BE1019970A3 - DRAINAGE DEVICE. - Google Patents

Abstract

The present invention relates to a drainage device. The device according to the invention comprises a height-adjustable drain pipe with which the groundwater level can be adjusted. The device is adapted for placement in a slope of a waterway, as a result of which the soil, for example a field, remains freely editable for soil tillage equipment.

Description

Drainage device

The present invention relates to a drainage device.

Such a device is already known. The known device comprises an elongated housing in the form of a well which is placed in the ground in the longitudinal direction. At the bottom of the well is a connecting element for connection to a supply drainage pipe. Also included in the well is a height-adjustable drain pipe which is connected to the drain pipe by means of a connecting element. At the bottom of the well a drain is arranged which is connected to a drain drainage pipe.

The operation of the known device is based on the fact that the groundwater level is determined by the vertical position of the end of the drain pipe. Water that is present in the soil above this position will be absorbed by the supply drainage pipe and will be transported to the well. In the well, this water will run out of the drain pipe and be carried away via the drain drain pipe to, for example, a nearby waterway, such as a ditch or river.

A drawback of the known well is that it protrudes above the ground and as such forms a hard object received in the ground. If this soil needs to be tilled, there is a risk that the well will be damaged by a soil tillage implement, such as a plow, or vice versa.

An object of the present invention is to provide a drainage device in which the above disadvantages do not occur, or at least to a lesser extent.

This object has been achieved with the drainage device according to the invention which is adapted for placement in a slope of a waterway and wherein the housing is arranged so that, at least after placement in the slope, the discharge opening lies in an upper surface of the slope. This upper surface is formed by the top layer of the slope. A wall of the housing adjacent to the discharge opening and located between the discharge pipe and the watercourse is designed substantially horizontally or sloping down towards the watercourse.

By placing the drainage device in a slope of a waterway, for example in the oblique side wall of a ditch, the device does not present a direct danger for the soil to be worked.

Because the wall between the watercourse and the drainpipe has a substantially horizontal or obliquely sloping design towards the watercourse, little to no water remains in the drainage device. Furthermore, the drain pipe has a greater height range within which it can control the groundwater level. After all, this level is mainly determined by the highest point that the water must pass from the ground to the waterway. By designing the wall horizontally or obliquely, it is prevented that this highest point is determined by this wall, for example by this point being higher than the end of the discharge pipe.

The housing preferably comprises an edge which defines the discharge opening and which, when the housing is completely positioned in the slope, lies in its upper surface. As a result of this measure, the drainage device can be placed completely submerged in the slope, with only the edge still lying on the upper surface of the slope.

It is preferred if the discharge pipe is rotatable, preferably about an axis lying substantially parallel to the water passage. This configuration is space-saving since the size and shape of the housing is related to the movement of the drain pipe. By choosing the axis of rotation parallel to the watercourse, the housing extends mainly in the slope and less in a direction parallel to the slope.

To make the rotation possible, the connecting element can comprise a tube which is rotatably coupled to the discharge tube. Such a tube can, for example, extend at least partially parallel to the water passage. The discharge pipe is rotatably coupled to this pipe, for example by means of a bend.

The housing preferably comprises two parallel spaced apart upright walls, each with an inclined side, which oblique sides are at least after placement parallel to the upper surface of the slope and wherein the discharge pipe extends between and parallel to the upright walls. The shape of the housing is therefore preferably substantially in the shape of a triangle. Two points of the triangle shape are part of the upper surface of the slope and the drain pipe is connected close to the other point. With a rotatable discharge pipe, the pivot point is preferably also as close as possible to this other point in order to make optimum use of the cavity within the housing. It will be clear that other forms, such as a dull triangle, are not excluded.

By designing the outlet opening sufficiently large, it is achieved that the outlet tube can be adjusted from outside the housing. A user can then simply engage the discharge tube, for example by putting his hands through the discharge opening and moving it to the desired position.

Another advantage of a sufficiently large opening is that a user can easily read the position of the tube, among other things because it can view the tube substantially from a horizontal direction. This makes it easier to deduce, compared to the known device, what the desired or actual groundwater level is. The housing can further be provided with indicators, for example numbers, with which the position of the tube can be characterized. For example, it is possible to include the indications (position 1. position 5) which are indicated at different heights in the housing.

The free end of the drain pipe that is not directly connected to the drain pipe can be provided with a nozzle for connection to a pump installation. This makes it possible to actively regulate the groundwater level by pumping water away.

The housing can be provided with a valve for releasably closing the discharge opening. This allows the interior of the housing to be protected against contamination or weather influences.

In an embodiment of the present invention, the housing is provided on the outside with a guide in which the free end of the drain pipe can move. This end can for instance be provided with a frame which engages on the guide and which is movable therein. The remaining part of the housing that is still accessible from outside can be protected by means of one or more roller screens, which are attached to the free end. In this case, a user can determine the groundwater level by grasping the free end and sliding it in the guide. The rolling screens possibly attached to this end then roll further in or out.

In the following, the invention will be explained in more detail with reference to the accompanying figures, wherein:

Figure 1 shows a partially exploded overall view of a drainage system comprising a network of drainage pipes connected to an embodiment of the drainage device according to the present invention;

Figure 2 shows the embodiment of Figure 1 in more detail; and

Figure 3 shows a cross-section of the view from Figure 1.

In figure 1 a base layer 1 comprises a system of drainage pipes 2 which are connected to a central drainage pipe 3. This latter pipe is connected to an embodiment 4 of the drainage device according to the present invention. By means of this arrangement it is possible to extract groundwater from soil layer 1 and to remove it to waterway 5. Figure 1 shows that drainage device 4 is included in the slope 6 of waterway 5.

Figure 2 shows the embodiment of Figure 1 in more detail, with the side shown partially cut away. The drainage device 4 shown comprises a drain pipe 7, which in Figure 2 is provided at a free end thereof with a nozzle 8 for connection to a pump installation. Drain pipe 7 is connected to drain pipe 3 by means of a connecting element 9. Furthermore, a bend piece 10 is included, through which drain pipe 7 is rotatable, see figure 3. Water running from drain pipe 7 will land on wall 11. Because this wall is designed substantially horizontally or sloping towards waterway 5, there is hardly any water left behind in drainage device 4.

In Figure 2, discharge tube 7 is held in height by a chain 12. Drain tube 7 is movable between two parallel arranged side walls 13, 13 'which are connected to an edge 14 which ensures a smooth finish in the slope. Notch 15 provides a control of the water to be drained. Furthermore, walls 16, 17 are provided which together with walls 11, 13, 13 'and edge 14 substantially form the housing. Walls 13, 13 'are substantially in the shape of a triangle. It is also clear from Figure 2 that the tube can easily be engaged to move it.

Figure 3 shows the operation of the embodiment from Figure 1. Drain pipe 7 is rotatable so that different positions can be assumed as shown in broken lines. Arrow 18 indicates the limits associated with the groundwater level that can be controlled by moving drain pipe 7 between positions 19 and 19 '.

It will be clear to those skilled in the art that various modifications to the embodiment shown are possible without thereby deviating from the scope of protection as defined by the appended claims.

For example, it is possible to automate adjustability by means of a motor. Such a motor could then adjust the height of the free end of the discharge pipe, for example by rotating the discharge pipe through a predetermined angle. The control of such a motor could be done remotely. Optionally, control can be linked to a central system that makes it possible to automatically adjust the water level according to the season, the age of crops present on the ground, weather conditions, etc.

Claims (8)

A drainage device, comprising a housing provided with a drain opening, within which housing a height-adjustable drain pipe is accommodated, wherein the housing is provided with a connecting element for connecting a drain pipe to the drain pipe, said drain device being adapted for placement in a slope of a waterway and wherein the housing is further arranged so that, at least after placement in the slope, the discharge opening lies in an upper surface of the slope and a wall of the housing adjacent to the discharge opening and located between the discharge pipe and the waterway is essentially horizontal or sloping down to the watercourse; wherein the drain pipe is rotatable about an axis lying substantially parallel to the water passage. Drainage device as claimed in claim 1, wherein the housing comprises an edge which defines the discharge opening and which, when the housing is completely placed in the slope, lies in the upper surface of the slope. 3. Drainage device according to claim 1, wherein the connecting element comprises a tube which is rotatably coupled to the discharge tube. 4. Drainage device as claimed in any of the foregoing claims, wherein the housing comprises two parallel spaced apart upright walls, each with an inclined side, which inclined sides are parallel to the upper surface of the slope at least after placement and wherein the discharge pipe extends between and parallel to the upright walls. Drainage device according to one of the preceding claims, wherein the drain opening is adapted to adjust the drain pipe from outside the housing. 6. Drainage device as claimed in any of the foregoing claims, wherein the drain pipe is provided at a free end thereof with a nozzle for connection to a pump installation. A drainage device according to any one of the preceding claims, wherein the housing is provided with a valve for releasably closing the discharge opening. Drainage device according to one of the preceding claims, wherein the housing is provided with indicators for reading the position of the drain pipe in conjunction with a position of the drain pipe.