CZ306460B6 - An assembly and a system for drainage of water from horizontal or sloped surfaces, in particular roof surfaces, from spaces above the waterproofing membrane - Google Patents

Abstract

The assembly and the system for drainage of water from horizontal or sloped surfaces, in particular roof surfaces, from spaces above the waterproofing membrane includes the locking gully (9) and the discharge piping having an inlet end and an outlet end. The inlet end of the discharge piping is connected or connectable to the outlet end of the locking gully (9). The discharge piping is, in the area between its inlet end and outlet end, provided with the inspection opening (14). The assembly further comprises the checking reservoir (15) which is connected to the discharge piping in the area of the inspection hole (14) and adapted to capture at least part of the liquid entering the discharge piping through its inlet end. Described is also the system containing this assembly.

Description

Assembly and system for drainage of water from horizontal or sloping surfaces, especially roof surfaces, from the space above the insurance waterproofing

Field of technology

The invention relates to an assembly for draining water from horizontal or sloping surfaces, in particular roof surfaces from the space above the safety waterproofing, in particular for single-skin flat roofs, and to a system for draining water, which comprises such an assembly.

Prior art

The technical solution is designed especially for roofs, in the composition of which a layer of insurance waterproofing is designed. This safety waterproofing must be designed and constructed in such a way that in the event of damage to the upper layer of the roof, ie the main waterproofing, and water leaking onto the layer of safety waterproofing, no water penetrates into the building.

The material of the thermal insulation, which lies between the layer of safety waterproofing and the layer of main waterproofing, must be designed from a material that is not subject to degradation in short-term contact with water.

At present, there are only general principles for solving the drainage of water from the insurance waterproofing drained into the same sewerage pipe as the main waterproofing.

The principle is that in cases where the safety waterproofing is drained into the same sewerage pipe as the main waterproofing, it must be connected to the sewerage pipe by a connecting pipe with a separate inlet. A non-return valve must be fitted in the connecting pipe.

However, this solution has the disadvantage that it is not possible to detect a defect in the main waterproofing layer. As a result, if water flows into the thermal insulation layer through the defect of the main waterproofing, it is not detectable inside the building, because in the case of a properly designed and executed layer of insurance waterproofing, no water penetrates inside the building. The long-term action of water on the thermal insulation layer will then cause its irreversible degradation, thus increasing the heat flow through the roof cladding, which results in increased heating costs for the building.

The essence of the invention

These deficiencies are overcome by an assembly for draining water from horizontal or sloping surfaces, in particular roof surfaces from the space above the safety waterproofing, which comprises a safety drain and a drain pipe having an inlet end and an outlet end, the inlet end of the drain pipe being connected or connectable to the outlet end. safety drains. According to the invention, the drain pipe is provided with a control opening in the region between its inlet end and the outlet end, the assembly further comprising a control container which is connected or connectable to the drain pipe in the region of its control opening and which is adapted to catch at least part of the liquid entering the drain pipe with its inlet end. The assembly preferably further comprises a non-return valve which is arranged in the drain pipe between its outlet opening and the inspection opening and which is adapted to prevent liquid from entering from the outlet end of the drain pipe into the inspection opening.

For easy and quick inspection of the condition of the waterproofing, the inspection vessel is preferably made of a translucent, especially transparent, material.

-1 CZ 306460 B6

The drain pipe may advantageously comprise a flexible part, a control part and a connecting part, which are interconnected, the flexible part being flexible, the control container being detachably connected to the control part and the connecting part being adapted to open into the rainwater drainage.

In a particularly preferred embodiment, the inspection opening is bordered by a flange, to which the inspection vessel can be connected by means of a threaded or bayonet connection.

The above-mentioned disadvantages of the prior art are also eliminated by a system for draining water from horizontal or sloping surfaces, in particular roof surfaces, which comprises a rain gutter in the form of a pipe and a main drain which opens or opens into the rain gutter through its outlet opening. an assembly for draining water from the space above the safety waterproofing, the outlet end of the drain pipe being or opens into a rain gutter.

It is therefore a device for signaling water to the insurance waterproofing and at the same time draining the water in cases where the insurance waterproofing is drained into the same sewerage pipe as the main waterproofing.

The transparent signaling flask, ie the inspection vessel, allows visual inspection. Since it is at the lowest point of the product, it will be filled as soon as water starts to flow through the product after the defect of the main waterproofing layer. Thanks to the possibility of water detection, it is possible to start repairing the main waterproofing layer immediately. After the repair, all the water drains away and the thermal insulation layer is not degraded. The attachment of the inspection vessel is best done by means of a screw connection, so it can be unscrewed and the remaining water poured out of the inspection vessel after repairing the roof cladding, cleaned of the inspection vessel and reused.

The non-return valve in the device prevents the ingress of water from the rain gutter and the influence of the signaling, eg by the swelling of the water during torrential rains. The flexible part of the drain pipe allows to adapt to the specific location of the safety drain connected to the safety waterproofing and to the specific location of the rain gutter.

Explanation of drawings

An exemplary embodiment of the invention is shown in an assembled and built-in state in the drawing in vertical section.

Examples of embodiments of the invention

The drawings show a cross-section of a part of a roof with a system for draining water from horizontal or inclined surfaces and with an assembly according to the invention. The roof comprises a main waterproofing layer 1 and a safety waterproofing layer 3, between which a thermal insulation layer 2 is arranged. Layers 1, 2, 3 are placed on a supporting roof structure, which consists of a ceiling panel 5 with a slope layer 4.

A main drain 6 is arranged vertically in the roof, the upper end of which is placed at the level of the main insulating layer 1 and provided with a protective basket 7 abutting the main insulating layer 1 and the lower end opening into the rain gutter 8.

Furthermore, a safety drain 9 is arranged in the roof, the upper end of which is located at the level of the safety insulating layer 3 and the lower end is connected to a drain pipe, which in this exemplary embodiment comprises a flexible part 10, a control part 11 and a connecting part 12.

-2GB 306460 B6

The connecting part 12 opens into the rain gutter 8 and a non-return valve 13 is arranged therein, which prevents the passage of liquid from the rain gutter 8 to the control part 11, resp. into the safety drain 9.

The flexible part 10 is connected with its upper end to the lower end of the safety drain 9 and with its lower end to the control part 11. The flexible part 10 is flexible and in the assembled state is curved in this exemplary embodiment so as to make a transition from substantially vertical. arranged safety inlets 9 to the obliquely arranged control part 11.

The inspection part 11 has an inlet end adapted to be connected to the flexible part 10, an outlet end adapted to be connected to the connection part 12 and an inspection opening 14 with a flange arranged between them, to which the inspection vessel 15 is fixed. it can be made, for example, by means of a threaded connection, a bayonet connection or by means of yoke closures, etc.

The inspection opening 14 and the inspection vessel 15 are arranged so that a liquid flows into them, which flows into the inlet of the inspection part 11, and so that at least a part of this liquid remains trapped in the inspection vessel 15. Therefore, the inspection opening 14 is formed in the surface of the drain pipe, which faces downwards, and the inspection vessel 15 is connected by its inlet opening to the drain pipe from below.

The inner space of the safety drain 9 is connected to the inner space of the inspection vessel 15 via the inner space of the flexible part 10 and the inspection part 11 of the drain pipe.

It will be apparent to a person skilled in the art that all connections between the individual parts of the drain pipe, between the drain pipe and the control vessel, further between the drain pipe and the rainwater drain 8, between the drain pipe and the safety drain 9 and between the main drain 6 and the rainwater drain 8 are made sealed.

Preferably, the inspection vessel 15 is made of a translucent, preferably transparent, material, so that its contents can be inspected without having to disconnect it from the inspection part 11 of the drain pipe.

Both the main drain 6 and the safety drain 9 have a tubular or preferably funnel-shaped shape.

In one exemplary embodiment not shown, the flexible part 10 and the control part 11 of the drain pipe are in one piece and / or the control part 11 and the connecting part 12 of the drain pipe are in one piece.

In another alternative embodiment, the inspection part 11 and the inspection container 15 are in one piece.

In another alternative embodiment, the inspection part 11 can be arranged in such a way that it is directly connected by its inlet to the safety inlet 9, opposite its inlet an inspection opening 14 and an inspection vessel 15 are arranged, while an outlet opening from the inspection part 11 is arranged laterally. via the flexible part 10 and / or the connecting part 12 and / or directly connected to the rain gutter 8.

The assembly according to the invention can be used for draining water from horizontal or inclined surfaces, in particular roof surfaces.

Although a number of exemplary embodiments have been described, it will be apparent to those skilled in the art that other possible alternatives to these embodiments will be readily apparent. Therefore, the scope of the invention is not limited to these exemplary embodiments, but rather is defined by the appended claims.

Claims (6)

PATENT CLAIMS An assembly for draining water from horizontal or sloping surfaces, in particular roof surfaces, from a space above a safety waterproofing, comprising a safety drain (9) and a drain pipe having an inlet end and an outlet end, the inlet end of the drain pipe being connected or connectable. to the outlet end of the safety drain (9), characterized in that the drain pipe is provided with an inspection opening (14) in the region between its inlet end and the outlet end, the assembly further comprising an inspection vessel (15) connected or connectable to the drain pipe in the area of its inspection opening (14) and which is adapted to catch at least a part of the liquid entering the drain pipe through its inlet end. Assembly according to claim 1, characterized in that it further comprises a non-return valve (13) which is arranged in the drain pipe between its outlet opening and the inspection opening (14) and which is adapted to prevent liquid from entering the outlet end of the drain pipe into the inspection opening. (14). Assembly according to Claim 1 or 2, characterized in that the inspection container is made of a translucent, in particular transparent, material. Assembly according to any one of the preceding claims, characterized in that the drain pipe comprises a flexible part (10), a control part (11) and a connecting part (12) which are interconnected, the flexible part (10) being flexible, control the container (15) is detachably connected to the control part (11) and the connecting part (12) is adapted to open into the rainwater drainage (8). Assembly according to any one of the preceding claims, characterized in that the inspection opening (14) is flanged with a flange to which the inspection container (15) can be connected by means of a threaded or bayonet connection. A system for draining water from horizontal or sloping surfaces, in particular roof surfaces, which comprises a rain gutter (8) in the form of a pipe and a main drain (6) which opens or opens into a rain gutter (8) through its outlet opening, characterized in that , further comprising an assembly for draining water from the space above the safety waterproofing according to any one of the preceding claims, wherein the outlet end of the drain pipe is or opens into a rain gutter (8).