EP0896111A1 - Roof lead-through - Google Patents

Abstract

The passage (10) is used through a roof, and comprises a roof ventilation pipe (11). The roof ventilation pipe has an insulation layer on the pipe surfaces above and/or below the roof. An insulation layer is also at the outer surfaces of the hood (16) and at the upper (19) and/or lower surfaces of the dome (14). The insulating layers are in a multi-layer plastics foam structures, preferably with pores between them to contain air.

Description

The present invention relates to a roof duct through a roof covering plate, which has a dome-shaped, with a passage opening Cathedral and on its underside a support device for has a roof ventilation pipe that passes through the passage opening is passed and on which a form-fitting to Cathedral designed, on an outside of the cathedral to the complex Coming hood part is displaceable, the roof ventilation pipe due to the bracing of the hood part and the dome can be arranged stationary.

Such a roof duct is by the German utility model 295 14 513.7 became known.

This tilt-adjustable roof duct has a roof covering plate on that a dome-shaped dome Top and a passage opening in the apex area of the Owns doms. A roof ventilation pipe can pass through the roof covering plate passed through and across the roof covering plate to be ordered. Fasteners are used fix the aligned roof ventilation pipe in place. Fasteners also include a form-fitting one hood part designed to the dome, which has a tube section, which is slidably mounted on the roof ventilation pipe is. The roof ventilation pipe can be braced of hood part and cathedral in its aligned position be attached. The bracing can be done by a attached to the outside of the roof ventilation pipe Carry out ring nut.

As a result of the interaction between temperature and humidity condensation forms in the area of the roof duct on. The maximum possible occurring Humidity, i.e. the solubility of water vapor in Air is temperature dependent. The higher the temperature is the more water vapor the air can absorb. The temperature, at which the maximum solubility is reached referred to as dew point. At the dew point becomes a relative Air humidity of 100% reached. Cools air with one relative humidity from, for example, 100%, so there is a surplus of steam, which then takes the form of Drops of water precipitate as condensate.

If warm air is now discharged inside the roof ventilation pipe this warm air hits with a certain relative Air humidity on surfaces of the roof duct, which is particularly evident during cooler seasons have a lower temperature than the outflowing air. Therefore, the air is cooled so that an excess of humidity occurs in the area of the roof duct. At the Inner surface of the roof ventilation pipe or on mounting surfaces the roof duct (hood part, cathedral or Ring nut) moisture condenses, so that a Condensation forms. That is on the inside of the roof ventilation pipe or on the inside of the fasteners Precipitation can condense on these Surfaces down into the area below the roof covering run back. Condensation can form inside the roof ventilation pipe flow back or the outflowing air additionally enrich with moisture.

The present invention therefore has the technical problem to further develop the existing roof duct, that the formation of condensation on inner surfaces the roof duct, especially on the roof ventilation pipe, is prevented as far as possible.

This problem is solved according to the invention in that about and / or pipe surfaces of the roof ventilation pipe arranged under the roof are surrounded by an insulation layer that on surfaces an insulating layer of the hood part is provided, and that at the top and / or bottom of the cathedral Insulation layer is attached.

Due to the thermal insulation, those areas of the Do not cool down the roof duct significantly compared to the air, the inside of the roof duct or the heated, dissipated Are facing air. On these surfaces it can no condensation can form. The especially in Winter prevailing temperatures on the outside of the roof cannot be transferred to the interior of the roof duct become.

According to the invention, it is intended that as many as possible Areas of the roof duct with thermal insulation are provided. However, it is particularly preferred that about and / or pipe surfaces of the roof ventilation pipe arranged under the roof are surrounded by an insulation layer. The roof ventilation pipe guides heated air inside above. Consequently, it is particularly important that interior surfaces of the roof ventilation pipe does not cool down too much ΔT can, so that an excess of moisture in the air arises.

Through the formation of a roof duct, cover sheets are used the roof covering has through openings, so that these insulating layers are necessarily injured Need to become. Therefore, especially those areas are primarily provided with thermal insulation in which by damaging the insulating layers of cold air can penetrate.

Fasteners of the roof duct usually include a hood part, the cylindrical tube section of the Roof ventilation pipe at least partially covered. On surfaces an insulating layer is therefore provided for the hood part. The roof ventilation pipe is first through the pipe section already protected and slightly isolated. Either however, the pipe section as well as the roof ventilation pipe are usually thin-walled. The the pipe section surrounding insulation layer prevents the outside the temperature of the roof duct to the Area within the roof ventilation pipe can. The formation of condensation in the interior of the Roof ventilation pipe is almost completely prevented. The Insulation layer can also exist between the inner peripheral surface of the pipe section and the outer peripheral surface of the roof ventilation pipe are located. The surfaces of the hood area are the same of the hood part with thermal insulation.

It is also proposed on the top and / or bottom of the cathedral to install an insulation layer. The passage opening of the cathedral allows the roof ventilation pipe to be aligned vertically on the roof. When attaching the Thermally insulating layers on the underside of the cathedral must therefore be noted that the adjustment options of the roof ventilation pipe at a certain desired angle to the roofing slab are preserved. Otherwise it is possible the area at the bottom of the cathedral for example to be filled in completely. The corresponding complementary trained pieces of insulation material can already be on the cathedral attached in the finished state of the roofing slab or be molded.

The insulation layers can be built up in several layers be, preferably with formed between the individual layers Pores for trapping air. Such insulation layers form barriers so that temperature compensation does not occur between an area outside the roof duct and one Area within the roof duct can take place.

Another variant of the invention is that the Insulation layers consist of a foamed plastic. Insulation layers made of this material are elastically deformable, so that the insulation layers match the contour of the Roof duct can be adjusted. In particular can Gaps or cavities in the roof duct are compensated, by adding insulation layers made of foamed plastic into this Free spaces are pushed in.

As a material for the thermal insulation of the roof duct can use all materials that can be used for thermal insulation come into question. Thermal insulation of the roof duct can also be made from a combination of different materials exist (fiber insulation, polystyrene, polyurethane, wood wool etc.). To improve weather resistance as an outer layer of moisture impermeable Apply protective layer. Sheaths made of metal foil (aluminum foil) can also improve the stability of the insulation layers increase or reflect back heat radiation.

The insulation layers are in different ways the roof duct can be attached. In a first preferred The insulation layers are available after installing the roof duct on the wall surfaces and / or mounting surfaces the roof duct can be glued on. The insulation layers can so quickly attached by the craftsman in the places where they are needed. Above all, they can protected areas of the roof lead-through that are exposed to high temperatures become.

In a second variant, the insulation layers are in the Wall surfaces and / or fastening surfaces integrated in such a way that the wall surfaces and / or mounting surfaces at least are partially made of insulation material. The thermal insulation the roof duct is then already in the finished state of the individual elements of the roof duct. The Installation of the thermal insulation of the roof duct can therefore a minimal amount of time for the craftsman can be shortened. Through a combination of insulation material and materials for Manufacture of a roof duct for a composite material insulated elements of the roof duct can be provided, which quickly put together later on the roof can be.

Die Figur zeigt einen Längsschnitt durch eine Dachdurchführung mit einer erfindungsgemäßen Wärmedämmung.

Further features and advantages of the invention result from the following description of an embodiment of the invention, with reference to the drawing, which shows details essential to the invention, and from the claims. The individual features can be implemented individually or in any combination in any combination in one embodiment of the invention.

The figure shows a longitudinal section through a roof duct with thermal insulation according to the invention.

The invention is shown schematically in the figure, so that the essential features of the invention can be seen well are. The presentation is not necessarily to scale to understand.

A longitudinal section of a roof duct 10 is in the assembled State shown. A one-piece roof ventilation pipe 11 is inserted into a roof covering plate 12, Aligned adjustable and fastened. The Roofing plate 12 has one serving as an abutment Support device 13 and a dome 14 on its Top of a passage opening 15 for the roof ventilation pipe 11 owns. The roof ventilation pipe 11 is from the outside in the passage opening 15 of the roof covering plate 12 inserted. A hood part 16 is over a pipe section 17 of the hood part 16 on the roof ventilation pipe 11 pushed on so that an underside 18 of the hood part 16 comes to rest on an outside 19 of the cathedral 14. Of the Pipe section 17 of the hood part 16 surrounds the protective upper end of the roof ventilation pipe 11.

Furthermore, paragraphs 20 are integrally formed on the roof ventilation pipe, which reach behind the support device 13 so that the hood part 16 is pressurized against the outside 19 of the dome 14 is. Via the ring 21 acting as a nut, the is screwed onto a thread 22, the pipe section 17 of the hood part 16 in the direction of the dome 14 pressurized. The support device 13 forms the Roofing plate 12 an abutment for the paragraphs 20, those on opposite sides of the roof ventilation pipe 11 are formed so that the pressurization is performed by cathedral 14 and hood part 16.

In the roof ventilation pipe 11 heated air can Roofing plate 12 are removed. Through the Weather and those prevailing outside the roof area Temperatures naturally have a temperature difference ΔT between the air inside the roof ventilation pipe 11 and an area outside the roof duct 10. The solubility of moisture inside the heated air depending on the air temperature. If there is air with you certain saturated amount of moisture within of the roof ventilation pipe 11 on cold surface areas of the Roof duct 10 cools, so the formation of Condensation. If there are on the inside 23 of the roof ventilation pipe 11 moisture precipitates, so can the moisture (Condensed water) in the direction of arrow 24 on the inside 23 slide down. To prevent condensation in the area of the roof duct 10 there are wall surfaces and fastening surfaces of the roof duct 10 from Surround insulation materials. The pipe section 17 of the hood part 16 is surrounded by a jacket 25 made of insulation material, the Pipe section 17 and the roof ventilation pipe 11 as protection against the cold envelops. The air inside the roof ventilation pipe 11 can therefore no longer cool down in such a way that a Condensation on the inside 23 occurs.

In addition, there are other areas of the roof duct 10 insulated. The attached to the pipe section 17 of the hood part 16 adjoining hood area 26 is also with a pad 27 made of insulating material covered. The jacket 25 and the pad 27 are of this type connected to each other that the hood part 16 simulated and is completely covered. Coat 25 and pad 27 could but also be formed separately or only a part of the hood part 16.

The dome 14 of the roof covering plate 12 is in its interior almost completely filled with insulation material. On the dome-shaped design of the cathedral 14 adapted spherical pieces 29 (ball triangles) made of insulation material are on the underside of the cathedral 14 attached. Fill the ball pieces 29 the dome 14 as far as the orientation of the roof ventilation pipe 11 in the passage opening 15 is not hindered becomes. The roof ventilation pipe 11 is below the roof covering plate 12 on its outer peripheral surface with a insulated cover 30. The sheath 30 extends according to the figure not up to the roof covering plate 12 the flexibility of the roof ventilation pipe during adjustment not affect its roof pitch. For improved Thermal insulation can also the cover 30 to train towards the cathedral 14. The underside 18 could also be according to the invention with a layer of insulation material cover.

Of course, inner sides 23 of the roof ventilation pipe could also 11 be equipped with a heat-insulating layer. Could also between the hood part 16 and roof vent pipe 11 introduced a sealing material layer made of insulation material be.

For good weather protection and permanent durability of the thermal insulation material are the jacket 26, the support 27 in the area of its outer surface with a moisture-repellent Impregnation layer 31, 32 provided.

The jacket 25, the pad 27, the ball pieces 29 and the Cover 30 are made of a foamed soft plastic. Your attachment to the roof duct 10 is easily possible because these insulation elements 25, 27, 29 and 30 Adhesive layers that can be activated on their underside for fastening them have.

A roof duct 10 has a roof ventilation pipe 11 on that passed through a roof and on a roofing slab 12 of the roof duct 10 with the help of Fasteners can be arranged stationary. Wall surfaces and / or fastening surfaces of the roof duct 10 have thermal insulation. The formation of condensation Inner surfaces of the roof duct, especially on the roof ventilation pipe, is prevented as far as possible.

Claims (5)

Roof duct (10) through a roof covering plate (12), which has on its top a dome-shaped dome (14) formed with a passage opening (15) and on its underside a support device (13) for a roof ventilation pipe (11) that passes through the passage opening (15) is guided and on which a hood part (16) designed to fit the dome (14) and coming to rest on an outside (19) of the dome (14) is displaceable, the roof ventilation pipe (11) being braced by the hood part ( 16) and dome (14) can be arranged stationary, characterized in that pipe surfaces of the roof ventilation pipe (11) arranged above and / or under the roof are surrounded by an insulation layer, that an insulation layer is provided on surfaces of the hood part (16), and that an insulation layer is attached to the top (19) and / or bottom of the dome (14). Roof duct according to claim 1, characterized in that the insulation layers are built up in multiple layers, preferably with formed between the individual layers Pores for trapping air. Roof duct according to claim 1 or 2, characterized in that the insulation layers from a foamed Plastic. Roof duct according to one of the preceding claims, characterized in that the insulation layers on the wall surfaces and / or fastening surfaces can be stuck on are. Roof duct according to one of the preceding, thereby characterized in that the insulation layers in the wall surfaces and / or mounting surfaces integrated in this way are that the wall surfaces and / or mounting surfaces are at least partially made of insulation material.

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