KR20050062822A - Unit for treating waste water - Google Patents

Abstract

The present invention is to provide a pipeline-type water treatment unit to install a microbial membrane so that the river water flows smoothly inside the pipeline to increase the chance of contact, thereby significantly improving the purification capacity for the river water flowing into the pipeline.

The pipe-type water treatment unit of the present invention has a diameter size enough to flow the river water therein and a microbial membrane which is integrally attached to the inner surface of the pipe line 10 and the pipe line 10 formed long as a required length ( 20).

Description

Unit type for treating waste water

The present invention relates to a pipeline-type water treatment unit having a purification means built in a pipeline through which river water flows, so that the stream water flowing into the pipeline can be purified more quickly and efficiently.

As the population grows and the industry develops, the discharge of domestic wastewater, industrial wastewater, and leachate, etc. increases, and the amount of such sewage flows into public waters such as rivers, which is increasing the water pollution of river water. .

In the past, various sewage treatment devices have been developed to purify the water quality of the river water to a certain level. Recently, biological methods for removing various organic pollutants contained in the sewage using microorganisms have been widely utilized. have.

The sewage treatment apparatus used in the biological method is equipped with a multi-stage reactor equipped with media that create a good environment for various microorganisms therein, and has a technical configuration to make living sewage pass through the reactors. Through this, various organic pollutants were removed. This sewage treatment apparatus has been accompanied with a problem that a lot of construction cost to install a multi-stage reactor with media embedded.

On the other hand, the present applicant has a patent application No. 58545 dated August 23, 2003 to solve such a problem, there is a fact that the filing of the sewage purification apparatus using the pipe-type water treatment unit and the same. This pipeline type water treatment unit has a structure in which the rope-type media is embedded in the pipeline so that organic pollutants contained in the stream water passing along the pipeline are removed by the microorganisms that are attached to the rope media and are relatively inexpensive. It has the advantage of being able to purify river water easily at cost.

However, in view of the fact that such a pipe-type water treatment unit has a single rope-type media inside the pipeline, there is less opportunity for river water to come into contact with the rope-type media, so that the organic pollutant contained in the stream can be efficiently It is difficult to remove, resulting in a decrease in purification capacity. Of course, attempts can be made to improve the river water purification ability by inserting several rope-type media into the pipeline, but river water is flow-resistant due to the rope-type media embedded in the pipeline. Not only is the throughput reduced, but there is a problem that it is difficult to expect the benefit that the purification ability is greatly improved compared to the number of the rope-type media in which several rope-type media are twisted into one.

The present invention aims to provide a pipeline type water treatment unit that greatly improves the purification ability of the stream water flowing into the pipeline by installing a microbial membrane so that the river water flows smoothly inside the pipeline and has more opportunities for contact. have.

1 to 3, the pipe-type water treatment unit 1 of the present invention has a diameter size such that river water can flow therein and has a pipe length 10 formed as a required length and the pipe line ( It is characterized in that the technical configuration is composed of a microbial membrane 20 which is installed by attaching integrally to the inner surface of 10).

In this embodiment, the conduit 10 is illustrated to be used by being laminated in a cylindrical drum 30 having a predetermined diameter and width as shown in FIG. This drum 30 helps to arrange the conduit 10 having a long length in a relatively small volume.

The pipe forming the conduit 10 may be manufactured in various shapes as needed. FIG. 1 illustrates a smooth pipe 11 in which a pipe wall having a constant flesh thickness extends in a straight line, and FIG. 5 illustrates a corrugated pipe 12 in which a pipe wall having a constant flesh thickness is repeated in a wave form, and in FIG. 6. A double tube 13 is illustrated in which a smooth tube is formed inside and a corrugated tube is formed outside.

Here, as shown in FIGS. 3 and 4, the pipe 10 is connected to the air pump 40 and has a pipe 50 through which holes 51 are drilled at predetermined positions. It is preferable to force the air to be supplied toward the microbial membrane 20 is integrally installed on the inner surface of the). The air supplied to the vent pipe 50 creates an environment in which the aerobic microorganisms can inhabit the microbial membrane 20, and allows the microbial membrane 20 to be washed when necessary.

As shown in FIG. 2, the microbial membrane 20 is installed so as to be integrated by arranging and attaching a band-shaped fiber 21 at regular intervals around the inner circumferential surface of the conduit 10. The microbial membrane 20 is made of a band-like fibers 21 are integrally installed at equal intervals of the inner surface of the conduit 10, so that the river water flows smoothly, the chance of contact can be increased.

FIG. 7 shows a modified example of the present invention, and arranges and attaches a surface fiber 22 having a width that can cover the entire inner circumferential surface of the conduit 10 so as to be integrated. The microbial membrane 20 is composed of the surface fibers 22 integrally installed on the entire inner surface of the conduit 10, which helps to further increase the chance of river water contact.

Such a pipe-type water treatment unit 1 of the present invention is installed so that the microbial membrane 20 is integrally attached to the inner surface of the pipeline 10, so that the river water passing through the interior of the first pipeline 10 is the microbial membrane 20 By smoothly flowing without being obstructed by the, it is possible to purify a larger amount of river water in a short time, and to increase the chance of the river water flowing through the inside of the pipeline 10 to contact the microbial membrane 20 By giving it, the organic pollutant contained in the river water can be efficiently removed to obtain a cleaner treated water.

As described above, the pipeline type water treatment unit of the present invention is installed so that the microbial membrane is integrally attached to the inner surface of the pipeline, so that the river water flows smoothly inside the pipeline, thereby increasing the chance of contact, and thus, within a short time. It is an invention having the effect of making it possible to purify a large amount of river water, and to obtain a cleaner treatment water by efficiently removing the organic pollutants contained in the river water.

1 is a perspective view showing the present invention the pipeline type water treatment unit

Figure 2 is a side cross-sectional view showing the present invention the pipeline type water treatment unit

Figure 3 is a front sectional view showing a pipeline water treatment unit of the present invention

Figure 4 shows the embodiment of the present invention the pipeline type water treatment unit

5 is a perspective view of a corrugated pipe according to an embodiment of the present invention.

Figure 6 is a perspective view of a double pipe in accordance with an embodiment of the present invention

7 is a sectional view showing a pipeline type water treatment unit according to a modification of the present invention.

<Description of the symbols for the main parts of the drawings>

10: pipeline 11: smooth pipe

12: corrugated pipe 13: double pipe

20: microbial membrane 21: strip-shaped fiber

22: cotton fiber 30: drum

40: air pump 50: vent pipe

Claims (4)

It is characterized in that it consists of a conduit (10) having a diameter size enough to flow the river water therein, and a microbial membrane (20) that is integrally attached to the inner surface of the conduit (10). Pipeline water treatment unit. The pipe-type water treatment unit according to claim 1, wherein the microbial membrane (20) is installed so as to be integrated by placing and attaching the strip-shaped fibers (21) at equal intervals around the inner circumferential surface of the pipe (10). The pipe-type water treatment unit according to claim 1, wherein the pipe-type water treatment unit is installed so as to be integrally disposed by attaching and attaching a planar fiber (22) having a width that can cover the entire inner circumferential surface of the pipe (10). The pipe-type water treatment unit according to claim 1, wherein the pipe (10) is connected to an air pump (40) and has a built-in pipe (50) through which holes (51) are drilled at predetermined positions.