EP0590277A1 - Ventilating trim for roof ventilation - Google Patents

Abstract

Shown and described is a fan cap (1) made of plastic material, for rear ventilation of roofs in the ridge, hip or ridge area, with a fastening area (2), with an edge area (3) and with a fastening area (2) and the edge area ( 3) connecting intermediate region (4), the intermediate region (4) air passage openings (5, 6) and the edge region (3) on the roof side having an elastically flexible sealing member (7) extending over the cap length and the sealing member (7) having the structure has a fine thread brush with a carrier part (8) and a plurality of elastic brush threads (9) arranged in at least largely flow-tight packing. According to the invention, the effect of the weather conditions on the brush threads (9) is largely eliminated by the fact that on the outside of the sealing member (7) - that is to say on the side facing away from the roof - at least one protective element which has as little influence as possible on the elasticity of the brush threads (9) (10) is arranged. <IMAGE>

Description

The invention relates to a fan cap, preferably made of plastic material, for rear ventilation of roofs in the ridge, hip or ridge area, with a fastening area, with an edge area and with an intermediate area connecting the fastening area and the edge area, the intermediate area having air passage openings and the edge area on the roof side has an elastically flexible sealing member that extends over the length of the cap and the sealing member has the structure of a fine thread brush with a carrier part and a plurality of elastic brush threads arranged in at least largely flow-tight packing.

Fan caps of the type in question for rear ventilation of roofs have been known for some time. For better rear ventilation of a roof cover, fan caps are arranged in the ridge area of a roof to avoid possible damage caused by moisture formation. The ventilated roof covers generally have an inner shell, an outer shell and a ventilated roof space. While the inner shell is mainly used for thermal insulation, the outer shell of the ventilated roof provides protection against the weather. It must be able to remove the moisture in the direction of the eaves and is particularly subject to further temperature-related stresses. The ventilated room separates the inner and outer shell and serves to remove the building moisture and the moisture in use. The ventilation of the roof space is u. a. depending on the cross-section and the shape of the air gap, the cross-section and the shape of the air openings and the flow-restricting structural fittings in the gap. The air inlet or outlet openings for such a roof covering are generally provided in the eaves and ridge area. The fan caps of the type in question located in the ridge area ensure good ventilation of the roof space and the removal of moisture.

However, the arrangement of fan caps in the ridge area of a roof is problematic, since the air openings or air gaps existing in the ridge area between the fan cap and the roof cover must be sealed off in a water-tight and snow-tight manner, and the gaps in the ridge area have pronounced spacing differences and sharp-edged transitions.

From DE-GM 89 13 744, from which the invention is based, fan caps are now known, which have sealing elements arranged in the edge region in the form of fine thread brushes. The fine thread brushes have a large number of elastic brush threads arranged in at least largely flow-tight packing, which adapt easily to the most varied gap shapes, in particular also to sharp-edged transitions. In general, the brush threads are made of polypropylene or nylon and have a resilience, so that regardless of the type of roofing material, the brush threads attach themselves to the corresponding transitions or to the roofing material.

The good functioning, i. H. the tightness of the fan caps provided with these sealing elements decreases under the constant influence of the weather conditions. The brush threads exposed to solar radiation, in particular UV radiation, and large temperature differences can become brittle, lose their resilience and tear easily, as a result of which the packing density is reduced, so that the sealing function of such a sealing element designed as a fine thread brush is no longer adequately guaranteed. As a result, rainwater or flying snow can get through the fine thread brush into the ventilation spaces of the roof covering, which increases the moisture inside the ventilated roof space.

The invention is therefore based on the object of designing and developing a fan cap of the type in question in such a way that the effect of the weather conditions on the brush threads, which can result in poor sealing of the sealing member, is eliminated without the advantages of being a fine thread brush sealing element - the problem-free adaptation to the different gap shapes and sharp-edged transitions - is no longer necessary.

The above-mentioned object is achieved in that at least one die on the outside of the sealing member, that is on the side facing away from the roof The elasticity of the brush threads is arranged as little as possible influencing protective element. Due to the arrangement according to the invention of a protective element influencing the elasticity of the brush threads as little as possible on the outside of the sealing member designed as a fine thread brush, the brush threads are protected from strong sunlight, in particular UV radiation, and large temperature differences, so that the effect of the weather conditions on the brush threads is eliminated and the advantage of problem-free adaptation to the different gap shapes and sharp-edged transitions still exists. The protective element influencing the elasticity of the brush threads as little as possible protects the brush threads of the sealing member, so that embrittlement or a reduction in the resilience of the brush threads is avoided, and the advantages of a fine thread brush that is adaptable to different local conditions are retained. It is preferably the case that the protective element is designed as a film which is produced on a polymer base, in particular from polyester urethane and which is glued to the outside of the fine thread brush.

Fig. 1

eine Lüfterkappe mit an dieser angeordneten erfindungsgemäßen Abdichtorganen in der bevorzugten Ausführungsform,

Fig. 2

die bevorzugte Ausführungsform des erfindungsgemäßen Abdichtorgans nach Fig. 1 im Schnitt dargestellt,

Fig. 3

eine weitere Ausführungsform eines erfindungsgemäßen Abdichtorgans in einer perspektivischen Darstellung,

Fig. 4

noch eine weitere Ausführungsform eines erfindungsgemäßen Abdichtorgans in einer perspektivischen Darstellung.

There are now various possibilities for developing and developing the teaching of the invention, for which purpose reference may be made to the claims subordinate to claim 1. The invention is explained in more detail below with reference to a drawing that shows several exemplary embodiments. In the drawing shows

Fig. 1

a fan cap with sealing elements according to the invention arranged thereon in the preferred embodiment,

Fig. 2

the preferred embodiment of the sealing member according to the invention shown in FIG. 1 in section,

Fig. 3

another embodiment of a sealing member according to the invention in a perspective view,

Fig. 4

yet another embodiment of a sealing member according to the invention in a perspective view.

Fig. 1 shows a fan cap 1 made of plastic material for rear ventilation of roofs in the ridge, hip or ridge area of a roof. The ridge tile covering the fan cap 1 in the ridge area of the roof, the roofing material running from the ridge to the eaves and the ridge slat supporting the fan cap 1 are only shown in dash-dotted lines here.

The fan cap 1 has a fastening area 2, an edge area 3 and an intermediate area 4 connecting these two areas. In the intermediate area 4 there are air passage openings 5 for rear ventilation of the roof and in the edge area 3 there are support elements 6 for supporting the ridge tile shown here in broken lines. The edge area 3 has on the roof side an elastically flexible sealing element 7 which extends over the length of the cap. The sealing member 7 has the structure of a fine thread brush with a carrier part 8 and a plurality of elastic brush threads 9 arranged in at least largely flow-tight packing. On the outside of the fine thread brush or the sealing member 7 - that is, on the side facing away from the roof - is the elasticity of the brush threads 9 arranged as little as possible influencing protective element 10.

The protective element 10 substantially completely covers the outside of the sealing member 7 along the length of the cap. The protective element 10 is deformable and is supported by the brush threads 9. It can be clearly seen that the brush threads 9 "nestle" on the roofing material shown in dash-dotted lines due to their elasticity unaffected by the protective element 10.

In the preferred embodiment, the protective element 10 is designed as a film. This film is made on a polymer basis, preferably made of polyester urethane, and glued to the outside of the sealing member 7, in particular the “outer” brush threads 9.

The protective element 10 in the form of a film prevents rain and / or snow from penetrating through the brush threads 9 of the sealing member 7. The polymer-based film, which serves here as a protective element 10, has good to very good UV resistance and high flexibility low temperatures and good resistance to heat aging. This protects the brush threads 9 of the sealing member 7 from the weather and increases the tightness of the sealing member 7 due to the film being impermeable to rain and snow.

Films produced on a polymer basis, which are used here as protective elements 10, have the following advantageous properties in particular: high mechanical strength, good resistance to oils, greases and many solvents, good resistance to rotting and good weldability by all customary processes. Such films generally have a thickness of 0.025 to 0.2 mm.

2 to 4 different embodiments for a sealing member 7 are shown. The sealing member 7 is generally designed in a certain width or depth dimension, so that the tightness of a sealing member 7 is maintained. In addition, the brush threads 9 support the protective element 10 arranged on the outside of the sealing member 7. The arrangement of a protective element 10 makes it possible to reduce the width or depth dimension of a sealing member 7, since the protective element 10 increases the tightness of the sealing member 7. This enables material savings. In general, the width or depth dimension of a sealing member 7 is in the range from about 2 to 6 mm, preferably from about 2 to 3 mm. The dimensions can vary greatly depending on the local conditions.

The sealing member 7 shown in FIGS. 2 to 4 has brush threads 9 made of plastic material, in particular polypropylene or nylon. Brush threads 9 made of metal and / or natural fibers would also be conceivable. The diameter of the brush threads 9 is approximately in the range from 0.1 to 0.4 mm, preferably in the range from 0.15 to 0.35 mm. By choosing different diameters for the brush threads 9 it is achieved that the brush threads 9 have at least partially different stiffness. The brush threads 9 located on the edge are preferably stiff in order to ensure that the brush threads are in good contact with the roofing material. The good adaptation properties of the brush threads 9 to the roofing material can also be enhanced by the fact that the brush threads 9 are partially deformed, preferably corrugated.

Fig. 2 shows the sealing member 7 of FIG. 1 in the preferred embodiment in an enlarged view. The sealing member 7 can be coupled to the fan cap shown in FIG. 1, which has rail-like guides in the edge region 3 (cf. FIG. 1). The carrier part 8 is designed as a metallic, U-shaped clamping member and the brush threads 9 are guided around a thread or wire-shaped holding element 11. The legs of the carrier part 8 clamply fix the brush threads 9. A plurality of layers of adjoining and superposed brush threads 9 are provided on the thread or wire-shaped holding element 11. In this way, any packing density of brush threads 9 can be achieved with such a sealing member 7. However, the arrangement of brush threads 9 of different lengths is also conceivable, so that a stepped or wedge-shaped design of the inside of the sealing member 7 is possible. It is crucial that a protective element 10 is arranged on the outside of the sealing member 7, whereby the advantages already described are achieved.

3 and 4 show further possible embodiments of a sealing member 7. The brush threads 9 are fixed here in the carrier part 8 of the sealing member 7. On the outside of the sealing member 7, a protective element 10 designed as a film is in turn arranged, in particular glued on. The sealing members 7 shown in FIGS. 3 and 4 differ in the design of the inside - that is, the side facing the roof.

Due to the step-like design of the inside of the sealing member 7, shown in FIG. 3, the brush threads 9 are precisely adapted to sharp-edged ones Enables transitions. In contrast to this, the inside of the sealing member 7 shown in FIG. 4 is wedge-shaped, which also enables the brush threads to be exactly adapted to the roof or the roofing material. Other embodiments for the inside of a sealing member 7 are also conceivable. For example, the inside of the sealing member 7 can only be partially wedge-shaped or unevenly stepped. This depends on the local conditions.

The sealing members 7 shown in FIGS. 3 and 4 can also be connected to the correspondingly designed edge region of a fan cap in a force-locking or positive-locking manner. A non-positive connection could be achieved in particular by means of snap-snap connections, push-button connections, punctiform or small-area welded or riveted connections or the like. A positive connection is possible through the formation of a one-part or multi-part sliding guide (cf. FIG. 1). The coupling with a fan cap can also be made possible by an additional coupling element (not shown) arranged on the carrier part 8 of the sealing member 7.

The arrangement of a protective element 10 which influences the elasticity of the brush threads 9 as little as possible on the outside of a sealing member 7 protects the brush threads 9 from the weather and increases the tightness of a sealing member 7. As a result, the advantages of a sealing member 7 designed as a fine thread brush are retained.

Protective elements 10 are therefore not only conceivable films made of polymer, but also fibrous materials or any pastes applied in liquid form to the brush threads 9, which then form a solid protective layer on the outside of the sealing member 7. But simple "protective caps" arranged on the outside of the sealing members 7 to protect the brush threads 9 from the weather are also conceivable.

It has previously been stated that the protective element 10 - designed as a film - can be glued to the outside of the sealing member 7, in particular to the "outer brush threads 9". 2, in particular the enlarged section 2 shows another type of connection of the protective element 10 with the sealing member 7. Here, namely, the protective element 10 is sewn to the sealing member 7 designed as a fine thread brush or with its brush threads 9, one could also say: interwoven. A sewing or weaving thread 11 comprises the protective element 10 on the one hand, and the individual brush threads 9 of the sealing member 7 on the other hand.

Claims (10)

Fan cap, preferably made of plastic material, for rear ventilation of roofs in the ridge, hip or ridge area, with a fastening area, with an edge area and with an intermediate area connecting the fastening area and the edge area, the intermediate area air passage openings and the edge area on the roof side being over the Has cap-length-extending, resilient sealing member and the sealing member has the structure of a fine thread brush with a carrier part and a plurality of elastic brush threads arranged in at least largely flow-tight packing, characterized in that on the outside of the sealing member (7) - i.e. on the roof facing away side - at least one protective element (10) which influences the elasticity of the brush threads (9) as little as possible is arranged. Fan cap according to claim 1, characterized in that the protective element (10) essentially completely covers the outside of the sealing member (7). Fan cap according to claim 1 or 2, characterized in that the protective element (10) is deformable. Fan cap according to one of claims 1 to 3, characterized in that the protective element (10) is supported by the brush threads (9). Fan cap according to one of claims 1 to 4, characterized in that the protective element (10) is designed as a film. Fan cap according to claim 5, characterized in that the film is made on a polymer base, preferably made of polyester urethane. Fan cap according to one of claims 1 to 6, characterized in that the protective element (10) is glued to the outside of the sealing member (7). Fan cap according to one of claims 1 to 7, characterized in that the protective element (10) is sewn and / or interwoven with the sealing member (7) or with the individual brush threads (9) of the sealing member (7). Fan cap according to one of claims 1 to 8, characterized in that the protective element (10) is impermeable to rain and snow and / or very good UV resistance and / or high flexibility and / or good resistance to heat aging even at low temperatures having. Fan cap according to one of claims 1 to 9, characterized in that the brush threads (9) have at least partially different stiffness, in particular the brush threads (9) on the edge are stiffer than the other brush threads (9).

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