CZ296036B6 - Ridge and/or hip ventilation element - Google Patents

Abstract

The present invention relates to a ridge and/or hip ventilation element (10) having a central part (11), which can be fixed onto a ridge lath and/or a hip lath (15), and a side part (12). Both sides of the central part (11) are adjoined by side parts (12), which can be placed by their outer edge areas (26) on roof coverings (20), and are so configured as to let air circulate between their edge areas (26) and the central part (11). The side parts (12) have longitudinal folds (18, 19, and 28 to 30) in their air-permeable area (16) and/or in their outer edge areas (26). These longitudinal folds extend in the longitudinal direction (17) of the ridge and/or hip ventilation element and create a storage area. The ridge and/or hip ventilation element (10) is thus so configured as to be extractable by its lateral length. By using this ridge and/or hip ventilation element (10), open spaces of different sizes between the ridge lath and the roof covering can be covered in such a way that air circulation is possible between the ridge lath and the roof covering, and the space between the ridge tiles and the roof covering is easy to seal.

Description

BACKGROUND OF THE INVENTION The invention relates to a ridge and / or corner ventilation element, the central portion of which is mountable to the ridge or corner slat, and whose side portions adjoining the central portion on both sides are movable by their outer edge regions to the roofing. air-permeable edge regions and a central portion.

BACKGROUND OF THE INVENTION

Such a ridge and / or corner ventilation element is known from the German utility model G 94 16 291.3.

The ridge and / or corner ventilation elements are used in the roof to seal the gap remaining between the ridge or corner battens and the roof covering. This gap between the ridge or corner slat and the roof covering extends right and left along the ridge or corner slat in the longitudinal direction of the roof ridge. The ridge and / or corner ventilation element prevents rainwater, snow, insects or dirt from entering the roof interior. At the same time, adequate ventilation of the roof interior must be provided by the ridge and / or corner ventilation element to protect the roof truss from damage caused by rot.

The known comb and / or corner ventilation element is made in one piece of open-cell soft foam. Its geometric dimensioning bridges the gap between the ridge batten and the roof covering. Subsequently, a ridge fan is placed on the ridge ventilation element such that the edge areas of the ridge ventilation element are sealed against the roofing. Problems arise when the ridge ventilation element cannot cover the gap between the ridge batten and the roof covering as expected. In these cases, sealing problems occur in the marginal areas between the roofing and the ridges. Ventilation problems may also arise due to incorrect attachment of the comb ventilation element when the air permeable area abuts, depending on the circumstances, on the comb batten or the roof covering. For this reason, the air permeable area can no longer fulfill its function.

However, the spacings between the ridge batten and the roof batten (or roofing) are always differently dimensioned in the construction of the roof truss. Also, if the roof battens are inaccurately arranged, the distance between the ridge batten and the roofing material can vary with the same truss.

A possible solution to this problem may be that the artisan uses comb ventilation elements of different sizes. However, this is expensive and makes the sealing between the roofing and the ridges more expensive.

DE 40 01766 C2 discloses a ridge and / or corner ventilation element which can be fixed in the ridge area as described above. The side portions of this comb ventilation element consist of a web or fabric that determines the shape and dimensions of the comb ventilation element. Therefore, this ridge and / or corner ventilation element is also unable to cover the various spacing between the ridge batten and the roof covering.

In the case of the sealing strips described in German Utility Model 295 01242, 0, the central strip passes over two longitudinal notches, each of which has a defined length, into the side strips. According to this embodiment, the sealing strips have preformed breaking edges which are adaptable to different widths of comb and corner slats.

-1 CZ 296036 B6

Single or multiple bends formed on the ventilation member according to the idea of DE 38 25 348 A1 allow the formation of entrainment flow edges.

The longitudinal folds of the ridge ventilation element known from GB 21 55 516 form grooves in which further components of the ridge ventilation element can be fastened

SUMMARY OF THE INVENTION

The present invention is based on a technical problem to provide a ridge and / or corner ventilation element by means of which the free spaces between the ridge batten and the roof covering can be covered so that air circulation between the ridge batten and the roof covering is possible and the area between the ridges and the roof covering can be easily sealed.

This problem is solved according to the invention in that the side portions are provided with longitudinal folds extending in the longitudinal direction of the ridge and / or corner element providing their storage area in their air-permeable and / or outer peripheral regions, providing a ridge and / or ridge. or the corner ventilation element is extensible laterally.

By means of the longitudinal folds of the ridge ventilation element according to the invention, the ridge ventilation element can variably react to different distances between the ridge batten and the roof covering. The folds in the longitudinal direction of the ridge ventilation element ensure that the spread of the ridge ventilation element to the sides can be appropriately adapted, and yet the area of the side part necessary for ventilation is provided. At a distance between the ridge batten and the roof covering less than the lateral length of the ridge vent element, new folds can be formed in the ridge vent element so that the ridge vent element can be laterally shortened accordingly. As a result, the edge area is still tightly on the roof covering, while the air-permeable area of the side part of the ridge ventilation element is optimally positioned at the ridge batten.

Variations in tolerances due to the use of various comb or corner slats and their attachment to each other affect the functionality of the comb ventilation element.

According to the invention, the longitudinal folds may be formed such that the respective sections of the side part of the ridge and / or corner element are arranged one above the other or also side by side, so that the longitudinal folds point towards the ridge. The individual longitudinal folds do not have to be sharp-edged, but they can also be folded with rounding. Importantly, the planar areas of the side portion with the pleated skirt structure may be folded or stretched in the manner of a accordion. Therefore, according to the invention, the formation of longitudinal folds also means that the individual regions of the side portions of the ridge ventilation element form ridges and recesses of the waves. These corrugated folds have the advantage that the comb ventilation element can be variably adapted transversely to its longitudinal direction. When stretched, the relative angle of the adjacent folds increases. This section of the comb ventilation element lengthens without extending the material.

According to a particularly preferred embodiment of the ridge ventilation element, the outer edge regions have longitudinal folds which are adjustable in the form of a flow edge directed away from the roofing. In conjunction with the possibility of expanding the comb ventilation element as desired, such a flow edge can be formed at any point between the roofing and the ridge and in any size. The flow edge may protrude upwards to the ridge with little extension, but may also be adjacent to the ridge. The flow edge prevents the flow of air from entering snow, moisture or dirt. The air permeable region of the comb ventilation element thus remains dry and permeable so that air can circulate through this air permeable region.

-2GB 296036 B6

According to a further embodiment of the invention, the side portions in their air permeable regions consist of individual fibers which are connected to one another in a moldable grid or fabric. By using the individual fibers, an area of the ridge vent element is realized through which air can flow highly efficiently. Even if the sub-regions of the side section with the grid structure are stacked with each other, the air can still flow out of the inner area of the roof. In contrast to the prior art, a defined possibility for air flow is still provided through the grid openings.

In view of the production of the ridge ventilation element according to the invention, it is preferred that the outer edge regions of the side portions are formed by strengthening the grid areas. As a result, the entire comb ventilation element except the central portion is formed of a mesh or grid. For sealing between the roof covering and the ridge, it is advantageous if the outer edge regions consist of a moldable grid. This makes it possible to adapt the edge areas to the contour of the roof covering and to create a better seal. By reinforcing the grid regions, the holes between the individual fibers are thus removed and thus sealed, but the formability of the grid remains.

According to a further development of this embodiment, the strengthening of the edge regions consists of a coating and / or a coating of the grid region with a thin-walled film. Thin-walled foil both serves to close the openings of the grid and on the other hand increases the stability of the edge regions. Thus, the edge regions can be adapted to different roof contours and the sealing function can be enabled.

According to a first embodiment of this development, the foil is made of light metal. For example, it is possible to cover the mesh fabric from both its top and bottom sides with aluminum foil. The two aluminum foils can be glued together so that the moldable grid or fabric is built into the aluminum sheath. The formability by means of the grid structure thus remains even when the aluminum foil is fixed. However, foils of other metal alloys may also be used.

According to another embodiment, the coating of the grid structure is made of plastic. The use of plastic has the advantage that the comb ventilation element, in addition to cost-effective manufacture, can be made of a weather-resistant material.

The lattice region of the comb and / or ventilation element is preferably formed of fibers of elastic plastic or metal. By means of such fibers, the comb ventilation element, in addition to formability by the longitudinal folds of the invention, can be further shaped to create a three-dimensional structure which can be well adapted to the roof area to be treated. In particular, the individual fibers can also be provided after the ridge ventilation element has been fixed. Similar to shutting off the tennis racket, the fibers may be moved relative to each other to correct for any deterioration in air permeability.

According to a further preferred embodiment, the comb and / or corner ventilation element is collapsible. This has the advantage that the comb and / or corner element can be rolled into larger rolls which can be stored, transported and fastened to the roof very simply and inexpensively. Rolls with a length sufficient for an average roof can be produced. By unwinding the ridge vent element, the craftsman can easily fix the ridge vent element to the ridge batten and roofing.

As an alternative to the roll-up embodiment, the comb ventilation element according to the invention may also be folded folds formed transversely to its longitudinal direction onto an endless comb ventilation element. The ridge vent element ready for transport is then not in the form of a cylindrical roll but has a cuboid shape. It can then be better stacked. The ridge vent element can then be housed in a rectangular container and can be removed as a strip in respective sections and separated as required. The ridge ventilation element can be fastened particularly simply when the lower sides of the central portion and / or the outer regions of the side portion are provided with an activatable adhesive layer. By pulling the protective film over the adhesive layer, the comb ventilation element can be adhered firmly. Thus, a durable and tight closure of the slot between the rack-and-pinion gears can be easily carried out

Laths and sloping roofing. Any gluing techniques and any adhesives, such as hot glue, are also applicable to the glue ventilation element. The hot glue is inseparably connected with the plastic of the comb ventilation element so that, despite the occurrence of high temperatures in the roof region, a reliable positive connection is permanently realized.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features and advantages of the invention will become apparent from the following description of an exemplary embodiment of the invention, from the drawings showing details of the invention, and from the claims. In carrying out the invention, the individual features may be implemented individually or in various combinations.

In the drawings it represents:

FIG. 1 is a perspective view of a ridge and / or corner vent element; FIG. 2 shows a roll into which the roll and / or corner element is collapsible according to claim 1 prior to attachment thereof; FIG. 3 is a front view of another comb and / or corner vent element; element according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

The invention is illustrated schematically in the drawings so that the essential features of the invention are well recognizable. Illustrations are not necessarily to scale.

Giant. 1 shows a ridge ventilation element 10 as arranged, for example, in a ridge area of a truss. The ridge vent element 10 has a central portion 11 adjoined by the side portions 12. In the mounted state of the ridge vent element 10, the central portion 11 lies with its underside 13 on the upper side 14 of the ridge batten 15. On its underside 13, the middle portion 11 has an adhesive layer so that the middle portion 11 is permanently and firmly secured to the comb battens 15.

The air permeable regions 16 of the side walls 12 adjoin the central portion 11. The air permeable regions 16 have two folds 18 and 19 extending in the longitudinal direction 17 of the ridge vent element. By forming the folds 18 and 19, the area 16 can be transverse to the longitudinal direction 17 differently composed. The elongation of the comb ventilation element 10 transversely to the longitudinal direction 17 can thus vary. By providing even further longitudinal folds 18 and 19, this function can be further enhanced. It is possible to bridge different distances between the ridge batten 15 and the roof covering 20.

The roof covering 20 is formed of individual roofing plates and lies on the roof battens 21 and 22. The roof battens 21 and 22 are fastened to the rafters 23 and 24. The ridge batten 15 is arranged above the rafters 23 and 24 by the ridge batten holder 25.

The central portion 11 of the ridge ventilation element 10 passes into an air permeable area 16, which is again followed by an air impermeable edge area 26. The side portion 12 consists of an air permeable area 16 and an air impermeable edge area 26. The edge region 26 is also foldable so that its length in the direction of the arrow 27 can also vary. In addition, transverse folds are formed in the edge region 26, whose folding edges extend in the direction of the arrow 27. Thus, the edge region 26 can be well adapted to the undulating roof contour.

The longitudinal folds 28 to 30 of the peripheral region 26 are shown. As with the region 16, further longitudinal folds 28 could be formed in the peripheral region 28. Both the region 16 and the peripheral region 26 are extensible in this case as pulling harmonica. The areas formed by the longitudinal folds 28 to 30 may either be folded so that the edge area 26

Preferably, the edge region 26 is formed with a flow edge 32 facing out of the ridge 31. The edge 32 prevents snow or rain from penetrating the roofing area 20 below the ridge 31 to the area. 16 permeable to air.

The air permeable area 16 consists of a plurality of individual fibers which are connected to a grid. The fibers consist of elastic plastic fibers so that the region 16 can be further shaped to accommodate the region between the ridge batt 15 and the roofing 20.

The free space 33 that remains between the ridges 31 and the comb ventilation element 10 forms the flow area or flow area. exhaust air rising from the inside of the roof and air flow across to the ridges.

In this free space 33, the exhaust rising from the inside of the roof through the area 16 collects.

The air stream coming on the windward side of the roof flows partially below the ridge area 34 into the free space 33. Below the ridge area 35, the air stream can exit the free space 33 again and carry with it the exhaust located in the free space 33. across the ridge 31 and generates a negative pressure on the downstream side in the ridge area 35. As a result, the air located in the free space 33 below the ridge area 35 is sucked out so that good ventilation of the interior of the roof is ensured.

For the ventilation of the interior of the roof, it is advantageous if the air flow in the free space 33 occurs in the direction of the arrow 27.

Giant. 2 shows how the comb ventilation element can be transported prior to assembly.

The ridge vent element 10 consists of a central portion 11 and side portions 12. The ridge vent element 10 is formed symmetrically to secure its central portion to the ridge batten (see FIG. 1). However, according to the invention, comb-like ventilation elements are also possible, which are designed asymmetrically or in a non-symmetrical manner. which serves to seal and vent only one roof area.

Side portions 12 adjoin the middle portion 11 on both sides. Each side portion 12 again consists of an air permeable area 16 and an air impermeable area 26. The air permeable area 16 consists of a plurality of individual fibers which are connected to a mesh or grid. The grid is only indicated in FIG. 2.

The side portions 12 of the ridge ventilation element 10 have longitudinal folds 18, 19 and 28 to 30, so that the side portions 12 can, as far as possible in the plane, be pressed together. In the fixed state of the ridge ventilation element 10, the side portions 12 can expand and bridge different spacings and interstices between the ridge batten and the roof covering. In the figure, the portions of the side portions 12 are flattened to allow the ridge vent element 10 to be rolled into a roll. The ridge vent element 10 is made of elastic plastic. Thus, the side portions 12 can be easily folded, expanded and optionally folded. refold. The longitudinal folds 18, 19 and 28 to 30 may already be formed in the pre-fabricated ridge ventilation element 10, but may also be shaped by the artisan at another location of the side portion 12 due to the formability of the material. The flow edge (see FIG. 1), the height of which can be adjusted to the free space below the ridge, is formed by a differently sized edge 26 which protrudes from the edge area 26.

The ridge vent element 40 again consists of the central portion 41 and the adjacent side portions 42 of FIG. 3. The central portion 41 is planar and of a material different from that of the side portions 42. The side portions 42 consist of two separate parts, namely, air permeable regions 43 and marginal regions 44 air impermeable. The area 42 and the edge area 44 are

Made of different materials and glued together. Thus, the region 42 can pass very well the air flow, while the edge region 44 can perform the seal function well.

The area 42 is folded in the manner of a bellows with protruding longitudinal folds so that the elongation of the comb vent element 40 in the direction of the arrow 45 can vary. The edge region 44 has transverse folds 46 for adaptation to the corrugated roofing (see FIG. 1). The flow edge 47 may prevent snow or rain from entering.

The ridge and / or corner member 10 has a central portion 11 attachable to the ridge or corner battens 15 and a side portion 12. They adjoin both sides of the central portion 11 of the side portion 12, which can be laid on the roof covering 20 with their outer edge regions 26. air permeable between their edge regions 26 and the central portion 11. The side portions 12 are provided in their air permeable regions 16 and / or in their outer peripheral regions 26 with longitudinal folds 18, 19, 28 to 30 extending in the longitudinal direction 17 of the comb and / or corner ventilation element. By using the comb and / or corner ventilation element 10, the free spaces between the comb batten and the roofing can be covered so that air circulation between the comb batten and the roofing is possible, and the area between the combs and the roofing can be easily sealed.

Claims (10)

A ridge and / or corner ventilation element (10; 40), the central portion (11; 41) of which is mountable on the ridge or corner slat (15), and whose side portions (12; 42) adjoining the central portion on both sides a portion (11; 41), with their outer edge regions (26; 44), can be laid on the roofing (20), and are air permeable between their outer edge regions (26; 44) and the central portion (11; 41), characterized in that the side portions (12; 42) are provided with longitudinal folds (18, 19, 28 and 30) in their air permeable regions (16; 43) and / or in their outer edge regions (26; 44) ) extending in the longitudinal direction (17) of the ridge and / or corner element (10; 40) providing a storage area, so that the ridge and / or corner ventilation element (10; 40) is extensible laterally. Ridge and / or corner ventilation element according to claim 1, characterized in that the outer edge regions (26; 44) have longitudinal folds (28, 29, 30) which are adaptable to the shape of the flow edge (32; 47). facing away from the roof covering (20). Ridge and / or corner ventilation element according to claim 1 or 2, characterized in that the side portions (12; 42) consist in their air-permeable regions (16; 43) of individual fibers which are connected to one another in moldable grids or fabrics. The ridge and / or corner ventilation element according to any one of the preceding claims, characterized in that the outer edge regions (26; 44) of the side portions (12; 42) are formed by strengthening the grid areas. A ridge and / or corner ventilation element according to claim 4, characterized in that the reinforcement of the edge regions (26; 44) consists of coating and / or covering the grid region with a thin-walled foil. Ridge and / or corner ventilation element according to claim 5, characterized in that the foil is of light metal. -6GB 296036 B6 A ridge and / or corner ventilation element according to claim 5, characterized in that the foil is of plastic. 5 Ridge and / or corner ventilation element according to one of the preceding claims, characterized in that the fibers are made of elastic plastic or metal. Ridge and / or corner ventilation element according to one of the preceding claims, characterized in that the ridge and / or corner ventilation element (10; 40) is collapsible. O Ridge and / or corner ventilation element according to one of the preceding claims, characterized in that the undersides of the middle part (11; 41) and / or the outer edge regions (26; 44) of the side parts (12; 42) are provided with an activatable layer of glue.