NO771779L - DEVICE FOR COLLECTION AND DISPOSAL OF ROOF WATER - Google Patents

Description

The present invention relates to a device for collecting and diverting roof water, which comprises elongated gutter elements with edge profiles extending above the plane of the gutter elements, and where the end parts of the gutter elements are separated a certain distance from each other to form slits.

The currently available devices for collecting and draining roof water have the disadvantage that if the central drain is blocked for one reason or another, e.g. law or ice formation, the constructions are not constructed so that the inflowing water can be diverted in another way, but this water then penetrates the walls and roof with moisture damage as a result.

The present invention relates to providing a device for collecting and diverting roof water which eliminates the problems mentioned above.

This happens with a device that has acquired the characteristic features specified in the requirements.

Below, an embodiment of the invention will be described with reference to the drawings, where

fig. 1 shows a section across the longitudinal direction of the gutter elements, through a device according to the invention;

fig. 2 shows a perspective view of a preferred embodiment of a roof spring yoke included in the device

fig. 3 shows a section in the longitudinal direction of the gutter elements through a device according to the invention.

The one in fig. 1 and 3, the device for collecting and diverting roof water comprises elongated gutter elements 1, which are arranged at their end parts 2 at a certain distance from each other, so that a slot 3 is formed between the end parts 2 of the gutter elements 1. In order to prevent f .ex. law or the like penetrates down through the slot 3 and clogs the drain again, a perforated protection plate 4 is arranged on top of the slot 3.

Under the slot 3, a roof well is arranged, which is shown separately

in perspective in fig. 2. This roof well 5 has a flat sloping bottom part '6, from the inner end of which a largely vertical inner edge part 7 extends upwards. At the upper end, the edge part 7 transitions into a largely horizontal part 8. At the ends of the bottom part 6 facing the gutter elements 1, vertical side parts 9 are arranged, which extend above the plane of the bottom part 6. At the outer end of the bottom part 6, an outer edge part 10 is arranged, which extends downwards from the plane of the bottom part. A middle part 11 of this outer edge part 10 continues up above the plane of the bottom part 6. The roof well 5 also has two vertical, extending perpendicularly to the inner and outer edge parts, intermediate parts 12, which together with the inner edge part 7 and the middle part 11 form a closed central well. The intermediate parts 12 and the side parts 9 form channels 13 on both sides of the central well.

From the roof well 5, the water is diverted via a pipe 14, which is inserted into a downspout pipe 15.

As can be seen from fig. 1 has the gutter element 1. outer and inner edge profiles 16 or 17. In addition, a further profiling 18 is arranged in the longitudinal direction of the channel element 1 up to the inner edge profile 17. Between the profiling 18 and the edge profile 17, a channel 19 is formed.

The device described above works in the following way. The roof water flowing forward in the gutter elements 1 passes down through the slot 3 provided with perforated plate 4 and to the roof well 5 and further down through the pipe spigot 14 and the down pipe 15. If the plate 4 perforations are sealed, e.g. of law or ice, the water can run off over the outer edge profile 16 of the gutter element 1. If for some reason the water also cannot run off over the edge profile 16, e.g. due to ice formation, it may happen that it penetrates between the roof covering and the profiling 18. In this case, penetrating water is diverted through the channel 19 to the slot 3 and further downwards.

If the roof water that is diverted down through the slit 3 cannot flow down through the rudder nozzle 14 because this is blocked for some reason, the water will flow over the middle part 11 at the outer edge of the bottom plane 6. An overflow is thus formed over the edge part 11. If this drain is also blocked, e.g. in case of ice formation, the water will flow over the intermediate parts 12 at their lowest places and then be led away via the channels 13 over the outer edge of the roof well.

As can be seen from the above description of the device's operation, it will thus also work if ice formation or the like occurs in certain places in the device.

The invention is of course not limited to the exemplary embodiment described above, as a number of detailed changes can be made within the scope of the invention. Thus, the edge profiles 16, 17 and profiles 18 of the gutter elements 1 can have a different design than those in fig. 1 showed. The roof well 5 with its various parts can also have a different construction than that shown in the drawings. However, what must apply to the roof well 5 according to the invention is that if the rudder nozzle 14 is blocked, the water must be able to be diverted via an overflow.

In the embodiment example in the figures, the device is placed at the eaves for a slightly sloping roof. However, there is nothing in the way of the device being used on an inward sloping roof with an internal drain. In this case, the device is modified according to the embodiment so that the left part of the device is replaced with a mirrored part of the right part. In this case, the runoff that occurs over the edge profiles of the gutter elements will be collected in the gutters 19 and diverted through the slits 3.

The invention is thus not limited to the embodiment shown, but can be freely varied within the scope of the requirements.

Claims (6)

1. Device for collecting and draining roof water, comprising oblong gutter elements (1) with edge profiles (16, 17) extending above the plane of the gutter elements (1), and where the end parts (2) of the gutter elements (1) are separated by a certain distance, from each other to form slots (3), characterized in that a roof well (5) is arranged under each slot (3) <p> g that this roof well (5) has a central part, from which water is diverted via a rudder (14) , as water can also be diverted from the central part via at least an overflow. 2. Device as stated in claim 1, characterized in that the overflows are made up of vertical edge and intermediate parts (11 and 12 respectively). 3. Device as specified in claim 1 or 2, characterized in that at least one of the overflows of the roof well (5) opens into a chute (13), which conveys the water. 4. Device as specified in any of the preceding claims, characterized in that the overflow of the roof well (5) is arranged at different levels. 5. Device as specified in any of the preceding claims, characterized in that the central part of the roof well (5) has an overflow along three of its sides. 6. Device as specified in any of the preceding claims, characterized in that the channel elements (1) have a profiling (18) arranged next to the inner edge profile (17), whereby a channel (19) is formed between the profiling (18) and the inner edge profile (17).