NL9402068A - Ventilation profile - Google Patents

Abstract

Ventilation profile for roof edges for venting the space between the roof covering (roofing material) and the tiling (tile cover) arranged at a distance above it, comprising a first bedding surface and a second bedding surface which are at an angle with respect to one another, and a first and second truss which are situated at sides of the profile which are opposite the first and second bedding surfaces. The profile defines a first venting duct between the first bedding surface and the first truss and defines a second venting duct between the second bedding surface and the second truss, the second venting duct being at an angle with respect to the first venting duct.

Description

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The invention relates to a ventilation profile for roof edges for venting the ruins between the roof covering and the tile deck arranged at a distance above it.

Such a ventilation profile is known from German patent application 40.06.864. The known ventilation profile mainly consists of an elongated plastic grid, which is provided at the top with a number of pre-arranged fingers, which can form so-called bird scrap, and at the bottom by a number of spaced apart supporting parts, which are usually fixed under the ventilation profile, can be pivoted away or removed at the location of a gutter bracket, so that the profile can lie substantially horizontally in the longitudinal direction.

With this ventilation profile, air exchange between the outside air and the roof space between the tile deck and roof covering takes place via the spacing between the fingers of the bird scrap and through the openings in the grid-shaped base profile, and further via the passages defined by the bottom of the profile, the gutter bracket and the legs. . The base profile serves not only for ventilation, but also to compensate for the loss of construction height due to the absence of underlying roof tiles at the lower roof edge. The bird scrap serves to prevent birds from entering the aforementioned roof space.

There are also known constructions in which no use is made of a ventilation profile per se. An example of this can be mentioned in Dutch patent application 75.10523, which discloses a bird scrap, which comprises a number of adjacent fingers, which are formed on a fastening strip. This fastening strip is attached to an additional roof batten, which is attached to a bottom tile batten to compensate for the reduced construction height due to the absence of a bottom tile. In this case, therefore, an extra bar is used and the ventilation remains limited to the passages between the flexible fingers of the bird scrap.

The construction at the sub-roof edge can have different shapes and dimensions, such as a gutter, which is attached to the roof by means of brackets. These brackets are mounted on a so-called bracket shelf, which is bolted to the bottom end of the roofing battens. However, use can also be made of a bracket-free gutter, such as for instance the corner gutter described in Dutch patent application 92.02157 in the name of the applicant. Furthermore, it makes a difference whether ceramic or concrete roof tiles are used. With ceramic pans less construction height loss will have to be compensated than with concrete pans.

The current ventilation profiles for sub-roof edges are dimensioned for the most common use situation, and therefore not optimally used across the board, or are available in various versions, which increases costs due to increased manufacturing costs, storage costs and logistics efforts.

An object of the invention is to improve in this situation. To this end, the ventilation profile of the type mentioned in the preamble is characterized by a first supporting surface and a second supporting surface, which are at an angle (which differs from 180 °) relative to each other, and a first and second deck support, which are located on resp. the first and second bearing surfaces opposite sides of the profile, the profile between the first bearing surface and the first deck support defining a first vent channel and between the second bearing surfaces the second deck support defining a second vent channel. The ventilation profile according to the invention can therefore be used in two different positions, in which, for example, a different construction height is provided, because the distance between the first supporting surface and the first deck support differs from the distance between the second supporting surface and the second roof support. The ventilation profile is then placed in the position in which, for the local situation, the desired construction height is obtained or at least approached at the lower eaves. This makes the same ventilation profile usable in several situations. It is also possible to take advantage of the presence of two possible air passages to make the profile suitable for both installation in bracket-less gutters with a molded retaining frame for the profile and installation on a bracket batten in gutter-suspended gutters.

It should be noted that the term "bearing surface" is to be understood to include one contiguous surface and / or a number of surfaces or surfaces separated from one another.

The first bearing surface and the second bearing surface are preferably at least substantially perpendicular to each other. The installer will quickly see how to position the ventilation profile for the desired construction height. If necessary, the ventilation profile can be provided with size indications for this in the end ends of the profile.

Preferably, the ventilation profile is further provided with a bird's scrap extending in the longitudinal direction of the profile, which is formed, for example, by a series of adjacent resilient fingers, as is known per se from, inter alia, the above-mentioned German patent application 40.06.864. The bird scrap is preferably placed here such that it occupies approximately equal angles with respect to the first bearing surface and with respect to the second bearing surface. Therefore, the bird scrap in both possible positions of the ventilation profile can work well with wave-shaped tiles. The bird scrap is preferably at an angle of 45 ° to both bearing surfaces.

The ventilation profile according to the invention can have a construction height of 22 to 23 mm, that is to say approximately the height of a batten, if a gutter bracket slat or plank is also present. If there is no gutter bracket slat or plank, the ventilation profile can be placed directly on the roof covering, and will then have a construction height of 35 mm. The ventilation profile according to the invention is provided for each support surface with means for mounting on the roof covering or gutter bracket of the ventilation profile. These fasteners preferably consist of a number of passages formed in the first and / or second bearing surface. These passages are preferably formed as a longitudinal slit, having a width comparable to the diameter of screws, nails and the like. The installer therefore has a great deal of freedom to attach the ventilation profile. It is not tied to factory-selected mounting locations, but can attach a screw or nail as the on-site condition permits.

The ventilation profile according to the invention is particularly advantageous, which is provided at both longitudinal ends with an inlet opening which is in line with the gap, so that it can serve as a receiving space for an insertion of sloping means provided on the roof covering, bracket lath or gutter, which is introduced by sliding means. . This concerns an I-profile mounted on the roof covering or the bracket batten, but in particular a molded T-profile on a bracketless gutter, such as, for example, the aforementioned bracketless corner gutter according to Dutch patent application 92.02157 of the applicant.

The invention will now be described in more detail with reference to an exemplary embodiment shown in the attached drawing. Shown in: figure 1Ά is an isometric view obliquely from the outside and from above on a first preferred embodiment of the ventilation profile according to the invention; figure 1B is an isometric view obliquely from below and from the inside of the ventilation profile of figureIA; Figure 2 shows the ventilation profile of Figures 1A and 1B in a position mounted on a roof edge in the position of Figure 1B; figure 2A shows a detail of figure 2, in which the coupling of ventilation profile with gutter is shown; figure 3 shows an alternative to the ventilation profile of figures IA and 1B, suitable for an application in the presence of gutter brackets; figure 4A shows a first front view of a second preferred embodiment of the ventilation profile according to the invention; figure 4B shows a second front view of the ventilation profile of figure 4A; figure 4C is a side view of the ventilation profile of figures 4A and 4B; figure 5 shows the ventilation profile of figures 4A-C, in a position mounted on a roof edge in the position of figure 4A; and figure 6 and figure 6A show the ventilation profile of figures 4A-C, in a position mounted on a roof edge in the position of figure 4B.

The ventilation profile 1 in figure 1A is injection molded and placed on the first supporting surface 30 and has a height hx of 22 mm. The ventilation profile 1 is elongated and comprises a number of strips 3, 4, 5 and 6, which are connected to each other at regular longitudinal distances by means of rectangular transverse partitions 2, one edge of which forms part of cover surface 30 and the other edge forms part of support surface 40. The length of the profile as shown is 15 cm, so that it contains three 5 cm long sections, which are bounded by the bulkheads 2a; 2; 2; 2 and 2; 2b. A construction favorable profile can have a length of 6 to 7 times the length of the displayed profile, i.e. about 1 m.

On the upper surface seen in Figure 1A there is on the inner roof side I a co-formed vertical longitudinal strip 4, which merges into corner strip 9 into longitudinal strip 3. It is schematically shown that a number of resilient fingers 10 are formed on corner 9, with a bird's scrap together determine. The tips 15 of these fingers 10 are pressed down by an overhead roof tile where there is a valley in the cross section of the roof tile concerned. It is thus effected that the space between the bottom surface of the roof tile and the ventilation profile, as known per se, is occupied by the fingers of the bird scrap. It is noted that the fingers are shown schematically, and in such an embodiment will be distributed over the entire length of the ventilation profile.

Strips 3 and 4 form a support for roof tiles, as do the edges of the transverse bulkheads located on the same side of the ventilation profile.

Strips 3 and 4 also serve to provide firmness to ventilation profile 1, and if necessary can serve as attachment for the bird scrap. In the case of flat pans, a bird scrap will not be necessary and can therefore be omitted.

In the vicinity of the corner 19 opposite corner 9, there are two longitudinal strips 6 forming the first supporting surface 30 and which define a longitudinal slit 7 between them. This longitudinal slit 7 has a width comparable to that of the stems of, for example, nails. The head of the nails will come to rest on the top surface of the strips 6, so that these strips can be clamped on a tile batten, for example, so that the ventilation profile can be clamped.

In the transverse bulkheads 2, including the end bulkheads 2a and 2b, openings 13 are arranged which are in line with the gap 7 and protrude slightly above it with a widened part. As a result, a T-shaped body can be received in and directly above the slit 7 of the ventilation profile 1. Such a T-shaped body can, for example, be formed on an extruded gutter profile. The ventilation profile 1 can then be simply attached to the relevant gutter by sliding it in, without the need for nails and the like.

Figure 1B shows the ventilation profile 1 in the position in which the construction height provided (h2 «35 mm) is maximum. The profile 1 now rests on the roof covering via the second support surface 40, which support surface can be seen from below. As in the first bearing surface 30, two strips 5 are provided near the corner 19, which define a gap 8 between them. This slit 8 has the same width as slit 7, and runs through the partitions 2 and ends in the end faces 2a and 2b. In each partition, an extra recess 14 is provided, which, in its cross-section, expands into a T-shaped recess, in which the aforementioned T-shaped mounting strip can be accommodated.

The bird scrap fingers 10 are here arranged at an optimum angle for use. They are at an angle of 45 ° both to the first bearing surface 30 and to the second bearing surface 40.

Figures 1A and 1B show that in the sides X ^ and X2 the support surfaces 30 and 40 leave ventilation openings, and the same is the case in sides X3 and X4, where strips 3 and 4 release ventilation openings. . Due to the hollow design of the ventilation profile, ventilation passages are thus provided in both arrangements shown. In figure 1Ά these are deventilation passages 11, through which air flows A can take place from outside U to inside I. In figure 1B these are the air flows B, which move in the shown direction from outside U to inside I. Consequently, with a single ventilation profile, either a construction height hl is provided with ventilation passages 11, or construction height h2 is provided with ventilation passages 12. Due to the rectangular shape, where the two support surfaces 30 and 40 are perpendicular to each other, it will soon be clear to the installer how the ventilation profile must be installed.

Figure 2 shows a connection area of the wall, floor and roof of a house. The wall here is a cavity wall comprising an inner cavity wall 128 of concrete and an outer cavity wall 127 of masonry which define a cavity 130 between which plates 129 of insulating material are arranged. A concrete beam 132 rests on the inner cavity leaf 128, on which a wooden edge beam 133 rests, which serves as support for the roof covering. A wooden edge beam 131 is placed on the outer cavity leaf 127, also for supporting the roof covering, as well as for sealing the cavity 130 outwards. The roof covering consists of a roof partition 122 on which insulating plates 120 are placed. On the top side of the top insulating plate 120, inverted surfaces battens 121 are mounted, on which battens 121 horizontal battens 124 are mounted. Pan battens 124 provide support for the pans 123.

The gutter 100 can be a corner gutter as described in Dutch patent application 92.02157 in the name of the applicant. This known trough is preferably made of PVC by extrusion, and can be directly attached to the studs 121 at the location of fastening strip 110 with the aid of nails 111. The fastening area 110 of the trough 100 is provided with a co-extruded deformed T-shaped body 141. As clearly shown in figure 2A, the ventilation profile 1 is slid onto T-shaped body 141, wherein the slit 8 with passages 13 receive the T-shaped body in a positive and positive manner. The supporting surface 30 supports ventilation profile 1 on the top side of fastening strip 110 of the gutter 100. The ventilation profile 1 is therefore secured in place. In this case, the longitudinal strip 4 provides a deck support for the pans 123. The bird scrape fingers 10 lie against the bottom side of the the roof tile 123 to close off the passage between ventilation profile 1 and the bottom surface of tile 123 against birds.

In the case of flat roof tiles, it is possible to refrain from adding a bird scrap to the ventilation profile 1.

In case a slat is used to fix the brackets of a gutter or a reinless gutter, it is nevertheless mounted on a substructure slat, which may be desirable for reasons of stiffness of construction (depending on the spacing between the battens and the like and the stiffness of the ventilation profile and the gutter, respectively), then the ventilation profile 1 can be arranged differently, namely with its wide bearing surface 30 on the top surface of the batten or the fixing part of the relevant gutter. If the ventilation profile has to run over gutter brackets, it is therefore possible to choose, if the flexibility of the profile is sufficient, to leave the ventilation profile slightly higher at the location of the brackets than between the brackets.

In certain cases this will be permissible. In other cases it is desirable to let the ventilation profile extend undisturbed, without deformation due to the brackets. This is achieved with the alternative embodiment in figure 3, in which the middle part, between the two partitions 2, 2, is adapted, where strips 5, 5 and 6, 6 are omitted and replaced by an angle profile 60, of which the one leg 61 is spaced from bearing surface 30 of a bracket thickness, e.g., 10 mm, and the leg 62, which is at an angle of 90 ° to the leg 61, is also spaced from that bracket thickness 40 by the bearing surface 40. In both positions of the profile, therefore, free passage is provided for the gutter brackets.

Another special feature is that length units of 5 cm are used. Gutter brackets are usually placed at a mutual distance of 60 or 75 cm, so that with the 15 cm long ventilation profile it can always be ensured that there is a free passage for a bracket.

Instead of the angle profile 60, which has a stiffening function, a rod or bar can be included, which, like strips 3 and 4, keeps the profile in connection.

It is further noted that, in the case shown in Figure 2, if ceramic pans are used instead of concrete pans, the other bearing surface 30 can be chosen as the bearing surface for the ventilation profile 1.

Figures 4A-4C show a second injection molded embodiment of the ventilation profile according to the invention. Where applicable, parts of this ventilation profile 201 that correspond to parts of ventilation profile 1 have equal reference numbers, plus 200.

The ventilation profile 201 has a length of 1m and a diameter of 22 x 22 mm. It is constructed as a second support surface serving as support strip 240 with outer side edges 213a and 213b, which has a sheet pile profile-like course (as clearly seen from Figure 4B), a series of parallel 5 cm spaced transverse bulkheads 202 (the end bulkheads being denoted by reference numerals 202a and 202b, respectively), a series of bird scrap fingers 210, which are formed at angle 209 at the rest of the vent profile, and two longitudinal strips 203 and 204 are perpendicular to each other and meet each other at corner 209.

Due to the sheet pile profile-like course of the bearing strip 240 (Figure 4B), this bearing strip can provide sufficient stability to the ventilation profile in the assembled state, with a minimum use of material. If it is chosen to arrange the ventilation profile 201 in a different manner, that is to say when the bearing surface 230 is used as such, the sheet pile profile-like course of bearing strip 240 with outer side edges 213a and 213b does not, of course, if the bearing surface is used, the advantage of leaving spaces 250 between transverse partitions 202. These spaces 250 have a height of approximately 10 mm, sufficient to allow a gutter bracket to pass through. The support strip 240 proceeds such that the bracket receiving spaces 250 are spaced 15 cm center-to-center, so that the usual center-to-center distance of gutter brackets of 600 or 750 mm is connected.

The first bearing surface 230 (see Figure 4A) is formed by the lower edges of the transverse partitions 202, 202a, 202b situated on that side, as well as by the outer edges 213a of the strip 240.

In Figure 5, the ventilation profile 201 shown in Figures 4A-4C is mounted on a lower area of a roof edge (not shown in detail), and in particular on a gutter bracket lath 170 placed there. Gutter brackets for a non-gutter are mounted on the gutter bracket lath. The ventilation profile 201 rests with the bottom edges 213a (here) of strip 240 and with the bottom edges (here) of the transverse stiffeners 202, 202a, 202b on the top surface 272 of the gutter bracket slat 170. The ventilation profile 201 is hereby held in position relative to the gutter bracket lath 170 by means of nails, which can be driven through lath holes 207 in lath 270. The nail holes 207 are formed by sleeves 280, which are formed in some of the transverse bulkheads 202, for example, with a center-to-center distance of 15 cm, i.e. in every third transverse bulkhead 202. The top end of the nail hole 207 is provided with a nail headstone flange, which changes into longitudinal strip 204.

In figure 6, the ventilation profile 201 is positioned in a different manner and fixed on a so-called bracket-free gutter 200. The gutter 200 is provided in its mounting part 210 with two parallel angle profiles241. As shown in detail in Figure 6A, the horizontal legs of these corner profiles 241 protrude inwardly at a location just higher than the thickness of the backing strip 240. As shown in Figure 4C, the transverse stiffeners 202, 202a, and 202b provided with recesses 213 at the corners of the edge of the support strip 240. These recesses 213 can provide space for the corner profiles 241. When the ventilation profile 201 is placed on the bracket-free gutter 200, this profile is inserted in the direction C between the corner profiles 241, obtaining the situation shown in Figure 6A. The corner profiles 241 fit within the recesses 213 and engage form-fittingly around the two outer edges 213a and 213b of the support strip 240. As a result, the ventilation profile 201 is held firmly in place on the fixing part 210 of the trough 200. The outer edge 213a of support. strip 240 therefore fulfills a function in both the arrangement of figure 6 and in the arrangement of figure 5, albeit a different one, namely in the first case an enclosing function and in the second case an imposing function.

Consequently, with one basic profile, whether or not supplemented with bird scrap, a ventilation profile is provided which can be used in many roof edge configurations.

Claims (21)

Roof edge ventilation profile for venting the space between the roof covering and the tiled deck spaced above it, comprising a first support surface and a second support surface, which are at an angle to each other, and a first and second cover support, which are located on the resp. the first and second bearing surfaces opposite sides of the profile, the profile between the first bearing surface and the first deck support defining a first vent channel between the second bearing surface and the second deck support defining a second vent channel, which is at an angle to the first vent channel. 2. Ventilation profile according to claim 1, wherein the first mounting surface and the second mounting surface are at least substantially perpendicular to each other. 3. Ventilation profile according to claim 2, wherein the cross section of the profile is at least substantially rectangular. Ventilation profile according to any one of the preceding claims, further comprising a bird's scrap extending in the longitudinal direction of the profile. 5. Ventilation profile according to claim 4, wherein the bird scrap is formed by a series of resilient fingers located next to each other. 6. Ventilation profile according to claim 4 or 5, wherein the bird scrap occupies approximately equal angles with respect to the first bearing surface and with respect to the second bearing surface. 7. Ventilation profile according to claim 6, wherein said angles are approximately 45 °. 8. Ventilation profile as claimed in any of the foregoing claims, wherein the profile for each support surface is provided with means for attachment to the roof covering or gutter bracket slat, which means are preferably at least partly formed by the respective support surface. 9. Ventilation profile as claimed in claim 8, wherein the fastening means comprise a number of passages formed in the first and / or second supporting surface. 10. Ventilation profile as claimed in claim 9, wherein the mounting passages are formed as an longitudinal slit, with a width comparable to the diameter of screws, nails and the like. Ventilation profile according to claim 10, further comprising at both longitudinal ends an inlet opening which is in line with the slit in order to serve as a receiving space for a slider-introduced elevation on the roof covering, bracket batten or gutter. Ventilation profile according to one of the preceding claims, wherein the distance between the first supporting surfaces of the first deck support differs from the distance between the second supporting surface and the second roof support. Ventilation profile as claimed in any of the claims 1-9, wherein the second supporting surface is formed to leave spaces for bail members located at regular intervals in the position in which the first supporting surface is used as supporting surface, and is provided with means for a shape and a force-locking connection. or connecting strip or strips on a stirrup trough in the position in which the second bearing surface is used as the bearing surface. 14. Ventilation profile as claimed in claim 13, provided on the side of the second supporting surface with recesses, which can accommodate a retaining frame or frames on a bracket-free gutter, wherein the second supporting surface preferably has longitudinal edges, which grips or is gripped by the retaining frame . Ventilation profile according to any one of the preceding claims, further comprising transverse partitions. 16. Ventilation profile according to one of the preceding claims, wherein a free passage for a gutter bracket is determined in at least one of the support surfaces every 15 cm. Ventilation profile according to one of the preceding claims, wherein the first supporting surface and the second supporting surface on the sides of the ventilation profile where they are situated leave ventilation openings. Ventilation profile according to one of the preceding claims, wherein the first deck support and the second deck support on the side of the ventilation profile where they are situated leave ventilation openings. A ventilation profile according to claim 17 and 18, wherein all said ventilation openings are flow-connected within the profile. 20. Ventilation profile for eaves for venting the space formed between the roof covering and a spaced-apart tile deck, the ventilation profile comprising walls, two of which, viewed in cross section of the profile, at an angle to Determine spaced venting channels. 21. Gutter and ventilation profile assembly according to any one of claims 13-20, wherein the gutter is extruded and is provided with a molded protruding profile, onto which the ventilation profile can be slid in the longitudinal direction.