NL1003694C2 - Level-regulating weir in watercourse - Google Patents

Abstract

The weir regulates the lower or upper level, having a housing (3) with threshold (17) mounted in the watercourse. A plate (10) turns in the housing on a horizontal axis (6) between the shut and open positions, and has a part-cylindrical surface (7) on the upstream side and centred on the axis of rotation. The plate is coupled to counterbalancing equipment (12) on the opposite side of the axis, and also to a drive mechanism (13,14) turning it. The distance between the centre of gravity of the plate and axis (6) is at least approximately equal to that between the centre of gravity of the counterbalancing equipment and this axis. The plate can be arranged to turn downwards along the threshold, and it and the counterbalancing equipment can turn through 75 degree at least. The drive mechanism can consist of a gear sector centred on the axis of rotation and with which a pinion meshes.

Description

Weir

The invention relates to a weir for controlling the lower level or the upper level in a watercourse, comprising a housing with a sill that can be placed in the watercourse and a slide rotatable about a horizontal centerline, which surface faces the upstream part of the watercourse. which is approximately cylindrical with respect to said centerline, which slide communicates with balancing means located on the opposite side of the centerline, as well as with drive means for moving the slide with respect to the sill.

Such a weir is known from US-A-1363820. In connection with optimal water management, automatic working weirs are increasingly being used. This trend is caused by the desire to achieve a more precise management, also in connection with the reduction of desiccation.

In fully automated weirs, it is a requirement that the water levels and shear levels are transmitted via telemetry to a central control station, from which inverse commands can be sent for adjusting the slides.

Such barrages and installations are currently powered from the public electricity grid. However, such a power supply is too expensive for remote places. A solar powered weir would be preferable in such cases.

The known weirs are less suitable for that application, however. First of all, the drive thereof costs so much energy that such a form of energy supply requires a relatively large and expensive energy installation and therefore does not suffice. A large part of the required energy is consumed during continuous adjustment of the slide, with the aim of still being able to provide a constant level with fluctuating water supply. On the other hand, the operation of the above-mentioned known weir is too fragile, especially because of the passage of water under the slide, which can cause blockages and problems with closing the slide. Furthermore, this partially discharging weir does not discharge floating dirt and floating aquatic plants when the slide is partially opened, whereby odor and visual nuisance can occur, among other things.

1003694.

2 * The aim of the invention is therefore to provide a weir that is more satisfactory. This object is achieved in that the distance from the slide to the axis of rotation is at least approximately equal to the distance from the balancing means to the axis. The slide and the balancing means are rotatable with respect to said axis of rotation through an angle of at least 75 *

The slide can be turned downwards thanks to this compact design. On the other hand, the slider can also still be turned upwards.

As stated, the weir according to the invention has a compact construction, which on the one hand enables largely fault-free operation and, on the other hand, results in low energy consumption due to the fact that the construction is in balance with respect to the axis of rotation and with the compact construction associated low 15 moments of inertia.

The slide can be turned completely downwards. The risk of silting under the slide is small, since the bottom plate of the house is not much deeper than the bottom of the watercourse. Sand that may have collected anyway is washed away as soon as the slide is adjusted higher, under the influence of the overflowing water.

An embodiment in which the drive means comprise a ring concentric with respect to the axis of rotation of the slide, which engages with a drive, has the advantage of a particularly compact construction.

In that connection, the drive means may comprise a rack and a drive pinion engageable with the rack. The pinion is driven by an electric motor, which in turn can be powered by a solar-powered battery.

In a preferred embodiment, a disc concentric with respect to the axis of rotation is located at both ends of the slide. The contour of the slider coincides with the contour of the discs. The wreath is located on the outer circumference of at least one of the 35 discs.

The balancing means may comprise masses contained in both disks. The balancing means can also comprise a mass of or on a beam extending between the two disks.

1003694.

3

The weir according to the invention can be designed for draining water over or under the slide. In the first case, floating and floating waste can be removed without problems, without getting stuck.

For good sealing, the sill has a sealing profile that rests against the surface of the slide facing the upstream part.

Because of the required stiffness and strength with regard to bending and torsion, the slide has a support plate on the side facing the downstream part. In order also to avoid the water masses flowing over the slide in such an embodiment from influencing the behavior of the slide, the support plate is curved on the surface facing the downstream part. Preferably, that surface is approximately concentric with respect to the axis of rotation.

The invention will be explained in more detail below with reference to a few illustrative embodiments shown in the figures.

Figure 1 shows a first embodiment of a weir according to the invention, in opened condition.

Figure 2 shows the weir according to figure 1 in maximum lifting condition.

Figure 3 shows the weir according to figure 1 in front view.

Figure 4 shows the top view of the weir according to Figure 3

Figure 5 shows a second embodiment of a weir or an inlet sluice according to the invention, in a first partly opened condition.

Figure 6 shows the weir or inlet sluice according to Figure 5 in a second partially opened condition.

Figure 7 shows a rear view of the weir / inlet sluice.

The weir shown in figure 1 is located between the upper course 1 and the lower course 2 of a water, such as a river. The weir comprises a housing 3 which is placed on the bottom 4 as shown in cross section. In the housing 3, the slide, indicated in its entirety by 5, is rotatably arranged about axis 6. The slide comprises a sliding plate 7 arranged concentrically with respect to the shaft 6, which is welded at both transverse ends to a disc 8 arranged also concentrically with respect to the shaft 6.

1003694.

it

A stiffening plate 9 is mounted behind the sliding plate 7, which, together with the sliding plate 7, provides a torsionally rigid sliding body 10.

The sliding body 10 is supported with respect to that axis 6 by means of an additional reinforcement plate 11, which has a triangular shape and extends up to the axis 6.

Diametrically opposite the sliding body 10 is a balancing weight 12, which can be designed as a beam with the desired mass extending between the two discs 8.

A rack 13 is arranged over a part of the circumference of both discs 8, which curves correspond to the circumference of the discs 8. A pinion 1k cooperates with this rack 13, which is mounted on the shaft of a drive motor or cooperates with it via a delay. Instead of a rack / pinion 15, a chain can also be used on the outer circumference.

The sliding plate 7 cooperates with a rubber strip 15, which is mounted on a bottom plate indicated in its entirety by 16. This bottom plate forms a sill 17 «such that the gap remaining between sliding plate 7 and sill 17 is closed by the flexible strip 15 which forms the seal.

In the situation shown in figure 1, the weir is fully opened, such that the water can flow unhindered over the weir 10.

In the situation shown in figure 2, the weir has its maximum weir height and the water from the upper course 1 is retained. Since the sliding plate is concentric with respect to the shaft 6, the force exerted by the water mass in the upper course 1 does not provide any torque with respect to the shaft 6, so that the weir remains reliably closed.

A further advantage of this embodiment is that the drive coupled to the pinion 14 can move thrust body 10 with a small effort, such that little energy is required for this. It is therefore possible to drive this weir using, for example, solar energy.

The views shown in Figures 3 and 4 show the two discs 8 again, as well as the housing 3, which contains side walls 23 next to the bottom plate 16. The shaft 6 is rotatably suspended in these side walls 23 by means of bearings 24. Also shown is the drive motor 22, which is coupled to the pinion 14.

1003694.

The top view of Figure 4 shows that the two disks 8 are sealed with respect to the walls 23 of the housing 3 by flexible strips 18, which extend from top to bottom.

In the embodiment shown in Figs. 5 ~ 7, a gear rack 13 is provided on at least one of the two disks 8, which extends over about half of the circumference thereof. Thereby the rack 13 is placed in such a way that sliding body 10 can also be unloading, that is to say that the underside of the sliding body 10 can be located at a distance from the seal 15. · Alternatively, the sliding body 10 can be turned the other way, such that the water mass from the upper course 1 can flow over the top of the sliding body 10. Due to this embodiment, the slider can function both as an inlet discharge sluice and as a weir discharge valve.

This embodiment has on both sides of the slider a counterweight which is incorporated in the discs 8. This counterweight consists of two sectors 20 of, for example, metal, which form approximately a quarter of a circle, which guarantee the balance with respect to the slider body 10. The advantage of this embodiment is that the watercourse behind the sliding body is not blocked, so that no dirt and the like can get caught.

The rear view of figure 7 shows that the plate 9 has holes 25. Via these holes 25, the space between the sliding plate 7 and back plate 9 can be filled with water, so that the behavior of the sliding body 10 is indifferent with regard to its position with respect to the water.

In the construction shown in Figure 5, the water is passed under the slide 10, which is important for an application as an inlet sluice in connection with maintaining the lower level. This construction can also be used as a weir.

1003694.

Claims (14)

1. For controlling the bottom pellet or the upper level in a watercourse, comprising a housing (3) 5 which can be placed in the watercourse with a sill (17) as well as a slide (10) which is rotatable about a horizontal axis (6) between a closed position and an open position, and which has a surface (7) facing the upstream part (1) of the watercourse, which is approximately cylindrical with respect to said center line (6), which slide (10) communicates with balancing means (12, 20) located on the opposite side of the axis (6), as well as with drive means (13, 14, 22) for rotating the slide (10), characterized in that the distance from the center of gravity of the slide (10) until the axis of rotation is at least approximately equal to the distance from the center of gravity of the launching means (12, 20) to the axis. Weir as claimed in claim 1, wherein the slide (10) is rotatable downwards along the sill (17). 3 * Weir according to claim 1 or 2, wherein the slide (10) and the balancing means (12, 20) are rotatable with respect to said axis of rotation over an angle of at least 75 * The weir of claim 1, 2 or 3, wherein the drive means 25 comprise a ring (13) concentric with respect to the axis of rotation of the slide, which meshes with a drive (14). Weir as claimed in claim 1, 2, 3 or 4, wherein the drive means comprise a rack (13) and a drive pinion (14) meshing with the rack (13). Weir as claimed in claim 1, 2, 3, 4 or 5, wherein at both ends of the slide (10) there is a disk (8) concentric with respect to the axis of rotation. 35 The weir of claim 6, wherein the contour of the slide (10) coincides with the contour of the disks (8). 1003694. Weir as claimed in claim 6 or 7. wherein the wreath (13) is located on the outer circumference of at least one of the disks (8). The weir according to claim 6, 7 or 8, wherein the balancing means 5 comprise masses (20) incorporated in both discs (8). 10. Weir according to claim 6, 7, 8 or 9, wherein the balancing means comprise a mass on a beam (1 * 1) extending between the two disks (8). 10 A weir according to any one of the preceding claims, wherein the sill (17) has a sealing profile (15) resting against the surface of the slide (10) facing the upstream part (1). Weir according to any one of the preceding claims, wherein the slide (10) has a support plate (9) on the side facing the downstream part (2). Weir according to claim 12, wherein the support plate (9) is hollowly curved on the surface facing the downstream part (2). I. Weir according to claim 13. wherein the surface facing the upstream part is approximately concentric with respect to the axis of rotation. 25 Weir according to any one of the preceding claims 6-1 * 1, wherein a seal (18) is located between each disc (8) and the adjacent wall (23) of the housing (3). Weir as claimed in claim 1, 2 or 3. wherein the drive means comprise a chain running over a concentric surface relative to the axis of rotation of the slide. 1003694.