KR880001614Y1 - Grids - Google Patents

Abstract

No content.

Description

Biofilm contact material for sewage treatment tank

1 is a schematic perspective view of a filter body assembled using a biofilm contact member and a clip of the present invention.

2 is a front view in which part of the biofilm contact material is omitted.

4 is a perspective view of a clip.

* Explanation of symbols for main parts of the drawings

1: contact material 2: pore

3: Clip 4: Custom Groove

6: projection 7: fitting groove

By increasing the specific surface area and porosity per cross-sectional area of the present invention, it provides an attachment growth environment suitable for aerobic or aerobic microorganisms in wastewater, thereby improving the sewage treatment effect by these microorganisms, and changing the shape of the lattice and lattice. The present invention relates to a biofilter biomembrane for sewage treatment tanks that makes it possible to bridge the differences in purification efficiency resulting from changes in water quality.

In biofilm contact materials, also known as filter media, adsorptive decomposition occurs by a fixed-bed microbial membrane formed by microorganisms in the wastewater adhered to and grow on the surface of the lattice constituting the contact material. It is obtained.

When these microbial membranes are over-proliferated, part of the mucous membranes are separated from the surface of the lattice where they live due to the shear force from the flow of sewage or wastewater passing through them, and other microorganisms attach or multiply in place to form new mucosa. The action is repeated.

Among the mucous membranes of these aquatic microorganisms, the most active metabolism is the part where there is an excess of organic matter near sewage or wastewater. Therefore, in order to increase the adhesion growth efficiency of aquatic microorganisms in the lattice-type biofilm contact material, it is very important to maximize its specific surface area and porosity per cross-sectional area of the lattice.

Conventional lattice type biofilm contact materials are woven with a square and hexagonal shaped material and a curved wave material.

Biofilm contact materials made of regular materials such as squares and hexagons are limited in specific surface area and porosity per cross-sectional area, thereby increasing the microbial adhesion growth rate.

For this reason, even if the purification efficiency is to be increased, the volume of the contact material is inevitably increased. As a result, the area of the septic tank is increased, and there are many uneconomic factors such as additional costs such as facility costs and after-sales management costs.

On the other hand, the corrugated material is recognized to be a step forward in achieving an increase in the growth rate of microorganisms in the water by increasing the specific surface area and the porosity of the corrugated material. Many problems have been revealed. Moreover, it is difficult or impossible to attain a change in the texture so that any conventional biofilm contact material can be actively replaced by the purification efficiency which changes according to, for example, the change of the sewage or the waste water quality.

The present invention can make various changes in the texture of the lattice, and also increase the porosity as much as possible with the specific surface area of the lattice. In order to firmly support the texture, the clip is inserted at the intersection of the longitudinal and horizontal grids, and will be described below in detail with reference to the accompanying drawings.

Figure 1 shows a state of the filter body woven into the biofilm contact member (1) according to an embodiment of the present invention.

As shown in Fig. 2, the contact member 1 is fitted with a fitting groove 4 corresponding to half of its length for each pitch P, and the same fitting groove is also drilled for every P / 2.

One pitch is 35-50mm.

In the contact member 1, numerous pores 2 are arranged in a vertical and horizontal arrangement. These pores 2 have a size of about 2-5 m / m, and as shown in FIG. 3, the microorganism 5 in the water provides a particularly suitable void for the settlement breeding from the edge of the pores 2, and then flourishes. When the pores 2 are blocked, they become smooth and serve as surfaces.

In this way, the pores (2) is not only a bark that contributes to the provision of a suitable living environment in which aquatic microorganisms can live, that is, voids, along with corner portions formed by the horizontal and vertical contact materials 1 intersect with each other ( Considering the weight reduction, cost reduction, and ease of handling, and making it into a synthetic resin, it is also very important to contribute to re-establishment efforts.

The piers θ formed when the contact material 1 is vertically and laterally influenced have a significant influence on the specific surface area and porosity per cross-sectional area, so care must be taken in the selection thereof.

For example, if the specific surface area (section / volume) at 90 ° is 100 °, 110% at 65 °, 120% at 55 °, 130% at 50 °, 140 at 45 ° Will be%.

That is, it can be seen that θ does not change much from 90 ° to 60 °, but relatively large surface area increases from 65 ° to 45 °. But below 45 °, the effect is halved. Therefore, as for the longitudinal-crossing angle (theta) of the contact material 1, 65-45 degrees are preferable.

On the other hand, in order to support the texture of the contact member 1 as originally intended, the clips 3 manufactured at both ends of the places where the longitudinal and transverse contact members 1 intersect, as shown in FIG. Put several places. One side of the clip 3 has a +-or × -shaped fitting groove 7 formed by a pair of projections 6, and the fitting groove 7 has various angles. After woven in a lattice shape on the four sides, and covering the clip (3) of the desired angle to form a filter body having the desired pi (θ).

As described above, according to the present invention, the pier of the filter material, which is vertically and horizontally assembled with the contact material as the breaking material, can be easily fixed by arbitrarily determined by a clip to increase the specific surface area and porosity, and is arranged over the entire surface of the contact material. As many of these square pores are drilled, the porosity increases, which not only contributes to the adhesion life of aquatic microorganisms, but also helps to reduce the material of the contact agent. And so on.

Claims (1)

The half-width custom grooves 2 are formed in the flat contact member 1 made of synthetic resin every P / 2, and the pores 2 as voids are arranged in an orderly manner, and the longitudinal and transverse contact members 1 A biofilm contact material for a sewage treatment tank in which a clip (3) having a fitting groove (7) of an arbitrary angle is inserted at an end of an intersection to maintain a selected pier (θ).