NL1004453C2 - Device for collecting, intermediate storage and drainage of rainwater. - Google Patents

Description

Short designation: Device for collecting, interim storage and drainage of rainwater.

The invention relates to a device for collecting, temporarily storing and draining rainwater, comprising an intermediate storage basin which is provided with at least one supply, a first discharge arranged near the bottom of the basin 5 and a distance above the bottom of the basin mounted second drain.

Such a device is known from German patent no. 2506126. In this device rainwater, which comes from a supply pipe connected to the supply, is collected in the basin. Under normal circumstances, the first drain, which has a small diameter relative to the inlet, discharges rainwater into a sewer pipe and the sewage treatment behind it. In heavy rain showers, however, the amount of rain water supplied is such that the drain has insufficient capacity, so that the basin is filled. The excess water is then discharged via the second drain to, for example, the surface water. In this way, the capacity of a sewer pipe and of a sewage treatment plant behind it can be limited. Rainwater, especially if it comes from roofs, roads or parking lots, is not always clean enough to be discharged or reused without further ado. However, in the event of long-term (heavy) rainfall, the dirt is drained with the first stream of rainwater and the subsequent stream is sufficiently clean. By now passing the first amount of rainwater via the first discharge to the sewage treatment, the subsequent flow can be used for other purposes, such as re-infiltration into the soil to prevent an undesired drop in the groundwater level, reuse for various indoor applications, or, if necessary, discharge to surface water.

The known device is provided with a movable device that prevents floating dirt with the water from ending up in the second outlet. Such an installation requires regular maintenance, as floating dirt is nevertheless carried away with it if it malfunctions. The first drain is equipped with an adjustable valve or slider to adjust the amount of water that is drained through the first drain. However, a setting once chosen cannot be easily changed. As a result, a compromise must be sought for the setting between the amount of contaminated rainwater that has to be discharged to the sewage treatment plant during light showers and the amount of cleaner rainwater that can still be discharged continuously via the same discharge in case of heavy rain. In the latter situation, after the first flow of dirty rainwater, all the clean rainwater supplied thereafter should actually be discharged via the second outlet.

The object of the invention is to provide an improved device that is less vulnerable and with which the amount of usable rainwater can be increased.

According to the invention, this object is achieved in a device of the type mentioned at the outset in that the first discharge is provided with a self-adjusting current limiter which leaves the first discharge open at low flow rates in the first discharge and at increasing flow rates the close the first drain.

This achieves that in the case of light rainfall the rain water is discharged via the first discharge and in heavy rain the first discharge is closed off and the rain water is mainly discharged via the second discharge.

Preferred embodiments of the device according to the embodiment are defined in the dependent claims 2 to 12.

In the following exemplary embodiment, the invention will be further elucidated with reference to the drawing, in which: fig. 1 shows very schematically an apparatus according to the invention, fig. 2 shows a vertical cross section of a practical embodiment of a device according to the invention in the form of a well, fig. 3 is a vertical cross section of the well of fig.

2 taken on the line III-III, fig. 4 is a top view of a part of the well of fig. 2, and fig. 5 shows the first discharge of the well of fig. 2 on an enlarged scale.

Fig. 1 shows very diagrammatically a device for collecting, temporarily storing and draining rainwater. The device comprises an intermediate storage basin 2, which is provided with an inlet 4, a first outlet 8 arranged near the bottom 6 of the basin and a second outlet 10 arranged at a distance above the bottom 6.

The first drain 8 is provided with a self-adjusting flow limiter 20 which leaves the first drain 8 open at low flow rates and closes the first drain 8 at increasing flow rates.

In the embodiment shown in Fig. 1, the first outlet 8 is formed by a bend 14 arranged in the side wall 12 of the basin 2, the end part 16 of which is situated inside the basin 2, which faces the bottom 6 of the basin, so that the discharge 8 has an inflow opening 18 directed towards the bottom 6 of the basin 2.

The flow limiter 20 is arranged on the underside of the end portion 16 facing the bottom 6 and is formed by a valve controlled by the flow velocity in the first discharge 8. This valve comprises a valve body in the form of a ball 24 freely movable in a housing 22 arranged around the inflow opening 18. An inflow opening 26 is arranged on the underside of the housing 22.

The specific gravity of the sphere is slightly greater than the specific gravity of water and, for example, equal to 1.2. A higher specific weight is also possible, however, the space between the bulb 24 and the housing 22 must then become smaller, which increases the risk of clogging.

Between the interior of the basin 2 and the first drain 8 there is a permanent passage 28 with a low flow capacity.

The second drain 10 is formed by a bend 30 arranged in the side wall 12 of the basin 2, the end part 32 of which is located inside the basin, which faces the bottom 6 of the basin 2, so that the drain 10 is directed towards the bottom 6 of the basin 2 has directed inlet opening 10 34.

The inlet 4 is arranged opposite and at substantially the same height as the second outlet 10 in the side wall 12 of the basin 2.

The operation of the device 15 according to the invention shown in Fig. 1 is as follows.

With light rainfall, when the flow velocity through the housing 22 and the first outlet 8 is low, the bulb 24 floats as it were in the rainwater flowing from the inflow opening 26 and towards the inflow opening 18 and the inflow opening 18 is not closed. With heavier rainfall, at which greater flow rates occur in the housing 22, the bulb 24 is carried along by the water flowing from the inflow opening 26 to the inflow opening 18 and pressed onto the opening 18, so that this opening is closed by the bulb 24. From that moment on, the basin 2 fills up further and the sphere 24 is increasingly pressed on the inflow opening 18 by the static pressure. When the water level in the basin has reached the level of the second outlet 10, the relatively clean rainwater is then discharged through the second outlet 10. This rainwater can be reused or discharged into the surface water.

When no more rainwater enters the basin via the inlet 4, the basin empties because a leakage current flows through the passage 28 to the first outlet 8. At a given moment the static pressure drops the bulb 24 and drops the opening 18, so that the full capacity of the first discharge 8 is again available.

Due to the construction of the device according to the invention, relatively clean rainwater can be discharged separately with simple means, while dirty rainwater is always discharged to a sewer pipe and a sewage treatment behind it.

The risk of blockage of the first discharge 8 is small due to the regular movement of the bulb 24. Should it nevertheless become clogged, it will take a very long time before 10 heavily settling dirt is discharged through the second discharge 10. When choosing a first drain 8 with a small capacity without a self-adjusting current limiter, the risk of the first drain becoming blocked is much greater.

Lightly floating dirt is effectively stopped by the construction of the second discharge 10 with the inflow opening 34 directed towards the bottom 6 of the basin.

If the bulb 24 does not work properly due to dirt and the first drain 8 does not close properly, only the amount of water incorrectly led via the first drain 8 to a sewer pipe 20 is greater than intended, but no dirty rainwater is passed through the second drain 10 discharged.

A further advantage of the construction according to the invention is that the required maintenance is minimal, due to a small number of parts, and the simple and reliable construction.

The construction of the various parts of the device according to the invention may deviate from the construction shown in Fig. 1, as long as the intended function is maintained. For example, the valve body of the valve serving as the self-adjusting flow limiter can have a different shape. The second discharge can also be designed differently. The feed may be located elsewhere in the side wall or at the top of the basin.

Figures 2 to 4 show a more practical embodiment of the device according to the invention in the form of a well. In these figures parts corresponding to parts of the device shown in figure 1 are indicated with the same reference numerals.

In Figs. 2 to 4, the second outlet 10 is perpendicular to the inlet 4 and the first outlet 8. The bottom 6 of the well 5 has, as in particular in Figs. 3 can be seen, a V-shape and is formed by a separate well bottom part 40. On this well bottom part 40 there is a well shaft 42 which forms the side wall of the well. A sealing ring 44 is provided at the top of the well shaft 42 for sealing with respect to a well cover part not shown here.

The device according to the invention can also be constructed as a street or a comfort tank gully (not shown). The feed will then usually not be arranged in the side wall of the basin 15, as now the embodiments shown in Figs. 1-4, but on the top of the basin. Possible advantages of a design as a vortex are that no or fewer wells are required in the sewer system, the system is less susceptible to malfunctions and, unlike a well, inspections take place regularly.

As shown in Fig. 5, the housing 22 can be provided with one or more bushes 46 which are easy to install and remove. This makes it easy to change the cut-off flow rate. Preferably, the housing 22 is equipped as standard with one sleeve 46. This embodiment is then suitable for a well to which 1-5 gullies are connected. If more vortices, for example 6-10, are to be connected to the well, then the sleeve 46 can be removed after loosening a screw cap 48. The detachable cover 48 is also advantageous for any maintenance.

Both with the device shown in Fig. 1 and with the device shown in Fig. 1. 2 to 4 show well there is a space under the house 2 2 that can serve as a "sand trap" for the collection of settling dirt. From time to time this dirt will have to be removed by suction, as is usual with 35 street and curb gullies.

The height and diameter of the pit can be chosen depending on the circumstances, as well as the placement -7- (height position) and the diameters of the inlet and the outlets.

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Claims (12)

1. Device for collecting, temporarily storing and draining rainwater, comprising an intermediate storage basin provided with at least one supply, a first discharge arranged near the bottom of the basin and a second discharge arranged at a distance above the bottom of the basin characterized in that the first drain (8) is provided with a self-adjusting flow limiter (20) which leaves the first drain open at low flow rates in the first drain and closes the first drain at increasing flow rates. Device according to claim 1, characterized in that the first outlet (8) is formed by a bend (14) arranged in the side wall (12) of the basin, the end part of which (16) is located inside the basin (2). is directed towards the bottom (6) of the basin (2) and is fitted at the bottom with a valve controlled by the flow velocity in the first outlet that connects the inlet opening (18) of the elbow (14) towards the bottom of the basin can shutdown. 20 Device according to claim 2, characterized in that the valve comprises a valve body in the form of a ball (24) freely movable in a housing (22) arranged around the inflow opening (18), with a specific weight slightly greater than the specific gravity of water. Device according to claim 3, characterized in that the housing (22) is provided with one or more insertion sleeves (46) with a diameter smaller than the inner dimension of the housing. Device according to any one of claims 1-4, characterized in that there is a permanent passage with a low flow capacity between the interior of the basin (2) and the first discharge (8). 1004453 -9- Device according to any one of claims 1 to 5, characterized in that the second discharge (10) has an inflow opening (32) directed towards the bottom of the basin. Device according to claim 6, characterized in that the second outlet (10) is formed by a bend (30) arranged in the side wall (12) of the basin (2), of which the end part (32) located inside the basin the bottom (6) of the pelvis (2) is oriented. 10 Device according to any one of claims 1 to 7, characterized in that it is constructed as a well. Device according to claim 8, characterized in that the feed (s) (4) is (are) arranged in the side wall (12) of the basin (2). 10. Device as claimed in any of the claims 1-7, characterized in that it is designed as a street or sidewalk chamber. Device according to claim 10, characterized in that the feed is arranged at the top of the basin (2). 25 Device according to any one of claims 1-11, characterized in that the basin (2) is provided with a sand trap on the bottom side. J, 'r <t'