DE29912194U1 - Lamellar filter - Google Patents

Description

■; · ' ■ : - Leiblein S.

Lamellar filters for inclined sewage treatment plants

The invention relates to a lamella filter for ■ inclined sewage treatment plants with individual lamella segments which are assembled into packages and arranged in a housing under a slope, whereby the waste water to be treated is fed into the lower area of the housing and guided upwards via the lamella package and in this way the suspended matter sinks onto the inclined lamellae and then slides into a sludge container provided below the housing, so that the purified water can be drained into the upper area of the housing and the sludge can be drained from the sludge container.

Due to rising costs for fresh and waste water, the problem of water treatment is becoming increasingly important. For example, the porcelain, ceramics and glass industries require considerable quantities of water to clean washing water, remove mass residues and separate solids from cooling and grinding water. Inclined sewage treatment plants enable water to be recycled or used multiple times, so that costs can be reduced considerably.

In foundry and concrete works, inclined clarifier systems can be used, for example, for the recovery of fine sand; in fruit and vegetable processing, for example, for removing suspended matter from wastewater; or for the remediation of contaminated sites, for example, for cleaning contaminated soil, for regenerating overturned bodies of water, and the like.

The inclined sewage treatment plants used to date used lamella filters that were manufactured by gluing or riveting trapezoidal profile plates together to form packages called honeycomb blocks. This was a complex manufacturing process and did not allow such a filter package to be reused, e.g. in another inclined sewage treatment plant with different dimensions.

The object of the invention is to design plate filters in such a way that they are easy to manufacture and can be easily assembled into any package without generating waste or requiring environmentally harmful adhesives.

According to the invention, the object is achieved in that the slat segments consist of individual modules which have honeycomb tubes and have tongue and groove connecting strips on their outer longitudinal areas, via which slat packs are formed by pushing the modules into one another. By pushing these modules into one another, slat packs of any cross-section can be produced which are stable in themselves and can have any length.

Leiblein S.

The packages formed in this way can be arranged in a housing at any angle so that the wastewater is optimally treated.

In an advantageous embodiment of the invention, the honeycomb tubes have a hexagonal cross-section, which allows a stable connection of the individual lamella segments and an optimally used cross-section of the packages.

According to the invention, the honeycomb tubes can be easily connected by having grooves on one side and tongues on the opposite side. A further advantage is that the modules have several, preferably three, honeycomb tubes.

A further embodiment of the invention is characterized in that the modules are produced continuously using an extruder process and are preferably made of talc-reinforced polypropylene or polyethylene. The modules can thus be produced continuously, so that they only need to be cut to length without producing waste. The materials used are characterized by a high level of chemical resistance and allow cleaning with hot water up to approx. 80 ⁰ C. If the system is expanded, modified or shut down, the filter blocks can be returned for reuse thanks to the easy dismantling. Later disposal is not a problem for plastics recyclers, given that polypropylene is relatively environmentally friendly and free of adhesives and foreign materials.

An embodiment of the invention is shown schematically in the drawings. It shows:

Figure 1 a partial longitudinal section through a sloped sewage treatment plant Figure 2 a cross section through a lamella segment Figure 3 lamella segments assembled into a package

The inclined sewage treatment plant (1) has an inlet (2) for the waste water to be treated and an outlet (3) for the purified water. In the lower part of the inclined sewage treatment plant (1) there is a sludge tank (4) which also has an outlet (5) for draining the sludge.

Inside the inclined sewage treatment plant (1), a package of lamella segments (7) is arranged in a housing (6), which rests on a support (8). The wastewater to be treated rises through the lamella package (7), whereby the suspended matter sinks onto the inclined lamellae. The purified water can then flow out via the drain (3), and the suspended matter slides down into the sludge container (4).

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The oblique arrangement of the lamella segments (7) - at an angle of approx. 60° - promotes the sliding of suspended matter.

Figure 2 shows a module (9) of a lamella segment (7) which, in the embodiment shown, has three honeycomb tubes (10). Each module (9) has groove connections (11) or tongue connection strips (12) on its outer longitudinal area. By pushing modules arranged next to one another into one another via the groove or tongue connection strips (11, 12), a lamella package (13) of any size can be formed in a simple manner (Figure 3).

In the embodiment according to Figure 3, the lamella pack (13) consists of a total of six modules, which are connected by sliding into one another via the tongue and groove connecting elements (11, 12).

Claims (5)

1. Lamellar filter for inclined sewage treatment plants with individual lamella segments which are assembled into packages and arranged in a housing under a slope, whereby the waste water to be treated is fed into the lower area of the housing and guided upwards via the lamella package and in this way the suspended matter sinks onto the inclined lamellae and then slides into a sludge container provided under the housing, such that the purified water can be drained off in the upper area of the housing and the sludge can be drained off from the sludge container, characterized in that the lamella segments ( 7 ) consist of individual modules ( 9 ) which have honeycomb tubes ( 10 ) and have tongue and groove connecting strips ( 11 , 12 ) on their outer longitudinal areas, via which lamella packages ( 13 ) are formed by pushing the modules ( 9 ) into one another. 2. Lamellar filter according to claim 1, characterized in that the honeycomb tubes ( 10 ) have a hexagonal cross-section. 3. Lamellar filter according to claim 1 or 2, characterized in that the honeycomb tubes ( 10 ) have grooves on one side and springs on the opposite side. 4. Lamellar filter according to claim 1, characterized in that the modules ( 9 ) have several, preferably three, honeycomb tubes ( 10 ). 5. Lamellar filter according to claim 1 or 4, characterized in that the modules ( 9 ) are produced continuously using an extruder process and preferably consist of talc-reinforced polypropylene or polyethylene.