NL1025877C2 - Drain for gutter comprising inner and outer flanged tubular parts, includes drainage passage for any water accumulated in space between flanges - Google Patents

Abstract

Water can flow through a passage from the space between the two overlapping flanges (3, 5) on the tubular parts into the outer tubular part (4). Part of the gutter base is clamped between the two flanges when the inner tubular part (2) is fitted inside the outer tubular part.

Description

Drain device for a gutter.

The present invention relates to a drain device for a gutter, such as a roof gutter comprising: - a first pipe part with a first flange projecting radially outward; a second tubular member with a second radially projecting flange; wherein the first tube part can be mounted in the second tube part to a fixed state, such that a part of the bottom of the gutter can be clamped in a flange space between the mutually overlapping first and second flange.

The invention also relates to such a discharge device, which also comprises a roof gutter.

The drainage device mentioned in the introduction is known and is often used for drainage of rainwater, wherein a drainpipe is connected to a free end of the second pipe part. A problem with these known drainage devices is that water, which accumulates in the flange space, cannot flow away via the interior of the second pipe part and a connected downspout because the first and second pipe parts couple together in a sealing manner. This has a number of adverse consequences. For example, the water may after a while affect the material of the gutter or of the drain device itself. Depending on the choice of material, for example, there may be a risk of crack corrosion. The connection between the first and the second pipe part, for example when a glue connection is used, can also be affected by the water. Furthermore, depending on the geometry of the overlapping first and second flange and the part of the bottom of the trough that is clamped between them, it is even possible that the water from the flange space along the outside of the second pipe part and hence along the outside The invention solves the above-mentioned problems by providing a drain device mentioned in the introduction, wherein in the attached state there is a liquid-permeable passage from the flange space to the interior of the second pipe part. Via this passage, any water collected in the flange space can easily flow away via the interior of the second pipe part and via the downpipe, for example to a drain 1025877 2

In a preferred embodiment of the invention, the mouth of the passage in the flange space is on the side of the first and second pipe part. This has the advantage that the passage can be designed in a relatively simple manner and the water can be discharged better, better at least in comparison with the situation where the mouth is situated on the side of the first and second flange.

In another preferred embodiment of the invention at least two tangentially spaced thickenings are provided on the outside of the first tube part or on the inside of the second tube part, such that, when coupled, between the first and second tube parts in axial direction sloping gaps are formed that form part of the fluid permeable passageway. The advantage of this embodiment is that by varying the thickness of a thickening one can adjust the discharge capacity of the passage.

In another preferred embodiment the passage is at least partly formed by at least a recess, such as a groove or a slot, which is provided in the first tube part and which runs in axial direction from the free end of the first tube part. This provides a simple construction to set up the passage. If desired, the opening extends as far as the flange space, so that the passage can coincide with such an opening. An additional advantage is that material is thereby saved.

Both pipe parts are preferably coupled by means of a mechanical coupling, without additional assembly steps, such as for instance gluing the pipe parts, being necessary. A possible preferred embodiment here is to provide the first and second tube parts with mutually mating threads. Another possibility is to provide on the outside of the first tube part and on the inside of the second tube part, a protrusion or recess, which protrusion and recess together form a snap connection for mutually coupling the first and second tube part. In this embodiment it is advantageous according to the invention if the protuberance or the recess in the second tube part 30 extends along the entire circumferential wall. This offers an economic advantage in manufacture when the second tube part comprises a plastic injection molded product. This makes it possible to design the associated injection mold more easily.

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Moreover, this offers the advantage that one does not have to take into account the exact location of the coupling protrusion or recess in the first tube part.

In another preferred embodiment, the second radial flange comprises an annular rib on the outer peripheral edge that faces the first flange. The advantage S of this rib is that water in the flange space cannot unexpectedly flow away on the outside of the second pipe part.

The present invention also relates to a discharge device which further comprises a gutter.

The invention will now be further elucidated with reference to the appended figures, in which:

Figure 1 shows a perspective view of the discharge device in non-attached state;

Figure 2 shows a cross-section of the discharge device in the attached state, at the height of a thickened wall part; Figure 3 shows a cross-section of the discharge device in the attached state at the level of a non-thickened wall part.

FIG. 1 shows a drainage device 1 for a gutter, which is composed of a first tube part 2 with a first radially projecting flange 3, and a second tube part 4 with a second radially projecting flange 5. The first tube part 2 is second attaching pipe part 4 by inserting the first pipe part in the second pipe part in the direction of arrow A, whereby a part of the bottom of a gutter can be clamped in a flange space between the mutually overlapping first and second flange (not in figure 1). FIG. 1 further shows that the second tube part comprises a tapered part 7 and a tube part with a small diameter 8 extending from this part. The advantage of two sections with a different outside diameter is that rain pipes with different diameters can be connected to such a pipe section. These external diameters therefore preferably correspond to the diameters of the commercially available downspouts.

An annular rib 16 is provided on the outer peripheral edge of the second radial flange 5. The function and operation of this edge will be explained in more detail below.

In the embodiment shown, thickenings are arranged tangentially spaced apart, which are preferably provided on the outside of the first tube part 2 and extend substantially over the entire length of the first tube part. However, it is also conceivable to provide thickenings on the second tube part or to use a thickening only locally. In Figure 1 there is a non-thickened wall part 13 between two thickenings 12.

In an alternative embodiment, thickenings can be omitted and a passage can be made by providing a recess in the first tube part, which runs from the free end 18 in the axial direction. For illustration, a recess 19 with a dotted line is shown in Fig. 1. This recess preferably extends such that in the attached state the opening extends through to the flange space 9.

Both parts of the discharge device are preferably manufactured from a plastic, which will advantageously be capable of injection molding.

Referring now to Figures 2 and 3, in which the discharge device is shown in section in the attached state, Figure 3 shows, in addition to the components known from Figure 1, a passage 10 with a mouth 11 in the flange space, 15 and also the flange space 9. Fig. 3 is a cross-section at the height of the non-thickened wall part 13 and Fig. 2 is a cross-section at the height of a thickening 12 of Figs.

1. A part of the bottom of a trough 17 can also be seen, which is clamped between the mutually overlapping first flange 3 and second flange 5.

FIG. 3 clearly shows that water accumulated in the flange space 9 can easily flow away via the passage 10 in the direction of arrow B via the interior of the second tube part. For rapid and direct water discharge, it is advantageous here that the mouth of the passage in the flange space 9 and the mouth in the interior of the second pipe part run substantially straight and are in line with each other.

FIG. 2 shows how the two pipe parts are easily connected via a snap connection. This snap connection consists of a cooperating protuberance 14 and a recess 15, which in the shown embodiment are provided on the outside of the first tube part 2 or on the inside of the second tube part 4. It is of course also possible to locate the recess and the bulge to change or to build up the connection from two bulges that snap onto each other. Another possibility, not shown, for simple mechanical coupling of the first and the second tube part is the fact that the two tube parts are provided with a pairing screw thread.

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The advantage of such a simple mechanical coupling is that the drain device can be connected relatively quickly to a gutter and subsequently to a rain or drain pipe to be coupled to the second pipe part. With a connection that requires more time and / or effort, such as, for example, an adhesive connection, there is the possibility that an installer will get wet by water that has already accumulated in the gutter and will flow down freely via the second pipe part.

Preferably, the recess 15 on the inside of the second tube part 4 extends along the entire circumferential wall

Figures 2 and 3 further show the rib 16, which prevents water from flowing out of the flange space 9 via the outside of the second flange and the second pipe part. Furthermore, this rib ensures that the trough wall is separate from the flange on the underside, which promotes the flow of water through the side passage into the pipe parts. However, other measures to prevent this are also conceivable, such as, for example, a tapered second flange.

It should be noted that the so-called flange space in the coupled condition does not have to be an open space, this flange space can then possibly be completely or substantially completely filled with gutter wall. In the embodiment shown in Figure 1, the flange space may be partly unfilled due to the rib 16.

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Claims (10)

A drainage device (1), such as a roof gutter, comprising: a first pipe part (2) with a first flange (3) projecting radially outward; 5 - a second pipe part (4) with a second radially projecting flange (5); wherein the first tube part can be attached in the second tube part to a fixed state such that in a flange space (9) between the mutually overlapping first (3) and second (5) flange a part of the bottom of the gutter (17) is to clamp; characterized in that in the attached state there is a fluid passage (10) from the flange space (9) to the interior of the second tube part. Discharge device (1) according to claim 1, characterized in that the mouth (11) of the passage (10) in the flange space (9) is located on the side of the first and second pipe part. 3. Drain device (1) according to one of the preceding claims, further comprising a roof gutter (17). 4. Drain device (1) as claimed in claim 3, wherein the first pipe part is attached in the second pipe part to the attached state, and wherein a part of the bottom of the gutter in the flange space (9) is clamped between the mutually overlapping first ( 3) and second (5) flange with release of said liquid-permeable passage (10). Drain device (1) according to one of the preceding claims, characterized in that in that at least two tangentially spaced thickenings (12) are provided on the outside of the first tube part or on the inside of the second tube part which, when coupled, provide cracks extending in axial direction between the first and second tube parts forming the liquid-permeable passage. 1025877 Γ Discharge device (1) according to one of claims 1-4, characterized in that at least one recess, such as a groove or slot, is provided in the first tube part, such as a groove or slot, which from a free end the first tube part (18) extends in the axial direction. A discharge device (1) according to any one of the preceding claims, characterized in that in that the first and the second tube part are each provided with mutually mating screw thread. 10 A discharge device (1) according to any one of the preceding claims, characterized in that that on the outside of the first tube part (2) and on the inside of the second tube part (4) a protuberance (14) or recess (15) is provided, which protuberance and recess together form a snap connection for mutually coupling of the first and second tube part. Discharge device (1) according to claim 8, characterized in that the protuberance (14) or the recess (15) in the second tube part (4) extends along the entire peripheral wall A discharge device (1) according to the preceding claims, characterized in that. that the second radial flange (5) comprises an annular rib on the outer peripheral edge (16) which faces the first radial flange. 1025877