RU2369701C1 - Rainwater head for flat roofs - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: invention refers to construction industry and namely to construction of rainwater heads meant for flat roofs. The effect is achieved by the fact that rainwater head includes a body with a flange, a throat and a connection, and a protective grid; at that, on lower and upper surfaces of flanges contacting, when the head is being erected, the heated polymer bitumen waterproofing layer, there are annular slots of rectangular cross section which are located concentrically. At that, width of slots is 0.8 to 1.5 of thickness of the roof waterproofing layer, and depth of slots is 0.2 to 0.5 of thickness of waterproofing layer.

EFFECT: improving reliability of attachment of the head flange to the roof waterproofing layer.

1 cl, 2 dwg

Description

The invention relates to the construction of buildings and structures, in particular to the design of drain funnels for flat roofs.

Known drain funnels for flat roofs, connected to an elastic waterproofing layer of the roof by means of heated thermoplastic mastics (patent GB 1068242, E04D 13/04, 1967; patent BG 46232, E04D 13/04, 1989; EP 0350394, E04D 13/04, 1990; EP 1146181, E04D 13/04, 2001).

A common drawback of these funnels is the low reliability of the connection of the funnel flange to the waterproofing layer, especially after several years of operation of the roof.

Closest to the proposed invention by the set of essential features is a drain funnel including a housing with a flange, a neck and a nozzle, as well as a protective grill (patent GB 1068242, E04D 13/04, 1967). When installing this funnel, the lower surface of its flange is glued to the waterproofing layer already laid on the roof. The connection of the funnel with this layer is strengthened by sticking a piece of waterproofing on the upper surface of the flange with overlapping it on the surface of the main waterproofing layer. For stickers on waterproofing layers made on a polymer bitumen basis, warmed thermoplastic mastics are used, which have good adhesion to both the layer and the funnel material. However, these mastics during the operation of the roof retain the creep property (especially at elevated temperatures), therefore, the waterproofing layer, without any connection with the smooth surface of the flange, except for the adhesive layer, can move with time over the flange in the direction of stresses arising in it both during installation and during operation (for example, temperature stresses). Moving relative to the funnel flange, this layer can partially overlap the funnel drain neck or “float” onto the grate that protects the neck from debris. The “buildup” of the layer onto the protective grate leads to its peeling from the flange and to the difficulty of removing the grating from the funnel during revisions of the drainage system.

In the analyzed design of the funnel, in order to avoid a “creeping” displacement of the waterproofing layer relative to its flange, it is proposed to partially wrap this layer inside the neck and press it against the walls of the neck, inserting an interference fit into its grate. This constructive solution is quite common (see, for example, patent BG 46232, E04D 13/04, 1989). However, the reliability of such a connection is maintained until, over time, there is a need to remove the grating for revision. By this time, the lattice manages to adhere sufficiently firmly to the polymer-bitumen layer, and its extraction inevitably leads to partial detachment of the latter in the zone around the neck. Multiple grid extracts exacerbate the situation.

The technical result when using the invention is to increase the reliability of the connection of the funnel flange with the waterproofing layer of the roof.

The specified technical result is achieved by the fact that in the gutter funnel, which includes a housing with a flange, a neck and a nozzle, as well as a protective grill, on the lower and upper surfaces of the flange there are annular concentrically located grooves of rectangular cross section, and the width of the grooves is from 0.8 up to 1.5 thickness of the waterproofing layer of the roof, the depth of the grooves is from 0.2 to 0.5 thickness of the waterproofing layer.

The invention is illustrated by drawings.

Figure 1 shows a drain funnel for a flat roof.

In Fig.2 shows a place A in Fig.1 on an enlarged scale.

The drain funnel includes a housing 1 with a flange 2, a drain neck 3 and a pipe 4, by which the funnel is inserted into the socket of the water intake pipe when mounting the funnel on the roof. The protective grill 5 is inserted into the upper part of the neck 3 and is fixed in it by latches 6.

On the upper and lower surfaces of the flange, annular grooves 7 are arranged concentrically with respect to each other.

The funnel works as follows.

Before installing the funnel, the waterproofing layer 8 laid on the roof base foundation (see Fig. 1; this layer is not shown conventionally to the left of the funnel axis) is heated in the zone of its future contact with the lower surface of the funnel flange and applied to this zone and the lower surface of the flange, the heated mastic then the funnel is inserted into the socket of the drain pipe and the funnel flange is pressed tightly against the waterproofing layer 8 with the lower surface of the funnel. To create high pressures of the flange against the layer, the clamping force is preferably applied adhere to limited areas of the surface of the flange, sequentially processing its entire area. Under the influence of these stresses, the fibrous filler of the polymer bitumen layer material is pressed into the grooves 7, and the binder of the layer material softened by heating does not prevent this. They complete the installation of the funnel, sticking in a similar manner on the upper surface of the flange a piece of layer 9 with overlapping it outside the flange.

The filler of the waterproofing layer introduced into the grooves 7 prevents it from shifting relative to the funnel flange under the influence of stresses that can occur in the layer both when it is laid and secured to the bearing base of the roof, and during its operation. Due to this, in the present invention, it is not necessary to bring the edge portion 10 of layer 9 into the neck 3 and press it with the grill 5. As you can see, when removing and installing the grill, it does not come into contact with the waterproofing layer 9. This increases the reliability of the connection of the funnel flange with the roof waterproofing layer .

Effective indentation of the filler into the groove to a depth G sufficient from the point of view of adhesion of the layer to the flange (by 0.2 ... 0.5 of the thickness of the waterproofing layer depending on the filler content in the polymer bitumen material of the layer) is possible if the groove width B has a size the same order with the thickness of the pressed-in layer, i.e. not less than 0.8 of its thickness. An increase in the groove width of more than 1.5 layer thicknesses no longer makes a significant improvement in the quality of adhesion of the layer to the funnel flange, however, reduces the number of annular grooves that can be placed on the surface of the flange.

Claims (1)

Gutter funnel, including a housing with a flange, a neck and a nozzle, a protective grill, characterized in that on the lower and upper surfaces of the flanges that are in contact when installing the funnel with a heated polymer bitumen waterproofing layer, there are annular concentrically arranged grooves of rectangular cross-section, and the width of the grooves is from 0.8 to 1.5 thickness of the waterproofing layer of the roof, the depth of the grooves is from 0.2 to 0.5 thickness of the waterproofing layer.

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