DE29719291U1 - Liquid separation system - Google Patents

Description

Liquid separation system

'1

The invention relates to the field of environmental technology. However, it is also used in chemistry, physics and agriculture, where the liquid must be separated according to time and quantity after dosing. A particular area of application is, for example, rainwater use, where initially heavily polluted water accumulates on the roof of a house, which then becomes cleaner over time.

To date, filters and controls with valves have been used to separate liquids. The components have to be cleaned or replaced at regular intervals, which means work and costs. The basic purchase of filters, controls and valves (and possibly sensors) is relatively expensive and therefore puts some users off. In addition, electrical energy is required when using a control system.

The invention is based on the task of separating liquids that are initially heavily contaminated and then less heavily or no longer contaminated at all. The timing of the flow is important and the technical solution can be regulated directly or indirectly.

If these conditions are observed, liquids can be cleaned in such a way that existing solutions are far surpassed in terms of cost-effectiveness and effort. No components requiring maintenance and no additional energy (voltage/current) is required!

The new cleaning of liquids consists of a corresponding arrangement of a branch or several branches, which are integrated into a pipeline or system with a gradient in such a way that starting from the inlet, the clean liquid flows through one branch opening and the contaminated liquid flows through the other branch opening. A necessary time delay in the transport of the liquid and its decreasing degree of contamination play a role here. This is achieved by a resulting backflow in the system and an additional assembly with a float.

The inventive cleaning of liquids differs from other solutions primarily in that no additional energy is required. The existing disadvantages such as maintenance, necessary energy consumption and the relatively high costs of known solutions are eliminated or greatly minimized with this new separation and cleaning method.

The invention shown in Figure 1 works as follows. The liquid to be cleaned - medium - reaches a container 3 with a floating body 4 via any pipe system 1 with a gradient and a branch 2. The container has an outlet opening 5 in the lower area. The top of the container is open. The floating body is forced to move up and down as it slides in the container. If the liquid to be cleaned reaches the pipe system with a gradient, it flows into the container. As the drain 5/6 on the underside of the container is adjustable, the initially heavily soiled liquid can flow away in a controlled manner. If the inflow increases, the liquid level in the container rises and the pipe system is closed by the buoyancy of the float. The liquid level now builds up in the pipe system, resulting in backflow in the opposite direction to the original flow. The backed-up clean liquid now reaches a container, for example, via the branch and its other opening and/or for further use. If the inflow decreases or no longer occurs, the remaining liquid flows out of the container via the drain with a float. Since the flow rate and time can be regulated, the system can constantly react to fluctuations. If an inflow occurs again at the right time, the first contaminated liquid flows out, backflow occurs again and the process repeats itself as described.

The invention can be used, for example, for rainwater harvesting, but also for other technical purposes in chemistry, biotechnology, agriculture, etc.

Claims (1)

.&Ggr; I ·«■ ····· ti Slot claims '■■!■' Claim 1: The system for separating liquids is characterized in that a deliberate backflow occurs via a container 3 with a float 4. Claim 2: The system for separating liquids is characterized in that the flow periods can be adjusted via: a branch 2, or several branches, adjustable on the container 3 via the outlet 5/6. Claim 3: The system for separating liquids is characterized in that the backflow occurs via a supply line that has a gradient with the branch and thus the separated and cleaned liquid can flow via branch 2. Claim 4: The system for separating liquids is characterized in that several separations of liquids are possible via several branches 2.