CZ201357A3 - Rainwater pipe - Google Patents

Abstract

It is designed for drainage of rainwater for fastening to rafters headings of the roof construction, designed especially for saddle or hip roofs covered with a system of heat-insulating thick-walled prefabricated prefabricated elements. This lead is formed by a pipe (1) provided at its apex, at least rectangular, with a system of evenly spaced parallel cross-sections (4) of less than 1.5 cm wide and greater than the width of the baffles between adjacent cross-sections (4). The cross-sections (4) are guided obliquely with respect to the longitudinal axis of the tube (1) such that the difference in axial positions of the ends of the cross-sections (4) is greater than the mutual spacing of adjacent cross-sections (4). The tube (1) in the lower part of the top part below the cross-sections (4), on the side facing away from the roofed object, is provided with evenly spaced longitudinal cross-sections (5) on the common axis. The length of the longitudinal sections (5) is in the range of 30 cm to 50 cm and their width and width of the bridges (6) are in the range of 1 cm to 2 cm.

Description

Rainwater downpipe

Technical field

The invention is a new solution of a water drainage system running from sloping roofs to sewers or rainwater storage tanks, more reliably and with less maintenance than is necessary in the current state of the art.

BACKGROUND OF THE INVENTION

For economic reasons, only one solution has been adopted so far for the drainage of rainwater running from pitched roofs into the drainage system, namely the use of gutters with bottom sampling to a device concentrating vertical rainwater drainage, and using a system of support brackets gutters in space. The problem of fallen leaves and airborne seeds is usually solved by repeated annual cleaning of the gutters and an effort to keep the source of this type of impurities away from the building. If possible, the gutter gradient can be increased and one of the systems for separating solid objects from the vertical stream of rainwater by means of trash racks can be taken over during the daytime rainwater withdrawal from the gutter. Due to the difficult accessibility of the eaves gutters in higher buildings, the application of terraced roofs is preferred. The most common drawbacks of the solutions used so far are the need for regular removal of leaves and other solid contaminants, frequent damage to the gutters by sliding ice from the roof or, in order to reduce these risks, increasing the distance of the gutter from the roof guttering sprayed or otherwise not collected by rainwater. Efforts to solve the problem analogously to the spillways of water structures have not yet led to an economically realistic solution.

SUMMARY OF THE INVENTION

The disadvantages of the prior art solutions for downpipes of pitched roofs are avoided or at least significantly reduced by the solution according to the present invention. It is a gutter for fastening to the rafter fronts of the roof structure, intended especially for saddle or hip roofs covered with a system of heat-insulating thick-walled prefabricated blocks of plate shape. The essence of the new solution is that the gutter is formed by a pipe provided in its apex, at least rectangular, with a system of equally spaced parallel cross-sections. Their width is less than 1.5 cm and greater than the width of the bulkheads between adjacent cross sections. These cross-sections are inclined relative to the longitudinal axis of the pipe such that the difference in axial positions of the ends of the cross-sections is greater than the mutual spacing of adjacent cross-sections. In the lower part of the apex part below the cross-sections, on the side facing away from the roofed object, the pipe is provided with evenly spaced cross-sections separated by longitudinal cross-sections. The length of the longitudinal cross-sections is in the range of 30 cm to 50 cm and their width and width of the bridges are in the range of 1 cm to 2 cm.

In one possible embodiment, rectangular ailerons are suspended in their longitudinal cross-sections along their entire length by their upper bend, at whose lower edge a counter-bend is formed facing away from the roofed object.

The pipe can be attached directly to the rafter front. For this purpose, it is provided on the side adjacent to the rafter faces with a series of holes with a mutual spacing coincident with the rafter spacing for direct fastening of the eaves downpipe to the rafter faces by means of screws.

Another possibility is that the pipe is provided with suspension elements for attachment to the rafter fronts of the roof structure. The basis of these elements is a continuous console made of thin-walled L profile. The gutter pipe is then fastened in the desired position to the continuous bracket, which is provided with fastening elements and is used to fasten them to the rafter fronts of the roof structure.

The continuous bracket may be provided at the side adjacent to the rafter face of the roof structure with perforation holes with the function of screens to cover the ventilated areas of the overhang of the roof structure.

In most cases, the tube will have a circular profile.

Depending on its length, the gutter may also be formed by interconnected pipe parts which are connected to each other by means of a longitudinally cut ring formed by the cut-off end of the adjusting pipe part. The longitudinal cutting of the ring corresponds to the longitudinal cross-section of the end of the drip pipe to be adjusted. The thus cut ring encircles the end portions of the pipes to be connected so that the position of the cross-sections and thus the position of the longitudinal cross-section of the ring coincides with the position of the cross-sections and longitudinal cross-sections of the connected eaves. This relative position of the ring and the overlapped ends of the tubes is ensured by pulling the lower parts of the ring and the pipe to be joined through a tie strip over a cross-section preferably lying in the middle of the length of the overlap with the ring.

The main benefit of the solution lies in the fact that the technical design of the downcomer is made possible by established mass production technologies and that the downcomer is also easy to install, but especially that it solves the problem of protection against clogging and sliding and snow with roofs.

Clarification of drawings

Two variants of an exemplary embodiment of a gutter according to the invention are shown in three figures, in which: FIG. 1 shows an embodiment suitable for roofs covered with thick-walled thermal insulation boards; FIG. 2 is a variant particularly suitable for roofs covered with a classic tile covering, and FIG. 3 is a detail of a joint for adjusting the tubular gutter.

DETAILED DESCRIPTION OF THE INVENTION

A variant of the embodiment shown in FIG. 1 is intended as part of a fully modular roof solution for prefabricated houses where the gutter pipe 1, mostly of circular profile, is pulled directly to the face 9 of the rafters 3 by screws 7 accessible through longitudinal cross-sections 5 on the outer side of the gutter pipe 1 The roof pipe 2 is situated in the lower shoulder 13 of the edge gutter row of the prefabricated roofing tiles 2 below the cross sections 10 in the edge ridge so that rainwater falls on the cross-section system 4 in the ceiling portion of the tubular gutter 1 and the gutter gearing. The roof coverings 2 with the ridge sections 10 protected the gutter from contact with the sliding ice at the time of melting.

The tube 1 is provided in its apex, at least rectangular sector with a system of equally spaced parallel cross sections 4 with a width of less than 1.5 cm and greater than the width of the bulkheads between adjacent cross sections 4. The cross sections 4 extend obliquely with respect to the longitudinal axis of the pipe. 1 such that the difference in axial positions of the ends of the cross-sections 4 is greater than the mutual spacing of adjacent cross-sections

4. In the lower part of the apex part below the cross-sections (4), on the side facing away from the roofed object, the tube 1 is provided with uniformly spaced longitudinal cross-sections 5 on the common axis 5. These longitudinal cross-sections 5 are spaced apart bridges 6. The cross-sections 5 are in the range of 30 cm to 50 cm and their width and width of the bridges 6 are in the range of 1 cm to 2 cm.

The system may also be provided with overflow wings 12 of rectangular shape diverting excess rainwater when the drain pipe 1 is flooded from the roof of the roofed object. The wings 12 are suspended in their longitudinal cross-sections 5 over their entire length by their upper bend. At the lower edge of the ailerons 12 a counter-bend is formed facing away from the roofed object. The wings 12 can also be used as a decorative element.

A variation of the exemplary application of the invention shown in FIG. 2 is intended especially for the classical arrangement of roofing 2 with burnt tiles, where it is necessary to adapt the gutter to the existing disposition of the facing 9 of the rafters 3 and the guttering of the roofing 2. The solution recommends supporting the pipe 1 and gutter with a continuous bracket 11 , which, in contrast to existing solutions of supports, allows a flexible release of the space of the sliding ice and after its fall the return pipe 1 returns to its original position. In this case, the pipe 1 is fixed in the desired position to the continuous bracket 11 and this continuous bracket 11 is provided with elements for attachment to the faces 9 of the rafters 3 of the roof structure.

The continuous bracket 11 may be provided on the side adjacent to the faces 9 of the rafters 3 of the roof structure with perforation holes 15 with the function of screens to cover the ventilated areas of the overhanging part of the roof structure. The continuous bracket 11 can also be used as a ventilation sieve for the edge overhangs of the roof and can also replace the function of the overflow wings 12 to direct the rainwater outflow when the gutter 1 is flooded.

Of the many possible variants of fastening the eaves guide 1 to the continuous bracket 11, the use of tie strips 14 is shown. Here, the eaves guide consists of interconnected pipe parts 1 which are connected to each other by a longitudinally cut ring 8 formed by the cut end of the adjusting pipe part 1. the ring corresponds to the longitudinal cross-section 5 of the end of the downpipe 1 to be adjusted. The thus cut ring 8 encircles the end portions of the pipes 1 to be connected such that the position of the cross-sections 4 and thus the longitudinal section of the ring 8 coincides with the position of the cross sections 4 and the longitudinal cross-sections 5 of the connected eaves. This relative position of the ring 8 and the overlapped ends of the tubes 1 is ensured by pulling the lower parts of the ring 8 and the pipe 1 to be joined by a strip 14 over a cross-section 4 preferably lying in the middle of the overlap with the ring 8.

A detailed illustration of the connection of the extension part of the gutter 1 is shown in FIG. 3, which demonstrates the simplicity of this connection, since the necessary connecting ring 8 is obtained by simply cutting the end of the downpipe 1 to be adjusted. If there is a bridge 6 between the longitudinal cross-sections 5 in the cut-off part of the pipe 1 used for the ring 8, the bridge 6 must be cut by cutting. Then it is sufficient to overlap the ends of the tubes 1 to be joined symmetrically by this ring 8 and fix the desired relative position, for example, by means of tightening strips 14 over the cross-sections 4.

Industrial applicability

Although the invention has a narrowly specified purpose, it can advantageously be used as a spillway for small waterworks, especially those where constant water demand is desirable so that downstream devices do not require additional control interventions, such as irrigation systems and the like.

Claims (7)

PATENT CLAIMS Rainwater gutter for fastening to the rafter fronts of a roof structure, intended in particular for saddle or hip roofs covered with a system of heat-insulating thick-walled prefabricated slab-shaped locks characterized in that it consists of a pipe (1) provided in its apex at least rectangular sector. equally spaced parallel cross-sections (4) having a width of less than 1.5 cm and greater than the width of the bulkheads between adjacent cross-sections (4), said cross-sections (4) being inclined relative to the longitudinal axis of the pipe (1), that the difference in axial positions of the ends of the cross-sections (4) is greater than the mutual spacing of adjacent cross-sections (4) and that the pipe (1) in the lower part of the apex is below the cross-sections (4) evenly spaced and on a common axis The longitudinal cross-sections (5) are separated from each other by bridges (6), wherein the length of the longitudinal cross-sections (5) is between 30 cm and 50 cm and their width and width of the bridges (6) is between 1 cm and 2 cm. Gutter according to claim 1, characterized in that the longitudinal cross-sections (5) are hinged over their entire length by their upper bend of rectangular-shaped wings (12), at the lower edge of which a counter-bend directed from the roofed object is formed. Gutter according to claim 1 or 2, characterized in that the pipe (1) is provided on the side adjacent to the fronts (9) of the rafters (3) with a series of openings with mutual spacing equal to the spacing of the rafters (3) for direct fixing of the pipe (1). ) gutter to the end faces (9) of the rafters (3) by means of screws (7). Gutter according to claim 1, characterized in that the pipe (1) is provided with suspension elements for fastening to the faces (9) of the rafters (3) of the roof structure, based on a continuous bracket (11) of thin-walled L profile, (1) is fastened in a desired position to a continuous bracket (11) of a thin-walled L profile, the continuous bracket (11) being provided with elements for attachment to the faces (9) of the rafters (3) of the roof structure. 5. Gutter according to claim 4, characterized in that the continuous bracket (11) is provided on the side adjacent to the faces (9) of the rafter (3) of the roof structure with perforation openings (15) with screening functions to cover entrances to the ventilated areas of the roof overhang. construction. A downpipe according to any one of claims 1 to 5, characterized in that the pipe (1) has a circular profile. Gutter according to any one of claims 1 to 6, characterized in that it is formed by interconnected pipe parts (1) which are connected to one another by means of a longitudinally cut ring (8) formed by the cut end of the adjusting pipe part (1), the longitudinal cut of the ring corresponds to the longitudinal cross-section (5) of the end of the drip tube (1) to be adjusted and the thus cut ring (8) surrounds the end parts of the connected pipes (1) so that the cross-section (4) and thus the longitudinal cross-section ) coincides with the position of the cross-sections (4) and longitudinal cross-sections (5) of the connected eaves downpipes (1), this relative position of the ring (8) and the overlapped ends of the pipes (1) being secured by pulling the lower parts of the ring (8) tubes (1) with a tie band (14) over a cross-section (4), preferably located in the middle of the lap length of the ring (8).