permeable Sealing material can be - just like that movable linked link elements - air very good let pass while raindrops, flying snow, etc. be held, so with these elements a sealing effect consists.

According to a development of the invention, that the air-permeable sealing material is preferably a Has ion-donating metal or consists of this. In the environment of breathable Sealing material is thus in the surface moisture of the roof washed out ions that greening with algae, lichens, moss, etc. counteract. Thus, one with the invention Ventilation element equipped roof only the one that arises due to aging, beautiful and aesthetic looking patina that is especially trained in clay roof tiles. This picture is not disturbed by greening that also has a moisture binding effect brings, so that such roofs after rain and Snow takes a long time to dry. The breathability of the clay bricks is also affected by the greening is greatly reduced.

An optimal adaptation to the shapes and contours of the mounting material in the space in particular achieved in that the air permeable Sealing material essentially under the impact gravity deformed and on the mounting material discards. It is therefore an independent one Adjustment immediately when laying without additional adjustment work is required. At the Example of an air permeable chain fabric Sealing material is clear that such a chain curtain is shifting of its elements in on the mounting material butting area adapting to the finest Structures and also corner areas optimally, whereby the free-hanging area is essentially undeformed remains and thereby the desired ventilation function can exercise, but against raindrops and so on acts as an energy destroyer.

In particular, it is provided that the cap has longitudinal edges has on which the air-permeable sealing material is arranged. The breathable Sealing material can be in the longitudinal edge area of the cap shirred or arranged in an arched manner be. This means that with an imaginary unit of length of the longitudinal edge the length of the assigned air permeable sealing material larger than The length of the long edge is too tight Tensioning of the air-permeable sealing material prevented will and a high adaptability of the air-permeable sealing material is retained.

Alternatively, it is also possible that the cap of a portion of the air permeable sealing material is formed. So it's not a separate one Cap provided on which the air permeable Sealing material is arranged on the edge, but forms the air-permeable sealing material itself with one of its sections the cap, whereby the areas of the air-permeable adjoining the cap Sealing material the ventilation and Form sealing functions against moisture. The partial area is preferably by means of an elastic or plastic mass stiffened. Especially can therefore be provided that a corresponding wide strips, for example bitumen strips, or a strip of one accordingly other elastic or plastic material, serves as a stabilizing component. This Stabilizing component is preferably on the Ridge slat attached so that it functions as a previously usual plastic profile takes over. Because of the deformability of such a stabilizing component an optimal adjustment is possible, and it can also have an appropriate shape the cap can be achieved. Moreover, it will air-permeable sealing material, for example designed as a chain, mesh or plate element can be, together with this elastic respectively plastic stabilizing component transported as a role to the site, that is it becomes loose from the role as a sealing and ventilation element installed in the ridge and ridge area on the roof. The storage and transport option as a roll requires extremely little space, is not bulky and the laying is very easy.

According to a development of the invention can be provided be that the cap is a plastic profile or is a plastic ventilation profile. In one Trap then has a relatively stiff profile, which in appropriate elements to the construction site is transported. If the plastic profile has no ventilation holes, there is no plastic ventilation profile, but a simple plastic profile in front; the definition "plastic ventilation profile" means that appropriate ventilation holes are provided so that air through this Pass ventilation holes through and into the space between Enter the cap and ridge tile and from there then laterally in the area of the edges of the ridge tiles can leak. This is an additional ventilation option to the air-permeable according to the invention Sealing material. However, it is an alternative also possible that the cap from the above elastic or plastic material, for example the bitumen mass mentioned. It can also be provided here that this plastic or elastic mass ventilation holes has or has no ventilation holes. On this elastic or plastic mass can in The air permeable sealing material be arranged, or it is also possible that the air-permeable sealing material formed throughout is and in the middle area the elastic or plastic mass attached, poured or otherwise arranged and connected.

It is advantageous if the air-permeable sealing material a ring mesh, in particular wire ring mesh, is. The individual neighboring rings grip horizontally and vertically into each other, so that overall a kind of wire ring curtain is trained. It is also possible that air-permeable sealing material preferably movable interconnected, platelet-shaped or spherical or cuboid bodies has, for example, full or hollow Bodies can exist. These individual bodies are movable with each other directly or via intermediate pieces, for example wire elements or the like, connected, so that overall a corresponding, the air-permeable sealing material Curtain is formed. The platelet-shaped Bodies can overlap, for example, in the form of scales be arranged. It is also possible that Arrange the body like a sequin.

In order to prevent greenery, it is provided that the air permeable sealing material preferably Has or consists of copper, brass and / or bronze these materials. These materials give Ions off the growth of algae, lichen, moss etc. prevent. But other materials can also be used Find use.

Finally, it can be beneficial if that air-permeable sealing material galvanized parts has or consists of these. Even in one in such cases, greening can be prevented become.

Figur 1

einen Querschnitt durch einen Firstbereich des Daches eines Gebäudes,

Figur 1b

eine Ansicht eines Eindeckmaterials im Bereich von Eindeckmaterial und Randbereich -in Richtung des Pfeils A in Figur 1- einer First-Abdeckung, wobei ein erfindungsgemäßes luftdurchlässiges Abdichtmaterial auf dem Eindeckmaterial abgelegt ist,

Figur 2

eine perspektivische Ansicht eines Abschnitts eines Lüftungselements für Dächer,

Figur 3

eine schematische Ansicht von luftdurchlässigem Abdichtmaterial zum Einbringen zwischen einer Kappe des Lüftungselements und dem Eindeckmaterial des Daches,

Figuren 4 bis 27

weitere Ausführungsbeispiele des luftdurchlässigen Abdichtmaterials,

Figur 28

ein weiteres Ausführungsbeispiel eines Lüftungselements.

The drawings illustrate the invention using exemplary embodiments and show:

Figure 1

a cross section through a ridge area of the roof of a building,

Figure 1b

1 shows a view of a mounting material in the area of mounting material and edge area - in the direction of arrow A in FIG. 1- of a ridge cover, an air-permeable sealing material according to the invention being deposited on the mounting material

Figure 2

a perspective view of a portion of a ventilation element for roofs,

Figure 3

2 shows a schematic view of air-permeable sealing material for insertion between a cap of the ventilation element and the covering material of the roof,

Figures 4 to 27

further exemplary embodiments of the air-permeable sealing material,

Figure 28

another embodiment of a ventilation element.

Figure 1 shows a cross section through the roof of a house in the area of the ridge. The invention refers to a ventilation element 1, however not only used in the ridge area of a roof can find, but can also be used in other areas is, for example in the hip or ridge area. It is also in the throat and eaves area applicable. The ventilation element 1 has one Cap 2, which has openings 3 and therefore acts as a ventilation cap 4. The cap 2 has side walls 5 and a one piece in between Top wall 6. The breakthroughs 3 enforce the Ceiling wall 6.

Counter battens 7 are arranged in the ridge area of the roof, on them (or on rafters or one Full formwork) a slat holder is attached. On the flanks of the slat holder 8 are arranged slats 9, for hanging and holding bricks 10 to serve. The batten holder carries a ridge batten 11 to which the cap 2 by means of screws 12 or nails or the like. The Screws 12 preferably attach simultaneously a ridge bracket 13 for holding a ridge cover 14 (ridge / ridge tile).

In the area of the lower longitudinal edges 15 are permeable to air Sealing materials 16 attached what for example by means of a clip connection, one Longitudinal plug-in connection, an adhesive connection, a screw connection or the like can. The air-permeable sealing materials 16 serve the irregularly large columns 17 between the lower end portions of the side walls 5 of the cap 2 and the roofing material 18 -that in the present case of the bricks 10 is formed to bridge. The sealing material 16 is permeable to air, but it is has such a structure that driving rain, Flying snow etc. do not penetrate the gap 17 mentioned can, so that neither rain nor snow in the Can penetrate the interior of the roof. The breathable Sealing material 16 is quasi hanging attached to the cap 2 so that it is in the manner of a Curtain - which has an excess length - on the covering material 18 rests. Furthermore, can be provided be seen in the longitudinal direction of the cap 2 Length of air permeable sealing material 16 greater than the length of the associated longitudinal edge is so that there is a certain raff effect that is called that of the air-permeable sealing material 16 formed "curtain" is not taut in the longitudinal direction excited, but also in excess length attached to the cap 2 so that the from the bricks 10 different due to their arch shape large gaps can be optimally bridged, without hanging too tightly due to missing Material occurs.

The air can be ventilated along the roof Arrows 19 rise and through the air-permeable Exit sealing materials 16 through to the outside. If the cap 2 - as shown in Figure 1 - is designed as a ventilation cap 4, can additional air flows (arrows 20) in the area enter between ventilation cap 4 and ridge cover 14 and above the respective air permeable Sealing material 16 then get outside. If the cap 2 has no openings 3, remains the one marked with the arrows 19 Ventilation duct.

Below is the design of the breathable Sealing material 16 explained in more detail.

Figure 2 shows air-permeable sealing material 16, which on the cap 2 - compared to Figure 1 is designed differently - by means of a receiving element 21, in which by means of a holding rail 22 upper edge 23 of the air-permeable sealing material 16 is inserted, is attached. For fixing please refer to Figure 16, there is the receiving element 21 is designed as a C-profile rail. At the upper edge 23 of the air-permeable sealing material 16, the holding rail 22 is attached, whose contour is the inner contour of the C-profile Receiving element 21 corresponds. For breathable Sealing material 16 on the cap 2 too attach, the holding rail 22 is in the longitudinal extent the ridge into the receiving element 21 inserted. Of course there are others too Fastening types - as already mentioned above, where - if desired - a corresponding one curved or ruffled attachment of the air-permeable sealing material 16 in the fastening area can be made of sufficient material to have available.

From Figure 2 it can be seen that the air permeable Sealing material 16 as ring braid 25, in particular wire ring braid 26 is formed. This means that a variety of wire rings 27, intertwined according to the type of material of a chain mail, which makes it very flexible in itself and only when the gravitational force is deformed underlying shielding formed that is permeable to air. However, rain occurs on the air-permeable sealing material 16, so the braid slows down the kinetic energy of the water drops, which prevents them from entering the inside of the Roof, but drip onto the brick 10 and run down. If there is wind pressure the air-permeable sealing material 16 the air permeability that the location of the air-permeable sealing material due to the low Air resistance hardly changed is installed once when covering Condition remains.

Figure 3 illustrates the design of the Ring weave 25 again. It can be seen that a centrally located ring 27 out of six Rings 27 is surrounded, with all rings together are engaged.

Figure 4 shows a further embodiment of the air-permeable sealing material 16, which the Design corresponds to Figure 3, however no wire rings 27, but wire rectangles 28 respectively Squares are used. It lies thus a ring mesh 25 in front, the rings one have a rectangular or square layout. Here too, each central wire rectangle is 28 six surrounding wire rectangles 28 are provided. Of course, the arrangement is not on limited to six.

Another exemplary embodiment is shown in FIG of air permeable sealing material 16 shown platelet-shaped bodies 29 being provided, the flexibly coupled link elements 30 represent. Even in the case of the rings of the Embodiments 3 and 4 form the individual Rings correspondingly movably coupled to one another Link elements 30, what is generally applicable at this point for all embodiments of the this application should be expressly mentioned should. The platelet-shaped body 29 of the embodiment 5 are by means of coupling elements 31 attached to each other, it being the coupling elements 31, for example around wire eyelets can act, the corresponding - in Figure 5 not shown - holes of the platelet-shaped body 29 reach through. However, it is also conceivable that other coupling variants, as is generally the case with such sectional element curtains are known, be used.

In the embodiment of Figure 6 are instead the platelet-shaped circular in plan Body 29 of Figure 5 square plate-shaped Body 29 arranged. It goes without saying also possible that the platelet-shaped body 29th of the embodiments of Figures 5 and 6 and also of the exemplary embodiments mentioned below not in the form of platelets, but in the form of spatial elements, i.e. thicker elements are trained so that, for example, spherical or form cuboid bodies, in particular also designed as a solid or hollow body could be. The exemplary embodiments in FIGS. 7 and 8 show air permeable sealing materials 16, the plate-shaped bodies 29 with Rectangular shape are formed, according to the figure 7- the longer side of the Rectangle or - according to Figure 8 - in the vertical direction arranged the shorter side of the rectangle can be. Of course, inclinations are also possible. The embodiments of Figures 9 to 15 relate to air-permeable sealing materials 16, in which platelet-shaped or more compact Body 29 are used, at least partially are in an overlap position, so to speak one Form a scale arrangement. The scale arrangement is so oriented that moisture does not enter the Penetrate gaps between the individual plates can, but runs out and on the mounting material 18 hits. Of course they are platelet-shaped body 29 not all in alignment towards each other, but rather because of the different Gap width and the wavy to be covered Contour of the roof covering 18 in corresponding Layers turned to allow air permeability preserved.

In the exemplary embodiment in FIG Overlap of the individual, in rows one above the other arranged, platelet-shaped body 29 only in a horizontal direction. It is also provided in the embodiment of FIG. 10, only the bodies 29 are staggered per row. In the embodiment of Figure 11 is not a rectangular shape of the body 29 is provided, but they have a lower arch Edge on. The same applies to the embodiment of Figure 12, wherein in Figure 11 in a row-like arrangement in the vertical direction and there is an offset arrangement in FIG.

In the embodiment of Figure 13 is an arrangement the plate-shaped body 29 accordingly the arrangement of Figure 11 provided, wherein however, they have a bottom border in the form of a half Have ellipse and the platelets in a vertical Align towards each other. In Figure 14 is the same configuration as provided in FIG. 13, but with an offset arrangement after Kind of scale formation is formed. The figure 15 shows an embodiment of platelet-shaped Bodies 29 such that different large platelet-shaped bodies 29 lie adjacent to one another, whereby an optimal rain and Snow protection is created, the air permeability however, remains.

Figures 16, 17 and 18 show air permeable Sealing materials 16 in the form of the design according to Figure 5, wherein in Figure 16, the individual platelet-shaped bodies 29, however, lie so closely together, that they partially overlap each other. In the exemplary embodiment in FIG. 17 is a coupling after each on the support rail 22 Type of a scale arranged on the then hang two rows of platelet-shaped bodies 29, so that a double contour is created, the quasi two in a row - for ventilation and for rain lying barriers. Both Embodiments of Figures 16 and 17 are in vertical direction, the individual bodies 29 together coupled, but exists to each neighboring row - seen in ridge longitudinal extension - no coupling. In the embodiment of the Figure 17 are only the two in a row Body 29 of each "layer" movable with each other connected.

The embodiment of Figure 18 shows the arrangement 5 in a perspective view.

FIG. 19 shows an arrangement similar to that of FIG. 16 corresponds, being instead of circular in plan Bodies 29 square respectively rectangular are provided. The same applies for the embodiment of Figure 20. To the Embodiments of Figures 16 to 19 still mentioned that the individual platelet-shaped Body 29, now as a layer according to the Figures 16 and 19 or as two layers according to the Figures 17 and 20 to view, arranged obliquely are, i.e. the respective area of the Tile is not in or parallel to one Plane in which the holding rail 22 also runs, instead they lie like a slatted blind offset so that they partially meet each other overlap, but ventilation gaps between them remain.

This slat arrangement is also in FIG. 21 as in the embodiment of FIG. 18 - not intended. In Figure 21 are instead of circular or elliptical shown in FIG Plate 29 rectangular or square intended.

In the exemplary embodiments in FIGS. 22 to 27 platelet-shaped bodies 29 are shown, which by means of corresponding coupling elements (not shown) held together. It is recognizable that in an inclined position, as is the case with Transition from Figure 22 to Figure 24 results in the individual Tiles remain in position relative to each other, namely essentially in one plane run. This is different in the exemplary embodiment 25, here the individual tiles are inclined to each other, so that overall -in vertical Direction - sets an arcuate contour.

In the embodiment of Figure 28 is a whole special way, where a cap 2 in conventional sense, i.e. in the form of a plastic profile, is not required. Rather, the Cap 2 formed in that a portion 32nd of the air-permeable sealing material 16 with a provided elastic or plastic mass 33 is indicated by points in FIG is. As a result, this partial area 32 becomes stiffened so that a stabilizing component 34 is formed. Depending on the selected elastic or plastic mass 33, for example bitumen or other long-term flexible materials can Properties of this cap 2 thus determined become. At the edges 35 of the cap 2, which are parallel to the longitudinal extension of the ridge is no elastic or plastic mass provided, that is from there are the link elements 30 of the air-permeable sealing material 16 movable relative to one another, so that it suits gravity training and the contour of the one to be closed Adjust the gap. It is also after another Embodiment (not shown) possible that in the area of the cap 2 no link elements 30 are provided, but that the cap 2 itself the aforementioned elastic or plastic mass 33 exists and that the link elements only in their edge area 30 are attached. Again, this can gathered or arched or the like.

The embodiment of Figure 28 has opposite the previously described embodiments Advantage that - for transport to the construction site or for storage - the air-permeable sealing material 16 can be wound up in a roll can, which makes it very easy to handle and only occupies a small space.

The invention is thus seen as a whole Chain or link parts (open rings or links), which Air passage openings in themselves and / or in To have connection to the other link (s). The single ones Chain link parts or the like can made of plastic or metal, is also the use other materials possible. Unless it is Metal parts or the corresponding parts Metal, preferably copper, brass, Bronze or galvanized parts used, which is achieved that ions from moisture leak the materials that green the Environment of the ventilation element according to the invention prevent. Overall, the invention Design a year-round ventilation system that yourself optimally when laying adapts and has the ventilation function, however Moisture like sloping rain and flying snow is not lets penetrate. The attachment to the cap 2 can - as already mentioned above - arcuate or even gathered, but it is also possible a tight attachment - in the longitudinal direction of the Firstes seen- to make.

Of course, instead of the rings or Platelets can also be used to weave the form air-permeable sealing material 16, that is for example wire mesh. This wire mesh have a greater stiffness than that freely link elements 30 coupled to one another, however, when laying it is very easy to by corresponding impressions in the ones to be covered Areas the position of the air-permeable sealing material 16 to specify. Unless there are tiles used, it is possible that the air permeable sealing materials 16 balls or Have cubes that are movably connected to each other are so that they are like a pearl curtain Act. Of course it is also possible to provide annular platelets, such as, for example of sequins are known.

Claims (16)

1. Ventilating element for roofs, with a cap (2) located in the ridge, hip or arris area, with which is associated a shape-flexible, air-permeably constructed sealing material (16) bridging a gap with respect to the roofing material, characterized in that the air-permeable sealing material (16) has movably interconnected link elements (30).
2. Ventilating element according to claim 1, characterized in that the air-permeable sealing material (16) is a metal gauze, metal mat, metal wire mat, multiwire element or metal lamellar element.
3. Ventilating element according to claim 1 or 2, characterized in that the air-permeable sealing material (16) has or comprises an ion-emitting metal.
4. Ventilating element according to one of the preceding claims, characterized in that the air-permeable sealing material (16) is deformed essentially under the action of gravity and is placed on the roofing material (18).
5. Ventilating element according to one of the preceding claims, characterized in that the cap (2) has longitudinal borders (longitudinal edges 15), on which is located in a preferably hanging manner the air-permeable sealing material (16).
6. Ventilating element according to one of the preceding claims, characterized in that the air-permeable sealing material (16) is arranged in gathered or arcuate manner in the longitudinal border region of the cap (2).
7. Ventilating element according to one of the preceding claims, characterized in that the cap (2) is formed by a partial area (32) of the air-permeable sealing material (16).
8. Ventilating element according to one of the preceding claims, characterized in that the partial area (32) is stiffened by means of an elastic or plastic material (33).
9. Ventilating element according to one of the preceding claims, characterized in that the cap (2) is a plastic profile or a plastic ventilating profile.
10. Ventilating element according to one of the preceding claims, characterized in that the air-permeable sealing material (16) is a ring netting (25), particularly a wire ring netting (26).
11. Ventilating element according to one of the preceding claims, characterized in that the air-permeable sealing material (16) has preferably movably interconnected lamellar or spherical, respectively parallelepipedic or cubic bodies (29).
12. Ventilating element according to one of the preceding claims, characterized in that the lamellar bodies (29) are arranged in scale-like manner.
13. Ventilating element according to one of the preceding claims, characterized in that the air-permeable sealing material (16) has or comprises copper, brass and/or bronze.
14. Ventilating element according to one of the preceding claims, characterized in that the air-permeable sealing material (16) has or comprises galvanized parts.
15. Ventilating element according to one of the preceding claims, characterized in that it comprises plastic or other materials.
16. Ventilating element according to one of the preceding claims, characterized in that it can also be introduced into the valley and eaves area of a roof.

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