DE202021101915U1 - Mobile water treatment system for the cyclical, technical cleaning of bodies of water intended for bathing - Google Patents

Abstract

Mobile water treatment system (1) for the cyclical, technical cleaning of bodies of water intended for bathing, comprising an analysis unit (2) for determining the content of dissolved substances and / or solid particles in a body of water, a water extraction unit (3) for absorbing water from the body of water, a Water dispensing unit (4) for dispensing water into the body of water, a data processing unit (5), at least one cleaning unit (6) and an energy supply unit (7) for providing energy.

Description

The invention comprises a mobile water treatment system for the cyclical, technical cleaning of bodies of water intended for bathing according to the independent claim.

The invention lies in the technical field of mobile systems for the treatment of eutrophied and contaminated small swimming ponds, in particular stagnant bodies of water, which are intended for human use.

Increasing eutrophication and pollution are an increasingly common problem with regard to surface water, especially stagnant water such as ponds, and especially when a body of water is intended to be used by humans, e.g. for bathing.

In the case of eutrophication, this means the enrichment of nutrients, more precisely the input of nitrogen compounds and phosphorus. Further impurities are given, for example, by the entry of foreign substances, which, due to their nature, contain organic material. As a result, leisure use is increasingly restricted and at some times of the year completely impossible.

In order to avoid a restriction, small bathing ponds, which are artificially created water bodies intended for bathing, should be technically treated. According to the current state of the art, the cleanliness is carried out biologically using micro- and macro-organisms or specific plants such as reeds, which are to be supported by cyclical cleaning with a mobile, technical system. In general, this type of bathing water is operated by private individuals, public institutions or special-purpose associations such as spa facilities or palace administrations. Eutrophication can quickly lead to the "overturning" of the water, especially in the case of smaller bodies of water, such as those in swimming ponds. This means that the increased supply of nutrients means that strong algae growth can take place. After the algae die, this in turn initiates a high consumption of oxygen by micro-organisms that break down the algae. This reduces the dissolved oxygen content in the water, which is required by other organisms in the flora and fauna, and causes them to die. To prevent this from happening in regular operation, larger ponds used for swimming, such as natural and pond swimming pools, are often equipped with cleaning systems. However, this is not the case with small bathing waters. There is the problem that, in contrast to continuously flowing water, the self-cleaning potential is not sufficient to break down the nutrient loads and impurities that have been introduced, as described above, and to ensure undisturbed use.

Current solutions provide that pond systems are equipped with treatment systems that are operated stationary. In contrast, there are already mobile treatment systems, e.g. for drinking water treatment. But the decisive aspect in the systems shown concerns the extraction of nutrients, which is not guaranteed. The nutrient compounds already mentioned are not removed.

Another common practice is removing sludge from the bottom of the pond. To do this, either the water can be drained off and the material removed manually, or technical processes such as robot hoovers can be used.

If one looks at the various techniques with regard to the mode of action and areas of application, it becomes apparent that the combination of mobile system technology and the extraction of dissolved substances such as nitrogen and phosphorus compounds is not practiced. Here there is a need for a mobile treatment system that can bind and remove dissolved substances from the water.

The invention has therefore set itself the task of providing a mobile water treatment system for the cyclical, technical cleaning of bodies of water intended for bathing, which overcomes the disadvantages in the prior art and effectively and economically frees the bodies of water from excessive protective load.

The object is achieved by a mobile water treatment system according to claim 1. Advantageous aspects form the subject of the respective subclaims.

The invention comprises a mobile water treatment system for the cyclical, technical cleaning of bodies of water intended for bathing. The mobile water treatment system comprises an analysis unit for determining the content of dissolved substances and / or solid particles in a body of water. Furthermore, the mobile water treatment system comprises a water extraction unit for receiving water from the water body and a water release unit for releasing water into the water body. In addition, the mobile water treatment system comprises a data processing unit, at least one cleaning unit and an energy supply unit for providing energy. This enables the system to be transported to every bathing water, can be commissioned on site and operated independently.

An advantageous aspect provides that the cleaning unit comprises at least one module, preferably two or more modules connected in parallel and / or in series. This means that the optimal combination of modules for cleaning can be selected depending on the degree of soiling and the type of soiling.

It is particularly advantageous if the modules are designed to separate dissolved substances and / or solid particles from the body of water. This ensures that all substances and particles causing contamination of the water body are removed.

According to a preferred aspect, the modules are designed in such a way that they can be installed in the cleaning unit and / or removed from the cleaning unit independently of one another. This enables a modular cleaning unit to be provided. Thus, the mobile water treatment system can be flexibly configured from the individual modules according to the specific water parameters and used cost-effectively.

According to an advantageous aspect, the modules are designed in such a way that they can be controlled and / or activated independently of one another. As a result, the individual modules can be flexibly combined with one another and exchanged depending on the type of water and pollution, thus ensuring efficient, resource-saving cleaning.

The modules are advantageously designed in such a way as to carry out a physical and / or chemical and / or biological cleaning stage. This enables bathing water to be of high quality.

It has been found to be advantageous if the analysis unit is designed in such a way as to transmit the content of dissolved substances and / or solid particles in the body of water to the data processing unit. This enables the body of water to be characterized on site using manageable laboratory technology.

It is particularly advantageous if the data processing unit is designed in such a way as to determine which modules have to be activated for cleaning on the basis of the content of dissolved substances and / or solid particles in the body of water. This makes it possible for the necessary cleaning steps to be selected based on the determined parameters and to be carried out using the cleaning modules within the mobile water treatment system.

According to a preferred aspect, the cleaning unit is designed to separate dissolved substances and / or solid particles from the body of water. This allows standing bathing water to be freed from solid particles and dissolved substances.

According to an advantageous aspect, the energy supply unit has an autarkic mode of operation. This enables the mobile water treatment system to be operated at any location without the need for external energy to be provided at the place of use.

The invention is explained in more detail below with reference to a drawing.

• 1 eine schematische Darstellung einer erfindungsgemäßen mobilen Wasseraufbereitungsanlage; und
• 2 eine schematische Darstellung eines Verfahrens zur zyklischen, technischen Reinigung von zum Baden vorgesehenen Wasserkörpern unter Verwendung einer erfindungsgemäßen mobilen Wasseraufbereitungsan lage.

Show it:

• 1 a schematic representation of a mobile water treatment system according to the invention; and
• 2 a schematic representation of a process for the cyclical, technical cleaning of bodies of water intended for bathing using a mobile water preparation system according to the invention.

In 1 is a schematic representation of a mobile water treatment system according to the invention 1 shown. The mobile water treatment system 1 is used for the cyclical, technical cleaning of bodies of water intended for bathing and includes an analysis unit 2 to determine the content of dissolved substances and / or solid particles in a body of water. Furthermore, the mobile water treatment system includes 1 a water extraction unit 3rd for absorbing water from the water body and a water dispensing unit 4th to release water into the body of water. It also includes the mobile water treatment system 1 a data processing unit 5 , at least one cleaning unit 6th and a power supply unit 7th to provide energy. For example, the power supply unit 7th a battery or a generator. The data processing unit 5 is for example a controller.

As in 1 clearly includes the cleaning unit 6th at least one module 8th . The cleaning unit preferably comprises 6th two or more modules connected in parallel and / or in series 8th . The modules 8th are designed to separate dissolved substances and / or solid particles from the body of water. For example, a module can contain a biofilter membrane for biological separation. Further biological processes within a module 8th for example, biochemical oxidation or anaerobic water purification are implemented. It is also conceivable that chemical cleaning processes such as oxidation, disinfection, flocculation, decarbonization, ion exchange or electrodeionization take place in a module or that heating takes place to kill micro and macroorganisms. The modules 8th are designed in such a way that they can be used independently of one another in the cleaning unit 6th built-in and / or from the cleaning unit 6th to be expanded. the modules 8th are designed in such a way that they can be controlled and / or activated independently of one another. The modules 8th are designed to carry out a physical and / or chemical and / or biological cleaning stage. Processes such as atomization (atomization), sedimentation, flotation and adsorption are used for physical cleaning. Mechanical cleaning of the water using rakes, sieves or filters is also conceivable.

The analysis unit 2 is designed in such a way that the content of dissolved substances and / or solid particles in the body of water is transmitted to the data processing unit 5 to submit. The data are preferably transmitted wirelessly by means of data signals, for example using the 5G standard. The data processing unit 5 is designed to determine which modules are based on the content of dissolved substances and / or solid particles in the body of water 8th must be activated for cleaning. For this purpose, the data processing unit contains 5 for example a microcontroller.

The cleaning unit 6th is designed to separate dissolved substances and / or solid particles from the body of water. For this purpose, the cleaning unit contains devices for physical and / or chemical and / or biological water cleaning.

The power supply unit 7th has an autarkic mode of operation. For this purpose, it contains, for example, an accumulator or a battery or a generator.

1. I. Entnahme einer Probe aus einem Wasserkörper mittels einer Wasserentnahmeeinheit 3
2. II. Bestimmung eines Gehaltes an gelösten Stoffen und/oder Feststoffpartikeln in dem Wasserkörper mittels einer Analyseeinheit 2
3. III. Übermittlung des Gehaltes an gelösten Stoffen und/oder Feststoffpartikeln an eine Datenverarbeitungseinheit 5
4. IV. Bestimmung von zu aktivierenden Modulen 8 zur Reinigung des Wasserkörpers mittels Datenverarbeitungseinheit 5
5. V. Durchführung der Reinigung des Wasserkörpers mittels der aktivierten Module 8
6. VI. Entnahme einer Probe aus einem Wasserkörper mittels einer Wasserentnahmeeinheit 3
7. VII. Bestimmung eines Gehaltes an gelösten Stoffen und/oder Feststoffpartikeln in dem Wasserkörper mittels einer Analyseeinheit 2
8. VIII. Übermittlung des Gehaltes an gelösten Stoffen und/oder Feststoffpartikeln an eine Datenverarbeitungseinheit 5
9. IX. Bestimmung der Effizienz und/oder Effektivität der Reinigung des Wasserkörpers

2 shows a schematic representation of a process for the cyclical, technical cleaning of bodies of water intended for bathing. A mobile water treatment system according to the invention is used to carry out the method 1 used. The procedure is as follows:

1. I. Taking a sample from a body of water by means of a water sampling unit 3
2. II. Determination of a content of dissolved substances and / or solid particles in the body of water by means of an analysis unit 2
3. III. Transmission of the content of dissolved substances and / or solid particles to a data processing unit 5
4. IV. Determination of modules to be activated 8th for cleaning the body of water by means of a data processing unit 5
5. V. Carrying out the cleaning of the body of water using the activated modules 8
6. VI. Taking a sample from a body of water by means of a water sampling unit 3
7. VII. Determination of the content of dissolved substances and / or solid particles in the body of water by means of an analysis unit 2
8. VIII. Transmission of the content of dissolved substances and / or solid particles to a data processing unit 5
9. IX. Determination of the efficiency and / or effectiveness of cleaning the body of water

Claims (10)

Mobile water treatment system (1) for the cyclical, technical cleaning of bodies of water intended for bathing, comprising an analysis unit (2) for determining the content of dissolved substances and / or solid particles in a body of water, a water extraction unit (3) for absorbing water from the body of water, a Water dispensing unit (4) for dispensing water into the body of water, a data processing unit (5), at least one cleaning unit (6) and an energy supply unit (7) for providing energy. Mobile water treatment system (1) according to Claim 1 wherein the cleaning unit (6) comprises at least one module (8), preferably two or more modules (8) connected in parallel and / or in series. Mobile water treatment system (1) according to Claim 1 or 2 , wherein the modules (8) are designed to separate dissolved substances and / or solid particles from the body of water. Mobile water treatment system (1) according to one of the preceding claims, wherein the modules (8) are designed in such a way that they can be installed in the cleaning unit (6) and / or removed from the cleaning unit (6) independently of one another. Mobile water treatment system (1) according to one of the preceding claims, wherein the modules (8) are designed in such a way that they can be controlled and / or activated independently of one another. Mobile water treatment system (1) according to one of the preceding claims, wherein the modules (8) are designed to carry out a physical and / or chemical and / or biological cleaning stage. Mobile water treatment system (1) according to one of the preceding claims, wherein the analysis unit (2) is designed to transmit the content of dissolved substances and / or solid particles in the body of water to the data processing unit (5). Mobile water treatment system (1) according to one of the preceding claims, wherein the data processing unit (5) is designed to determine which modules (8) must be activated for cleaning based on the content of dissolved substances and / or solid particles in the body of water. Mobile water treatment system (1) according to Claim 1 , wherein the cleaning unit (6) is designed to separate dissolved substances and / or solid particles from the body of water. Mobile water treatment system (1) according to one of the preceding claims, wherein the energy supply unit (7) has an autarkic mode of operation.

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