Drainage channel, channel body and combination of such channel bodies
A drainage channel for embedding in a surface is disclosed. In order to ensure reliable run-off of the water even in the region remote from the outlet, the inclination of the conduit base relative to the top edge is increased in this region compared with the region close to the outlet. The channel is preferably composed of a plurality of channel bodies. In order to permit simple installation of the channel, the outer base of each channel body preferably runs parallel to its top edge.
(a) Field of the Invention
The present invention relates to a drainage channel, to a channel body, and to a combination of such channel bodies.
(b) Description of the Related Art
Drainage channels are frequently used in order to remove water from the surface of parking lots, roads, paths, taxiways of airports, floors in industrial halls, abattoirs or meat markets, etc. The channels are embedded in the surface, are open at the top and are usually covered with a grating. As a rule, they are composed of a plurality of prefabricated channel bodies of concrete, polyester concrete or other materials which are connected to one another at their ends. For the installation of such a channel in the foundation, it is necessary to excavate a trench, the depth of which is matched exactly to the installation depth of each channel body.
In order to allow the water passing into the channel to flow off automatically, it is desirable to install the drainage channel in a slightly inclined position in the longitudinal direction in order thus to obtain a gradient. However, often the surface itself in which the channel is embedded has no gradient. In order to nonetheless enable the water to flow off, it is known to compose the drainage channel of channel bodies in which the conduit base and the outer base, running parallel to one another, of the channel body are slightly inclined relative to the top edge of the channel body. As a result, the channel has a gradient even at a horizontal surface.
So that the top edge of all the channel bodies can terminate flush with the (horizontal) surface in which the channel is installed, the height of the side walls of the channel bodies, and thus their overall height, must increase continuously along the drainage channel from channel body to channel body. Such a drainage channel has been disclosed, for example, in EP-A 0 206 996. In such a channel, it is necessary to excavate a trench which continuously increases in its depth relative to the surface toward the end on the outlet side. This involves a relatively high cost and requires precise work, a factor which is not easy to comply with under the normal conditions on a building site.
In such drainage channels, the gradient is often not sufficient in order to ensure a reliable run-off of the water in all the regions of the drainage channel. As a result, water and dirt residues often remain behind in the conduit, which may lead to contamination of the conduit, to unpleasant odours and in the long term to changes in the conduit material, even to leakages.
SUMMARY OF THE INVENTIONIt is therefore an object of the present invention to specify a drainage channel or individual parts of such a channel which enable the water to flow off in a reliable manner.
According to a first aspect of the present invention, a drainage channel is provided which has a conduit at least partly open at the top for receiving liquid and having a conduit base, an end near an outlet, an end remote from the outlet, and a top edge, wherein the conduit base is inclined in the longitudinal direction relative to the top edge to a greater degree in a region adjoining the end remote from the outlet than in any other region of the drainage channel.
According to a second aspect of the present invention, a channel body for a drainage channel is provided, the channel body having a top edge, an outer base for resting on a foundation, and a conduit section running in the longitudinal direction, open at the top and having a conduit base, wherein the conduit base, in a section which adjoins that end of the channel body at which the conduit base is at its highest, is inclined in the longitudinal direction to a greater degree relative to the top edge than in a section adjoining the opposite end of the channel body.
According to a third aspect of the present invention, a channel body for a drainage channel is provided, the channel body having a top edge, an outer base for resting on a foundation, and a conduit section running in the longitudinal direction, open at the top and having a conduit base, wherein the conduit base is inclined in the longitudinal direction relative to the outer base, and wherein the outer base runs in the longitudinal direction essentially parallel to the top edge.
According to a fourth aspect of the present invention, a combination of channel bodies is provided, wherein the top edge of each channel body runs in the longitudinal direction essentially parallel to the outer base, and wherein all the channel bodies have essentially the same overall height between the outer base and the top edge.
According to a fifth aspect of the present invention, a combination of channel bodies is provided, wherein the top edge of each channel body runs in the longitudinal direction essentially parallel to the outer base, and wherein the combination comprises at least one pedestal which is designed for being attached under at least one of the channel bodies in order to increase its overall height, and wherein the pedestal has a height which is selected in such a way that the overall height of at least one of the channel bodies is essentially equal to the overall height of another of the channel bodies together with the pedestal attached underneath.
In particular, a drainage channel is provided which has an end on the outlet side and an end remote from the outlet. The channel comprises and defines a conduit for receiving liquid, this conduit being at least partly open at the top. The conduit has a conduit base over which the liquid to be removed collects and over which it flows off. The drainage channel is delimited at the top by a top edge. As a rule, the top edge runs flush with the surface in which the channel is embedded, and therefore preferably runs horizontally. According to the invention, the conduit base is inclined in the longitudinal direction relative to the top edge to a greater degree in a region adjoining the end remote from the outlet than in any other region of the drainage channel. In other words, the gradient of the conduit base at the start of the channel is increased relative to the gradient at the end of the channel. As a result, even relatively small quantities of water, as normally occur at the start of a drainage channel, can be efficiently carried away on account of the increased gradient in this region. This is possible even when, for example, a certain quantity of dirt disturbs the run-off in this region, since said dirt is entrained more easily due to the increased gradient and due to the water pressure increased as a result. At the end on the outlet side, however, only a smaller gradient, or no gradient at all, is required, since the quantities of water transported here become greater as a rule. Due to the correspondingly higher water pressure, these quantities of water will also flow off easily even at a small gradient or if there is no gradient and will entrain any dirt possibly present. Since only a small gradient or no gradient at all need be selected at the end on the outlet side, a greater length of the drainage channel can be achieved at a predetermined installation depth.
The inclination of the conduit base relative to the top edge preferably decreases monotonically from the end remote from the outlet to the end on the outlet side. In other words, the gradient in the direction of the outlet becomes smaller and smaller over the length of the conduit, i.e. there are no intermediate regions in which the gradient is once again increased relative to the surrounding regions. Since increasingly larger quantities of water are normally transported with decreasing distance from the outlet, it is sufficient that a gradient which becomes smaller and smaller is provided for carrying away said quantities of water in an efficient manner.
A drainage channel is often composed of individual channel bodies. That channel body which is arranged at the start of the conduit is then of particular interest. This channel body may have a constant inclination of the conduit base relative to the top edge, as a result of which the initial gradient is fixed. According to the invention, the second and all the following channel bodies will then have a smaller inclination of the conduit base (a smaller gradient). However, the gradient preferably already decreases within the first channel body. In other words, the channel body furthest away from the outlet has at the start a region in which the conduit base is inclined to a greater degree than in a region at its end.
In particular in the region on the outlet side, however, the drainage channel may comprise channel bodies in which the conduit base has no inclination at all in the longitudinal direction relative to the top edge, that is to say it runs parallel to the top edge. Such channel bodies have been known for a long time. They can be used here without any problems, since the flow at the start of the conduit and thus the water pressure are increased. In particular, channel bodies according to the invention may be combined with channel bodies of the prior art which are already within the product range of a manufacturer. In this way, a very cost-effective channel of increased length can be constructed.
An especially simple construction of the drainage channel is made possible when the outer base with which the channel rests in its bed on the foundation and the top edge of the drainage channel run parallel to one another. Such a drainage channel can be embedded in a trench which has a uniform depth. The requirements for the excavation and for the general preparatory work for such a trench are far less stringent than for a trench which has an inclination, as is required for drainage channels of the prior art. In addition, by virtue of the top edge and the bottom edge running parallel to one another, the channel bodies are given a shape which permits simple stacking and thus simplified storage and transport. The invention accordingly also relates to a channel body whose conduit base is inclined in the longitudinal direction relative to the outer base and whose outer base runs in the longitudinal direction essentially parallel to the top edge.
In an advantageous configuration, all the channel bodies of the drainage channel or within a group of channel bodies essentially have the same overall height, i.e. the same height between outer base and top edge. In this way, as already described above, the channel bodies can be embedded in a trench which has a uniform depth over its entire length.
In a further advantageous configuration, pedestals are additionally provided. At that end of the channel which is remote from the outlet, where the conduit has only a small depth, these pedestals enable channel bodies of smaller overall height to be used than at the end on the outlet side, at which the conduit has a greater depth. The channel bodies of smaller overall height are combined with the pedestals in such a way that they have the same total height and thus the same installation depth as the channel bodies of greater overall height, which are preferably used downstream in the direction of flow. In this way, it is again possible for a trench of uniform depth over its entire length to be prepared in a simple manner in order to embed the channel. In addition, the production costs are reduced owing to the fact that some of the relatively expensive channel bodies, which are produced in relatively small quantities and must have relatively high precision, need only be produced with a small overall height. The associated pedestals, however, only require lower precision and can be produced very cost-effectively in large numbers.
Since the quantity of water will continue to increase in the course of the drainage channel toward the outlet, it is desirable for the conduit to be able to transport a greater quantity of water at its end on the outlet side than at the start. In a region adjoining the end remote from the outlet, the conduit therefore preferably has a cross section which tapers essentially in a V shape toward the bottom. As a result, the water is channeled here in an especially effective manner. On the other hand, in a region adjoining the end on the outlet side, the conduit preferably has a cross section which is essentially U-shaped. The cross section enlarged relative to the V shape enables larger quantities of water to be carried. In addition, the cross section in this region can be adapted if need be to the cross section of channel bodies of the prior art, so that known channel bodies can be used in the region close to the outlet.
BRIEF DESCRIPTION OF THE DRAWINGS
Each of the channel bodies forms a conduit section for receiving water. Each of the conduit sections in turn has a conduit base 21, 31, 41, 51, 61 or 71, respectively. Each conduit base is inclined in the longitudinal direction relative to the respective outer base and the top edge parallel thereto. In this way, the drainage channel has a gradient, as a result of which water can flow in the direction of an outlet (not shown) at the right-hand end of
The first channel body 20 together with its pedestal 10 is shown in more detail in
The channel body defines an essentially V-shaped conduit section which is defined at the bottom by the conduit base 21. The course of the conduit base 21 is indicated in
The pedestal 10 has essentially the form of an elongated beam which supports the outer base of the channel body 20. In the same positions as at the channel body 20, the pedestal 10 also has reinforcing ribs 14 pointing outward. The latter support the reinforcing ribs 24 of the channel body 20 and thereby prevent lateral tilting of the channel body 20. The pedestal 10 rests with its base surface 13 on the excavated bed of a trench (not shown).
At the right-hand end of the third conduit section 40, the conduit base 41 is only at a slight distance from the outer base 43. The conduit can therefore no longer be continued with the same inclination without increasing the overall height of the channel body to the right of the third channel body 40.
The fourth, fifth and sixth channel bodies 50, 60 and 70 are shown in
The overall height d2 of the channel bodies 50, 60 and 70 corresponds exactly to the common overall height of the channel bodies 20, 30 and 40 with their pedestals 10 attached underneath. In this way, the bed on which the channel bodies or pedestals rest can run continuously horizontally over the entire length of the drainage channel without steps being necessary.
In a similar manner,
Instead of the cross section changing from the V shape to the U shape only within a single channel body, this change may also be effected quite gradually over a plurality of channel bodies.
In the present example, six channel bodies form the drainage channel. If it is desired to construct a longer channel, the channel shown can readily be lengthened. To this end, channel bodies having a third overall height which is greater than the overall height d2 would adjoin the channel body 70 on the right. In order to be able to install such a drainage channel in a continuously horizontally running trench, further pedestals 10 may be attached under the channel bodies 50, 60 and 70 or under the already present pedestals 10 of the channel bodies 20, 30 and 40. Alternatively, the channel may also be extended with channel bodies of the overall height d2 which have no gradient, i.e. in which the conduit base runs parallel to the top edge and to the outer base, as known from the prior art.
In the present example, each of the channel bodies has a length of about 1000 millimeters. The overall length of the drainage channel shown is thus 6 meters. The overall height d1 is 150 millimeters; the overall height d2 is 195 millimeters. The inclination in the first channel body is graduated in four sections. Over the first 125 mm length, there is an initial inclination α of 9.1°, corresponding to a gradient of 16%. Over the next 125 mm length, the inclination is 4.6° (gradient 8%). Over the following 250 mm length, the inclination is still 2.3° (gradient 4%), whereas it subsequently drops to a value β of 1.1° (gradient 2%). All further channel bodies likewise have an inclination β of 1.1°, that is to say a gradient of 2%. The graduation permits simpler production than a continuous change in the angle of inclination. The percentage specifications relate, as usual, to the ratio of the height difference to horizontally measured distance and correspond to the tangent of the angle of inclination.
In the case of longer or shorter channels and depending on the field of use, channel bodies of other dimensions and having other angles of inclination of the conduit base may be used. In general, channels which are used in the open and are used for carrying away larger quantities of rain water will more likely have a smaller inclination at a larger length than channels which are used in buildings and are designed for carrying away smaller liquid quantities occurring there. Thus, for example, inclinations of about 0.3° (0.6%) for channels in the open are quite normal. The initial inclination then accordingly does not need to be as large as in the present example. Thus the advantages of the invention can already be achieved even when the angle of inclination α at the start of the channel is increased, for example, by at least about 0.6° (1%), preferably by at least about 1.1° (2%), relative to the angle of inclination β in the region close to the outlet.
In the present exemplary embodiment, the inclination α at the start of the first channel body is increased eightfold relative to the inclination β. The inclination α in the initial region of the first channel body or in the initial region of the drainage channel is at least about 1.5 times the inclination β, in particular preferably about twice the inclination β, in that region of the drainage channel which is close to the outlet.
The channel bodies are preferably produced from “polymer concrete”. Polymer concrete (or also polyester concrete) is a mixture of sand, fine gravel and other fillers which is bonded with a polymer component. Polymer concrete has favorable properties for drainage channels. Thus, polymer concrete is in particular water-resistant and watertight and dimensionally stable. However, the invention is in no way restricted to channel bodies of polymer concrete, and the channel bodies may also be made of other materials familiar to the person skilled in the art, such as, for example, normal concrete or plastic.
In a known manner familiar to the person skilled in the art, the channel bodies are designed for being connected to one another and for accommodating a cover grating at their top end. As examples of such configurations, reference is expressly made to the disclosure of the documents EP-A 0 112 287, EP-A 0 151 684, EP-A 0 399 955, EP-A 0 931 885 and CH-A 690 132.
Claims
1-11. (canceled)
12. A drainage channel, comprising:
- a conduit at least partly open at the top for receiving liquid and having a conduit base;
- an end near an outlet;
- an end remote from the outlet; and
- a top edge, wherein the conduit base is inclined in the longitudinal direction relative to the top edge to a greater degree in a region adjoining the end remote from the outlet than in other regions of the drainage channel.
13. The drainage channel as claimed in claim 12, wherein the inclination of the conduit base relative to the top edge decreases monotonically from the end remote from the outlet to the end on the outlet side.
14. The drainage channel as claimed in claim 12, wherein the channel has an outer base for putting onto a foundation, and wherein the outer base runs substantially parallel to the top edge of the drainage channel.
15. The drainage channel as claimed in claim 12, wherein, in a region adjoining the end remote from the outlet, the channel has a cross section which tapers substantially in a V-shape toward the bottom, and wherein, in a region adjoining the end near the outlet, the channel has a cross section which is substantially U-shaped.
16. The drainage channel as claimed in claim 12, wherein the channel comprises a plurality of channel bodies connected to one another, each channel body having a top edge and a conduit section open at the top and having a conduit base.
17. The drainage channel as claimed in claim 16, wherein, at its end remote from the outlet, the channel comprises a channel body whose conduit base is inclined in the longitudinal direction relative to the top edge at least partly to a greater degree than the conduit base in every other channel body.
18. The drainage channel as claimed in claim 16, wherein, in a region adjoining the end near the outlet, the channel comprises channel bodies in which the conduit base runs in the longitudinal direction parallel to the top edge.
19. A channel body for a drainage channel as claimed in claim 16, the channel body having a top edge, an outer base for resting on a foundation and a conduit section running in the longitudinal direction, open at the top and having a conduit base, wherein the conduit base, in a section which adjoins an end of the channel body at which the conduit base is at its highest, is inclined in the longitudinal direction to a greater degree relative to the top edge than in a section adjoining the opposite end of the channel body.
20. A channel body for a drainage channel, comprising:
- a top edge;
- an outer base for resting on a foundation; and
- a conduit section running in the longitudinal direction, open at the top and having a conduit base, wherein the conduit base is inclined in the longitudinal direction relative to the outer base, and wherein the outer base runs in the longitudinal direction substantially parallel to the top edge.
21. A combination of channel bodies as claimed in claim 19, wherein the top edge of each channel body runs in the longitudinal direction substantially parallel to the outer base, and wherein all the channel bodies have substantially the same overall height between said outer base and said top edge.
22. A combination of channel bodies as claimed in claim 19, wherein the top edge of each channel body runs in the longitudinal direction essentially parallel to the outer base, and wherein the combination comprises at least one pedestal configured for attachment under at least one of the channel bodies in order to increase its overall height, and wherein the pedestal has a height dimension such that the overall height of at least one of the channel bodies is essentially equal to the overall height of another of the channel bodies together with the pedestal attached underneath.
23. The channel body of claim 20, wherein the channel body is used as a drainage channel.
Type: Application
Filed: Sep 1, 2005
Publication Date: Mar 9, 2006
Applicant: POLY BAUELEMENT AG (Batterkinden)
Inventors: Ferdinando Lezza (Baden), Heinz Brink (Uettligen)
Application Number: 11/218,296
International Classification: E02D 19/00 (20060101);