EP3812521A1 - Fluid management system - Google Patents

Abstract

The invention relates to a fluid management system (1) for receiving, storing and dispensing a fluid (14), in particular rainwater, comprising a trench (2) which provides a receiving volume (2.1) for receiving the fluid (14), a supply device ( 3) for the supply of the fluid (14) to the trench (2), a discharge device for the discharge of the fluid (14) from the trench (2), a data processing system (11) and at least one measuring device connected to the data processing system (11) ( 7) for receiving data that can be transmitted to the data processing system (11).

Description

The invention relates to a fluid management system for receiving, storing and dispensing a fluid.

Fluid intake devices that take up, store and release a fluid such as rainwater, for example, are used in large numbers in order not to exceed the load limit of a sewer system. Such fluid receiving devices are used in particular for the drainage of fluids from large sealed surfaces, such as parking lots. The entry of dirt, sediment and other accompanying substances carried along by the fluid can lead to these undesirable components being deposited in the fluid receiving device, thus reducing the available storage space, reducing the infiltration capacity of such a device more and more and the Damage equipment if necessary. As a result, high expenditures for the cleaning and maintenance of such a fluid receiving device have to be made.

This is where the invention comes in, which has set itself the task of overcoming the above-mentioned disadvantages and providing a fluid management system which is designed such that it transmits data with regard to its operating state in order to be able to carry out cleaning and maintenance on the basis of the transmitted data .

The object of the present invention is achieved by the subject matter of claim 1.

It was recognized that a fluid management system completely solves the task if it is provided that the fluid management system for receiving, storing and dispensing a fluid, in particular rainwater, comprises the following:
a trench, which provides a receiving volume for receiving the fluid, a supply device for the supply of the fluid to the trench, a discharge device for the discharge of the fluid from the trench, a data processing system and at least one measuring device connected to the data processing system for recording data that can be transmitted to the data processing system.

In the present invention, it can be found to be very advantageous if it is provided that the measuring device comprises a filling level measuring device. With the aid of the level measuring device, the level of the fluid in the trench can be determined in a simple manner. Such a level measuring device is basically known from the prior art and is often used in containers that contain a fluid. In the present invention, the level measuring device is installed in the trench in such a way that it extends between the lowest point seen in the direction of gravity and the point of the maximum level of the fluid in the trench.

With the aid of the filling level measuring device, it is possible to detect not only the filling level of the fluid in the trench but also changes in the filling level, and in particular changes in the filling level of the fluid in the trench over time.

In a favorable development of the invention, the fluid management system can be designed in such a way that a further measuring device is provided, the further measuring device comprising a precipitation measuring device.

The precipitation measuring device according to the present invention can easily detect precipitation which is fed to the trench with little delay. Such a precipitation measuring device is known from the prior art and is used in many places in order to be able to make statements about precipitation, for example as a rain gauge. In addition to the recording of the amount of precipitation or the amount of precipitation by the precipitation measuring device, the course of a rain event over time can also be recorded with regard to the precipitation volume.

According to the present invention, the data processing system and the measuring devices are connected to one another. This makes it possible for data to be exchanged between the data processing system and the measuring devices. In particular, data that the measuring devices determine are transmitted to the data processing system. It is also possible, however, for data to be transmitted from the data processing system to the fair direction, for example to to calibrate or check them or to update the software of the measuring devices, insofar as the measuring devices relate to these supports.

In an extremely advantageous development of the present invention, it can be provided that the data processing system is connected to the measuring devices by means of data connections. In particular, it can be provided that the data processing system is connected to the level measuring device by a first data connection and / or that the data processing system is connected to the precipitation measuring device by a second data connection.

This makes it possible in a simple manner for data that are determined by the measuring devices to be transmitted to the data processing system.

In the present invention, it can be found to be particularly practicable if it is provided that the first data connection is cable-supported and / or radio-supported, and the second data connection is cable-supported and / or radio-supported.

As a result, depending on the local conditions, a cable connection can be set up for the data connection between the data processing system and the measuring devices. Alternatively, if there are other local conditions, a radio link can be set up for the data link between the data processing system and the measuring devices.

In a particularly advantageous embodiment of the present invention, it can be provided that the data processing system is connected to a display unit. Such a display unit can display data, in particular operating data, of the fluid management system. In addition, such a display unit can also output warning information that provides the personnel with information that, for example, the capacity of the trench for fluid is limited or is insufficient for a specific rain event.

The display unit can be connected to the data processing system by means of a third data connection which is cable-supported and / or radio-supported and / or by means of UMTS (Universal Mobile Telecommunications System) and / or by means of LoRaWAN (Long Range Wide Area Network).

In a very advantageous development of the present invention, the fluid management system can be designed in such a way that an energy source is provided, which supplies the data processing system and / or the level measuring device and / or the precipitation measuring device with energy.

For example, it can be provided that the precipitation measuring device is assigned a solar panel and / or a wind power machine for generating electrical energy, which supplies the data processing system and / or the level measuring device and / or the precipitation measuring device with energy for operation.

Alternatively, it can be provided that the energy supply of the data processing system and / or the level measuring device and / or the precipitation measuring device is ensured with the aid of an accumulator and / or a battery and / or a connection to the public power grid or some other technology.

In an alternative embodiment of the present invention, it can be provided that the data determined by the measuring devices go to a cloud and are evaluated there. The result of the data evaluation in the cloud can be displayed with the aid of the display unit described above.

In the present invention, it can prove to be very favorable if it is provided that in the fluid management system the trench is constructed in a modular manner from individual components.

A trench that is built up modularly from individual components can be provided in a simple manner, can be erected quickly, can be easily adapted to the local conditions and is inexpensive. Such a trench can easily be equipped with the level measuring device.

It can be provided with particular advantage that the fluid management system is designed in such a way that the trench has a shell that is covered at least in sections by a cover that is fluid-permeable or fluid-impermeable.

The cover, which covers the shell of the trench at least in sections, can prevent material from being washed into the trench, for example, from the soil or the fluid from the trench only being able to seep into the soil at the points provided for it.

With the help of the present invention, the infiltration capacity of the trench can be determined in a simple manner that the decrease in the volume of the fluid in the trench is determined as a function of time with the aid of the level measuring device, with no fluid being fed to the trench.

The processing of the data obtained by the level measuring device on the level of the fluid in the trench takes place in the data processing system. If the infiltration capacity of the trench, which is determined with the help of the data processing system, falls below a specified value, it can be assumed that the proportion of sediment, dirt and other impurities in the trench is so high that the fluid can seep into the trench into the trench surrounding soil is obstructed. The data processing system can then output a message to the personnel that cleaning, inspection or maintenance of the trench is necessary.

With the aid of the present invention it is also possible that, in the event of a rain event, a prediction with the aid of the data processing system is possible as to the extent to which the trench can absorb the amount of fluid supplied to the trench in the event of a heavy rain event. For this purpose, data from the precipitation measuring device and from the filling level measuring device are transmitted to the data processing system. From the level of the fluid in the trench, the infiltration capacity of the trench and the current amount of precipitation, the data processing system can determine whether the trench is able to handle the fluid volume supplied to the trench, even in the event of a heavy rain event or the design rain on which the dimensioning of the trench is based to record. If the fluid volume fed to the trench cannot be completely absorbed by the trench, a flood event can occur in the design case, which the data processing system shows the personnel in advance. Then, for example, further measures can be taken to prevent such a flood event as far as possible.

It goes without saying that other information can also be obtained from the data determined with the aid of the data processing system.

The fluid management system of the present invention is applied or used in rainwater management, in swimming pool technology, in agriculture and in other areas.

The fluid management system according to the invention can be used to great advantage for the uptake, storage and delivery of rainwater, it being possible to obtain and display data on the operating state of the fluid management system. From the data about the operating state of the fluid management system, in turn, forecasts about the future operation of the fluid management system can be derived, as well as necessary work relating to maintenance, cleaning and repair.

Such a fluid management system according to the invention is thus distinguished in comparison with those from the prior art as being improved in essential points.

Further important features and advantages of the invention emerge from the subclaims, from the figure and from the associated description of the figures.

It goes without saying that the features mentioned above and those yet to be explained below can be used not only in the respectively specified combination, but also in other combinations or on their own, without departing from the scope of the present invention.

A preferred embodiment of the invention is shown in the figure and is explained in more detail in the following description.

The present invention is described in more detail with reference to the accompanying figure as follows.

Fig. 1

eine schematische Darstellung des Fluidmanagementsystems.

This shows:

Fig. 1

a schematic representation of the fluid management system.

In the Fig. 1 the fluid management system 1 according to the present invention is shown in a schematic representation.

The fluid management system 1 serves to receive, store and dispense a fluid 14, in particular rainwater.

The fluid management system 1 comprises a trench 2, which provides a receiving volume 2.1. The fluid 14, for example rainwater, can be received in the receiving volume 2.1 of the trench 2 of the fluid management system 1.

The fluid management system 1 further comprises a supply device 3 for supplying the fluid 14 to the trench 2. The supply device 3 can be a pipe or a pipe system which, for example, supplies rainwater from a manhole or another collecting device to the trench 2.

The fluid management system 1 further comprises a discharge device for discharging the fluid 14 from the trench 2. Such a discharge device can for example comprise a pipe or a pipe system with which the fluid 14 can be discharged from the trench 2 into a receiving water. Advantageously, the discharge of the fluid 14 from the trench 2 into the receiving water can be limited or controlled with a valve. This discharge device described above is in the Fig. 1 Not shown. In another embodiment of the invention, which is shown here, it can be provided that the discharge device is formed by the base surface 5.1 and / or by parts of the side surface 5.2 of the trench 2. Fluid 14 can seep from the trench 2 into the surrounding soil 6 through the base area 5.1 and / or through parts of the side surface 5.2 of the trench 2, provided that the shell 4 of the trench 2 is set up accordingly, that is, allows this seepage. This can be accomplished by appropriate coverings of the shell 4 of the trench 2. Such an envelope 4 of the trench 2 is then to be designed to be fluid-permeable.

The fluid management system 1 further comprises a level measuring device 7, a precipitation measuring device 9 and a data processing system 11. The level measuring device 7 arranged in the trench 2 detects the level of the fluid 14 in the receiving volume 2.1 of the trench 2. For this purpose, the measuring range of the level measuring device 7 extends from the lowest Point of the receiving volume 2.1 of the trench 2 up to the location of the highest possible level of the fluid 14 in the receiving volume 2.1 of the trench 2. It is shown here that fluid 14 fills about a quarter of the receiving volume 2.1 of the trench 2 up to the fluid level F. The level measuring device 7 is connected to the data processing system 11 via a first data connection 8, so that data between the Level measuring device 7 and the data processing system 11 can be exchanged. In particular, the filling level measuring device 7 can transmit data to the data processing system 11 that relate to the filling level of the fluid 14 in the receiving volume 2.1 of the trench 2 and about the temporal course of the filling level if such measurements take place repeatedly.

A precipitation measuring device 9 is also provided, which records the amount of precipitation 15 and transmits it to the data processing system 11 by means of the second data connection 10. In this way, data can be exchanged between the precipitation measuring device 9 and the data processing system 11. In particular, the precipitation measuring device 9 can transmit data to the data processing system 11 that relate to the volume of the precipitation 15 and about the temporal course of the precipitation 15 if such measurements take place repeatedly.

In the present invention, it can be found to be particularly practicable if it is provided that the first data connection 8 is cable-supported and / or radio-supported, and the second data connection 10 is cable-supported and / or radio-supported.

As a result, depending on the local conditions, a cable connection for the data connections 8, 10 can be set up between the data processing system 11 and the measuring devices 7, 9. Alternatively, if there are other local conditions, a radio link can be set up for the data links 8, 10 between the data processing system 11 and the measuring devices 7, 9. While the trench 2 is arranged in the ground 6, the precipitation measuring device 9 is installed above the surface of the earth - here symbolically above the upper edge of the ground GOK.

It is very helpful if it is provided that the data processing system 11 outputs information with the aid of a display unit 13. Such a display unit 13 can be a screen that is permanently installed in a monitoring center, for example. In other embodiments of the invention, the display unit 13 can also be a screen of a tablet, a mobile phone or another portable device. The transmission or exchange of data between the data processing system 11 and the display unit 13 is ensured by a third data connection 12. The third data connection 12 can be cable-supported and / or radio-supported and / or by means of UMTS (Universal Mobile Telecommunications System) and / or by means of LoRaWAN (Long Range Wide Area Network).

In an embodiment of the invention not shown here, it can be provided that the data processing system 11 includes the display unit 13.

List of reference symbols

1

Fluid management system

2

Trench

2.1

Recording volume

3

Feeder

4th

Shell

5.1

Floor space

5.2

Side face

6th

soil

7th

Level measuring device

8th

first data connection

9

Precipitation measuring device

10

second data connection

11

Data processing system

12th

third data connection

13th

Display unit

14th

Fluid

15th

Precipitation

F.

Fluid level

GOK

Ground level

Claims (8)

Fluid management system (1) for receiving, storing and dispensing a fluid (14), in particular rainwater, comprising a trench (2) which provides a receiving volume (2.1) for receiving the fluid (14), a supply device (3) for the Feeding the fluid (14) to the trench (2), a discharge device for discharging the fluid (14) from the trench (2), a data processing system (11) and at least one measuring device (7) connected to the data processing system (11) for recording of data that can be transmitted to the data processing system (11). Fluid management system (1) according to claim 1, characterized in that the measuring device (7) comprises a filling level measuring device (7). Fluid management system (1) according to Claim 1 or 2, characterized in that a further measuring device (9) is provided, the further measuring device (9) comprising a precipitation measuring device (9). Fluid management system (1) according to one of Claims 1 to 3, characterized in that the data processing system (11) with the measuring device (7)
is connected by a first data connection (8), the first data connection (8) being cable-supported and / or radio-supported, and / or that the data processing system (11) is connected to the further measuring device (9) by a second data connection (10), wherein the second data connection (10) is cable-supported and / or radio-supported. Fluid management system (1) according to one of the preceding claims, characterized in that the data processing system (11) with a Display unit (13) is connected, in particular with the help of a third data connection (12) which is cable-supported and / or radio-supported and / or by means of UMTS (Universal Mobile Telecommunications System) and / or by means of LoRaWAN (Long Range Wide Area Network). Fluid management system (1) according to one of the preceding claims, characterized in that an energy source is provided which supplies the data processing system (11) and / or the level measuring device (7) and / or the precipitation measuring device (8) with energy. Fluid management system (1) according to one of the preceding claims, characterized in that the trench (2) is constructed in a modular manner from individual components. Fluid management system (1) according to one of the preceding claims, characterized in that the trench (2) has a shell (4) which is covered at least in sections by a cover which is fluid-permeable or fluid-impermeable.

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