The present invention relates to a drainage device for arrangement on a floor tile having a drain water aperture and to an arrangement of such a drainage device on a floor tile.
Fitting drainage devices to floor tiles, which may be composed of natural stone, for example, is already known. Such natural stone tiles, which have a slope towards the central aperture, for example, can be very heavy and unwieldy. It may be difficult to place such a natural stone tile in the corner of a room, for example in a shower tray. This is the case particularly when the upper inlet aperture of the drainage device, already partially preinstalled in the floor, does not align with the aperture in the natural stone tile.
It is an object of the present invention is to create a drainage device of the aforementioned type, which will facilitate assembly of the drainage device together with a floor tile.
According to the invention, the drainage device, when at least partially assembled in the floor area, is made up of at least two parts moveable relative to one another, in such a way that through a movement of the parts relative to one another the aperture on the floor tile can be moved in relation to the parts preassembled in the floor area. This means that when fitting the floor tile it can be shifted, where necessary together with parts of the drainage device that are or can be fitted thereto, in relation to parts already preassembled in the floor area, in such a way that despite the already partially preinstalled drainage device the position of the floor tile can still be adjusted to the local conditions.
According to the invention, the aperture in the floor tile and the upper inlet aperture of the drainage device can be made to coincide at least partially with one another through a movement of the parts relative to one another. By means of parts moveable against one another in this way, an aperture in a floor tile in the form of a natural stone floor tile, for example, can with comparative ease be made to coincide with the inlet aperture.
The parts of the drainage device moveable relative to one another can feasibly take the form of pipe lengths or tubular sections arranged at least partially one inside the other, which in particular enclose a deformable annular space or partially annular space between them.
At the same time, the inner pipe length or the inner tubular section may have an upper flange extending radially outwards, which is supported so that it is moveable horizontally.
At the same time, the outer pipe length or the outer tubular section may furthermore have an upper flange extending radially outwards.
In particular, the flange of the inner pipe length or the inner tubular section may at the same time be arranged, at least in sections, parallel to and at a distance from the flange of the outer pipe length or the outer tubular section. The mobility of the two parts relative to one another therefore stems from the mobility of the flanges arranged parallel to and a distance from one another.
According to the invention, the drainage device may furthermore comprise at least one seal, which seals the flange of the inner pipe length or the inner tubular section against the flange of the outer pipe length or the outer tubular section. The flanges are therefore moveable relative to one another and at the same time serve to seal the two parts against one another.
At least one seal can feasibly take the form of an O-ring.
Alternatively, it is possible for at least one seal to take the form of a corrugated bellows seal.
The flange of the outer pipe length or the outer tubular section may be bent upwards at its radially outer end, so that the bend thereby produced peripherally encloses the flange of the inner pipe length or the inner tubular section, at least in sections.
At the same time, at least one seal may be arranged between the outer edge of the flange of the inner pipe length or the inner tubular section and the bend peripherally enclosing this flange. The bend is therefore a simple means for permitting the arrangement of a seal, which may take the form of a corrugated bellows, for example.
Alternatively or in addition the flange of the outer pipe length or the outer tubular section may be bent upwards and radially inwards at its radially outer end, so that the bend thereby produced is arranged at least partially above the flange of the inner pipe length or the inner tubular section.
At the same time, at least one seal may be arranged between the bend, which extends at least partially above the flange of the inner pipe length or the inner tubular section, and the upper side of the flange of the inner pipe length or the inner tubular section. Such a double bend can therefore also readily facilitate the arrangement of the seal, which takes the form, for example, of an O-ring.
The drainage device can feasibly include two seals, which are arranged on the upper side and the underside of the flange of the inner pipe length or the inner tubular section.
In particular, one of the two seals may rest on the upper side of the flange of the outer pipe length or the outer tubular section and the other of the two seals may bear on the underside of the bend, which extends at least partially above the flange of the inner pipe length or the inner tubular section. The double bend therefore means that the flange of the inner pipe length or the inner tubular section can extend between two seals, which simultaneously bear against the flange of the outer pipe length or the outer tubular section and against the bend thereof. In this way the two flanges are readily sealed against one another whilst at the same time ensuring the mobility of the flanges relative to one another.
The outer pipe length or the outer tubular section can feasibly be part of a drain well. This enables an additional drain well to be dispensed with. Such an embodiment therefore manages with fewer parts and has a low overall height.
The parts moveable relative to one another may feasibly comprise a drain well, which is moveable in relation to parts preassembled in the floor area.
At the same time, the parts preassembled in the floor area may comprise seating devices capable of at least partially receiving the drain well, the drain well being moveable in relation to the seating devices. Such a development can also serve to ensure that the floor tile can still be moved in relation to the preinstalled seating devices.
At the same time the seating devices and the drain well can feasibly each comprise a union connection, the union connection of the drain well being at least partially received by the union connection of the seating devices.
At the same time, sealing devices, in particular a sealing ring or a lip packing, which allow a movement of the union connections relative to one another, may furthermore be arranged between the two union connections. The union connections, moveably arranged one inside the other by way of the sealing devices, readily permit movement of the drain well in relation to the seating devices. For example, the radially outer edge of the inner union connection may be separated at a distance from the radially inner edge of the outer union connection, in order to facilitate movement of the union connections relative to one another. The sealing devices can furthermore feasibly be radially widened in such a way as to facilitate movement of the union connections.
In particular, the floor tile can feasibly take the form of natural stone, a molding or a ceramic tile or the like. The drainage device can therefore be incorporated into a visually attractive flooring composed of natural stone, for example. Alternatively the drainage device may also be incorporated into a molding, which can serve as the base for a shower tray or the like.
Further features and advantages of the present invention will be apparent from the following description of preferred exemplary embodiments, referring to the drawings attached, in which:
a shows a schematic plan view of the drainage device according to
b shows a schematic plan view of the drainage device according to
c shows a schematic plan view of the drainage device according to
d shows a schematic plan view of the drainage device according to
e shows a schematic plan view of the drainage device according to
The arrangement shown in
It can be seen from the sectional view in
It can also be seen from
It can furthermore be seen both from
In the exemplary embodiment shown, the floor tile 1 has an aperture 16 having a basically square outline. However, an aperture having a circular outline or an aperture of some other shape may well be selected instead of an aperture 16 with a square outline,
The sheet metal plate 6 furthermore has an aperture 17 which in the exemplary embodiment shown is provided with a circular outline. This aperture 17 may also have other outlines. The edge of the plate 6 enclosing the aperture 17 is furthermore bent downwards somewhat.
As can be seen from
The plate 6 can be fixed to the underside of the floor tile 1. In particular the plate 6 may be bonded to the underside of the floor tile 1 when assembling the drainage device. Alternatively, before any abrasive machining of the floor tile in order to obtain a slope, the plate 6 may also be bonded under the floor tile in order to stabilize it. The plate 6 may feasibly comprise at least one bead or a depression, which serve to strengthen the plate 6.
A ceramic tile, which with the drainage device in the assembled state bears on the underside of the plate 6 and in this way contributes to the sealing effect, may be laid on the upper side of the flange 9 of the pipe length 8.
A further disk-shaped seal 20, visible in particular from
In the embodiments according to
In
In the exemplary embodiment shown the drainage device according to the invention is assembled and the arrangement according to the invention is obtained by first installing the drain well 10 and connecting it to one or more drainage pipes 11. A screed layer 22 is then applied, in which a corresponding aperture is recessed. Once the screed layer has dried, the pipe length 8 which extends through the aperture into the area of the seal 20, or to the upper edge of the drain well 10, is introduced into the aperture. At the same time the flange 9 of the pipe length 8 is applied to the screed layer around the aperture.
The second fixing part 7 is then introduced into the pipe length 8. The lip packing 14 serves to produce a comparatively firm and secure connection between the second fixing part 7 and the pipe length 8.
The plate 6 is then bonded to the underside of the floor tile 1, so that the two apertures 16, 17 correspond to one another. Alternatively the plate 6 may also have been bonded to the underside of the floor tile 1 prior to assembly, particularly in order to stabilize the latter. The floor tile 1 is then applied onto the screed layer 22 in the area of the flange 9 in such a way that the apertures 16, 17 correspond or align with the corresponding aperture in the screed layer, or with the pipe length 8.
The first fixing part 5 is then introduced through the aperture 16 in the floor tile 1 into the second fixing part 7 and is screwed into the latter. By screwing the fixing parts 5 and 7 together, the upper flange 18 of the first fixing part 5 is pressed downwards against the plate 6, whereas the upper edge of the second fixing part 7 provided with the peripheral seal 15 is pressed upwards against the plate 6. In this way a secure, tight connection is produced between the plate 6 and the fixing part 5, 7.
The odor trap unit 2 is then likewise pushed into the first fixing part 5 from above through the aperture 16. Arranged in its upper area, the first fixing part 5, as can be seen in particular from
In the embodiment depicted in
In the case of the inventive drainage devices according to
In particular, the outer pipe length 30 engages in the drain well 10, whereas the inner pipe length 29 serves to receive the second fixing part 7. The pipe lengths 29, 30 are pushed one inside the other leaving a gap, so that they can be moved in a horizontal and/or radial direction relative to one another. A deformable annular space 41 is therefore formed between the two pipe lengths 29, 30.
At the same time the flange 32 of the outer pipe length 30 at its radially outer end is bent twice by 90°, first upwards and then inwards, so that its bend 33 runs above the flange 31 of the inner pipe length 29. The flange 31 of the inner pipe length 29 is therefore partially enclosed by the flange 32 of the outer pipe length 30. In this area a seal 34, 35 in the form of an O-ring is provided both above and below the flange 31 of the inner pipe length 29. The flange 31 of the inner pipe length 29 can be shifted to left and right in
In this way, however, the upper inlet aperture 36 of the drainage device, which is passed through the central area of the upper aperture of the inner pipe length 29, is also moved relative to the outer pipe length 30 and the drain well 10 already firmly installed in the floor.
The drainage device can therefore be installed in such a way that the drain well 10 is first installed with the two pipe lengths 29, 30 arranged coaxially with one another. Here the drain well 10 may be situated in the concrete floor 37 and the outer pipe length 30 in the screed layer. The second fixing part 7 may furthermore be pushed into the inner pipe length 29.
If the floor tile 1, possibly in the form of a heavy natural stone tile, is then placed together with the sheet metal plate 6 on top of the screed layer 22, the inner pipe length 29 can be shifted in a horizontal direction until the aperture 16 in the floor tile 1 basically aligns with the upper inlet aperture 36 of the drainage device. Only then is the first fixing part 5 introduced into the second fixing part 7 and screwed tight. This also means that the upper inlet aperture 36 is fixed in its optimum position. The correct height of the odor trap unit 2 or the inlet aperture 36 can be adjusted by vertical displacement of the second fixing part 7 in the inner pipe length 29.
In the embodiment according to
In the embodiment according to
In the embodiments according to
It can be seen from
The embodiment shown in
In the embodiment according to
A drain well 45 of the arrangement according to
The drain well 45 is received in seating devices 48, which may be preinstalled in the screed layer, for example. For this purpose the seating devices 48 have height-adjustable support feet 49. The seating devices 48 are furthermore basically of well-shaped design and have a union connection 50 extending to the right in
In the embodiment according to
The diameter of the union connections 46, 50 and the size and consistency of the sealing ring 47 are selected so that the union connection 46 is moveable or displaceable or capable of swiveling in the union connection 50 within a certain range.
The embodiment according to
A drain well 45 with a lip packing 52 can also feasibly be combined with a first fixing part 5 of the embodiment according to
Number | Date | Country | Kind |
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102004063420.3 | Dec 2004 | DE | national |
102005013943.4 | Mar 2005 | DE | national |
102005036576.0 | Aug 2005 | DE | national |
This application is a divisional of U.S. patent application Ser. No. 11/314,085, filed Dec. 22, 2005.
Number | Date | Country | |
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Parent | 11314085 | Dec 2005 | US |
Child | 12292649 | US |