NO137397B - DEVICE FOR} PREVENT CLOGGING OF ROOF GRAINS - Google Patents

Description

The present invention relates to a device for preventing the clogging of roof gutters with leaves etc., designed as a lid-forming, sieve-shaped sieve element in or on the gutter, where the sieve surface is designed in one piece with the gutter or forms an insert in it .

Such ..devices are known from, among other things, U.S. patent documents Z.'4;61..610 and 3.8.34.09.1, British patent document 1.191..665 as well as German .offeritligjøringskrift 1.509."127.

The devices according to the known embodiments are complicated

to produce, and thus become expensive, e.g. the devices according to German Public Publication-1. 5:09 .127 , British patent document .1.191.. 665. In the device according to the British patent document, there is also a danger of. that leaf etc. can cover the entire sieve surface and thereby block the flow of water. Blocking can also occur in the devices according to the aforementioned US patents.

The purpose of the invention is to arrive at a device that is inexpensive to manufacture and that ensures an unhindered flow of water in the gutter.

According to the invention, this is achieved by the sieve surface being equipped with raised or sunken parts, and with sieve holes located in the sunken parts, preferably also

in the elevated parts.

With such a device, it is practically impossible for leaves etc. will cover the entire screen surface, as there will always be certain openings between blades lying on the elevated parts and possibly in the lowered parts, and there will thereby not be a complete blockage of the device's screen surface.

By designing the screen surface with transverse or longitudinal, parallel corrugations, it is particularly easy to produce the holes in the screen surface, as these are formed by passing a cutting or punching tool through the corrugations on the upper and lower side of the screen surface. In this connection, it is particularly advantageous that the corrugations have a mostly V-shaped cross-section, so that the sieve surface is washboard-shaped. With such parallel corrugations, it is possible to achieve a stiffening of the gutter in addition. The bracing takes place in the longitudinal direction of the corrugations, and it is therefore most appropriate to use transverse corrugations in the gutter.

When the sieve surface is placed flush with the longitudinal edges of the gutters, in the event of large amounts of rainfall, when it hits the sieve surface, part of the water will be thrown back from it over the edge of the gutter qg - i.e. not follow the gutter to a downpipe. It is therefore advantageous in the device according to the invention that the sieve surface is lower than the longitudinal edges of the chute.

The invention will be explained in more detail in the following description of two embodiments with reference to the accompanying drawings, in which: Fig. 1 shows a perspective view of an embodiment of the device according to the invention, designed as a lid-shaped sieve organ. Fig. 2 shows another embodiment of the device according to the invention, designed as a tubular strainer. - Fig...1 shows a device, according to the invention, with washboard-shaped silf plate' 1. with; corrugations 2 and 3 in a lid-shaped sieve member. The corrugations 2, which have the shape and an inverted V, form elevations in the form of ridges on the sieve surface. The corrugations 3, which are V-shaped, form valleys in the sieve surface. Both in the corrugations 2 and in the corrugations 3 holes, A and 5 respectively, are arranged for the passage of water to a channel 6 below. The device is attached to the channel by the hook-shaped side parts 7, 8 of the device engaging with the channel edges 9 and .10. The sieve surface 1 is arranged somewhat lower than the edges of the chute. Thereby, it is possible to prevent water from a roof where the gutter is arranged, in case of large amounts of rainfall, flowing out of the gutter instead of following it to a downspout. It is clear from Fig. 1 that the corrugations 2, 3 run in the transverse direction of the gutter. The device thereby also has a stiffening effect on the channel, in the transverse direction, the device with. As a result of the corrugation, the sieve body, possibly also the chute itself, can be made of thinner materials. :material than.what would otherwise be necessary.

Leaves and others will in particular settle on the ridges 2 of the sieve surface and thereby mostly clog the holes 4, while the holes 5 remain open. Other contaminants, such as children's needles, will probably also settle in the valleys 3 and thereby clog part of the holes 5, but as the holes 4 and the holes 5 lie in different planes in the height direction, both the holes 4 and the holes 5 will not be sealed again at the same time , and therefore in practice there will always be guaranteed passage for the water through the sieve surface to the gutter.

In the embodiment shown, the sieve surface is designed in

a separate sieve element, but it is also possible to produce the sieve surface in one piece with the chute, since the chute with the sieve surface can be produced as a closed tubular profile.

Fig. 2 shows a cross-section of the chute 6 with a separate, tubular sieve member 11 engaged inside the chute at a level below its top surface as it rests against the bottom and sides of the chute. The sieve member is equipped with corrugation tops 12 and corrugation bottoms 13 which run parallel in the longitudinal direction of the sieve member. The strainer is also equipped with a number of perforations or openings 14.

In the embodiment shown, a sieve member of a certain type is shown, that is to say a pre-perforated or perforated tube which is specially corrugated as shown in fig. 2. The perforated tube shown can, for example, consist of a net-shaped plastic tube. A tube of this type can be produced by connecting longitudinal plastic strands together by transverse plastic strands using a specific extrusion technique, so that regular square openings are formed in a row in the longitudinal and transverse direction of the tube.

In the example shown, the tops and bottoms of the corrugations are laid along a corresponding string, so that the openings lie between the tops and bottoms of the corrugations. Alternatively, the tops and/or bottoms of the corrugations can be placed between the longitudinal strings, so that the openings or at least some of the openings lie at the top and/or bottom of the corrugations.

Of course, other types of perforated plastic can also be used to form the tubular, corrugated sieve member. However, it will also be possible to make the strainer from another material, such as copper, zinc or galvanized iron. One is also not limited to using a strainer with a closed tube cross-section, as for example a plate-shaped strainer preferably pre-corrugated can be bent into a tube shape or an approximate tube shape or reverse channel shape by the user as needed.

Claims (4)

1. Device to prevent the clogging of roof gutters with leaves etc., designed as a lid-forming, sieve surface-shaped sieve element in or on the gutter, where the sieve surface (1) is designed in one piece with the gutter or forms an insert part in it, characterized in that the sieve surface is equipped with raised or sunken parts (2,3), and with sieve holes (4,5) located in the sunken parts (3), preferably also in the raised parts (2). 2. Device in accordance with claim 1, characterized in that the sieve surface (1) is designed with transverse or longitudinal mutually parallel, perforated corrugations (4,5). 3. Device in accordance with claim 2, characterized in that the corrugations (4,5) have a largely V-shaped cross-section. 4. Device in accordance with one of claims 1-3, characterized in that the sieve surface (1) is lower than the longitudinal edges (9,10) of the chute.