KR200361788Y1 - The anoxic tank training wall for sewage disposal plants - Google Patents

Abstract

The present invention provides an aerobic tank more efficiently by removing the catchment area generated in an anaerobic tank by installing an irregular flow wall formed with a mixer and a water hole in a catchment area where sludge generated due to the installation of the wall in the anoxic tank is settled. Its purpose is to provide anoxic tank walls for sewage treatment plants.

An oxygen-free tank for the sewage treatment plant according to the present invention for achieving the above object is an oxygen-free tank made of a rectangular parallelepiped and the vertical wall and the horizontal wall of the rectangular plate body as a whole; A conducting wall in which a plurality of zigzag pieces are installed in a zigzag shape over one side wall and the other side wall at a predetermined interval in the anaerobic tank; In the anoxic tank for an sewage treatment plant consisting of an opening formed so that the treated water flows in a constant space between the lateral wall of the anoxic tank and the circumferential wall by a zigzag-conducting wall in the anoxic tank, the aqueous wall connected with the lateral wall of the anoxic tank is various. A plurality of water holes having a shape and a predetermined size are formed in the perforations, so that the treated water stagnated in the catching area through the water holes is configured to flow smoothly.

Description

Anoxic tank training wall for sewage disposal plants

The present invention relates to an oxygen-free tank flow wall for sewage treatment plant, in particular, in an anaerobic tank by installing an irregular flow wall formed with a mixer, a water hole and a corner material in a catchment area where sludge generated due to the installation of the wall in the oxygen tank is settled. The present invention relates to an anaerobic tank flow barrier for sewage treatment plant which not only increases the residence time of water but also improves the treatment efficiency.

In general, an anoxic tank for sewage treatment plants is one of processes for biologically treating nitrogen and phosphorus present in sewage, and is generally manufactured and used in a rectangular parallelepiped shape.

Here, in the anoxic tank, pathogenic microorganisms are detected when the disinfection capacity is insufficient in the sewage treatment plant, and in order to prevent the detection of the virus by increasing the retention time of the disinfectant in the anoxic tank, the water treatment wall is installed to prevent the detection of the virus. The flow of water flows in a spiral shape.

However, as described above, the flow rate of the treated water passing through the aqueous wall in the anoxic tank (v = 0.02m / sec) is very small, so that a water catchment zone where water is stagnant is generated at the site where each of the dike walls is installed. The shooter area that is not generated occupies up to 30% of the total anaerobic tank volume and creates anaerobic conditions due to the presence of various sludges locally, thus reducing the activity of denitrifying microorganisms and consequently affecting the efficiency of the entire denitrification process. There is a problem affecting.

Accordingly, the present invention was devised to solve the problems described above, and the irregularity flow wall formed with the mixer or water hole and the corner material in the catchment area where sludge, etc., caused by the installation of the flow wall in the anoxic tank settled and stagnated. The purpose of the present invention is to provide an anaerobic tank ditch wall for sewage treatment plant to remove the catchment area generated in the anaerobic tank so that the anoxic tank can be used more efficiently.

1 is a perspective view showing an anaerobic tank ditch wall for a sewage treatment plant according to the present invention,

Figure 2 is a plan view showing an anaerobic tank ditch wall for sewage treatment plants according to the present invention,

Figure 3 is a side view showing an anaerobic tank ditch wall for sewage treatment plant according to the present invention,

Figure 4 is an enlarged perspective view showing a water hole in the anaerobic tank ditch wall for sewage treatment plants according to the present invention,

5a to 5d is an exemplary view showing a variety of water holes in the anoxic tank ditch wall for sewage treatment plant according to the present invention,

Figure 6 is a plan view showing a first embodiment of the anaerobic tank ditch wall for sewage treatment plants according to the present invention,

Figure 7 is a plan view showing a second embodiment of the anaerobic tank ditch wall for sewage treatment plants according to the present invention.

Explanation of symbols on the main parts of the drawing

10: anoxic tank 12: vertical wall

14: side wall 16: height

20: ditch wall 22: water hole

24: entrance 26: exit

28: Euro 30: opening

40: mixer 50: corner material

S: Shooting Area

An oxygen-free tank for the sewage treatment plant according to the present invention for achieving the above object is an oxygen-free tank made of a rectangular parallelepiped and the vertical wall and the horizontal wall of the rectangular plate body as a whole; A conducting wall in which a plurality of zigzag pieces are installed in a zigzag shape over one side wall and the other side wall at a predetermined interval in the anaerobic tank; In the anoxic tank for an sewage treatment plant consisting of an opening formed so that the treated water flows in a constant space between the lateral wall of the anoxic tank and the circumferential wall by a zigzag-conducting wall in the anoxic tank, the aqueous wall connected with the lateral wall of the anoxic tank is various. A plurality of water holes having a shape and a predetermined size are formed in the perforations, so that the treated water stagnated in the catching area through the water holes is configured to flow smoothly.

Hereinafter, with reference to the accompanying drawings of the present invention will be described in detail.

1 is a perspective view showing an anaerobic tank ditch wall for sewage treatment plant according to the present invention, Figure 2 is a plan view showing an anaerobic tank ditch wall for sewage treatment plant according to the present invention, Figure 3 is an anoxic tank for sewage treatment plant according to the present invention Figure 4 is a side view showing the wall, Figure 4 is an enlarged perspective view showing a water hole of the anoxic tank drip wall for sewage treatment plant according to the present invention, Figures 5a to 5d are various water holes of the anoxic tank ditch wall for sewage treatment plant according to the present invention 6 is a plan view showing a first embodiment of the anaerobic tank ditch wall for sewage treatment plant according to the present invention, Figure 7 is a second embodiment of the anoxic tank ditch wall for sewage treatment plant according to the present invention One floor plan.

As shown in these drawings, the anoxic tank ditch wall for sewage treatment plant according to the present invention is an oxygen-free tank (10) formed of a rectangular parallelepiped and vertical wall 12 and the transverse wall 14 of the rectangular plate body as a whole; A conduit wall 20 in which a plurality of zigzag pieces are installed in one side wall 14 and the other side wall 14 at regular intervals in the anaerobic tank 10; Sewage treatment plant consisting of an opening 30 formed so that the treated water flows into a constant space between the transverse wall 14 and the condensation wall 20 of the anaerobic tank 10 by the convex wall 20 zigzag in the oxygen-free tank 10. In the anaerobic tank drip wall,

A plurality of water holes 22 having various shapes and predetermined sizes are formed in the convex wall 20 connected to the horizontal wall 14 of the anoxic tank 10, and through the water hole 22, a catching area ( Characterized in the technical spirit of the present invention is configured to flow smoothly the treated water stagnated in S).

Anoxic tank ditch wall for sewage treatment plant according to the present invention made of the configuration as described above is sprayed to the anaerobic tank (10) of the sewage treatment plant by allowing the treated water stagnated in the catchment area (S) to flow smoothly through the water hole (22). By providing more opportunities for contact with chemicals such as disinfectants and water molecules, there is an effect of increasing the sewage treatment effect of the treated water.

In other words, the anaerobic tank drip wall for the sewage treatment plant according to the present invention is largely an organic oxygen tank 10, the ditch wall 20 and the water through hole 22 is organically coupled.

Here, the oxygen-free tank 10 is made of a rectangular parallelepiped concrete material, the oxygen-free tank 10 is 50 to 75 ㎝ vertical wall 12 and; A horizontal wall 14 of 150 to 250 cm; It consists of the height 16 of 30-50 cm, and the conduction wall 20 is provided in the inner side wall 14 by 40-80 cm space | interval.

In particular, the conductive wall 20 has an area of 91% to 94% of the conductive wall 20 and 6 to 9% of the opening 30 based on 100% of the entire cross-sectional area of the vertical wall 12 of the oxygen-free tank 10. It consists of proportions.

In addition, it is preferable to make the area of the water passage 22 10% based on the total cross-sectional area of the opening 30 as 100%.

Here, the through hole 22 is formed in the cross-sectional shape of the left inlet 24 is wide inlet 24, the outlet 26 is a narrow left light narrow side, the inlet 24 side in the through hole 22 And a flow path 28 is formed in a predetermined cross-sectional shape over the outlet 26 and the outlet 26 side, and is configured to smoothly flow the treated water along the flow path 28.

In particular, the water hole 22 is formed in the corners of the drip wall 20 in which the catchment area S is formed in various shapes and predetermined diameters, so that the treated water flows smoothly through the water hole 22. It is composed.

That is, the water hole 22 as described above has the effect of allowing the treated water to be mixed with each other at the shortest distance so that the water and the sprayed chemicals are quickly mixed to increase the use effect of the chemicals.

Hereinafter, the present invention will be described in more detail with reference to various embodiments.

Example 1

Figure 6 is a plan view showing a first embodiment of the anaerobic tank ditch wall for sewage treatment plants according to the present invention.

As shown in this figure, the anoxic tank ditch wall for sewage treatment plant according to the present invention is an oxygen-free tank (10) made of a rectangular parallelepiped and vertical wall 12 and the transverse wall 14 of the rectangular plate body as a whole; A conduit wall 20 in which a plurality of zigzag pieces are installed in one side wall 14 and the other side wall 14 at regular intervals in the anaerobic tank 10; In the oxygen-free tank for the sewage treatment plant consisting of an opening 30 formed in the oxygen-free tank (10) zigzag in the constant space between the oxygen-free tank (10) and the flow wall 20 to flow the treated water. In

A plurality of mixers 40 are installed at predetermined positions between the convex walls 20 so that the treated water stagnated in the catching area S in the oxygen-free tank 10 by the mixer 40 is forcibly flowed. It is characterized in that it is configured to.

That is, the first embodiment as described above is a case corresponding to a general drip wall, the catchment area S is formed by the drip wall 20, and the stagnant water is stagnated between the anaerobic tank 10 and the drip wall 20. The mixer 40 is installed at the position of, so that the treated water stagnated in the catcher area S by the mixer 40 is forced to change the flow.

In addition, there is an effect of increasing the sewage treatment effect of the treated water by providing more opportunities for the water molecules to come into contact with drugs such as disinfectants sprayed to the anaerobic tank 10 of the sewage treatment plant by the mixer 40. .

Example 2

Figure 7 is a plan view showing a second embodiment of the anaerobic tank ditch wall for sewage treatment plants according to the present invention.

As shown in this figure, the anoxic tank ditch wall for sewage treatment plant according to the present invention is an oxygen-free tank (10) made of a rectangular parallelepiped and vertical wall 12 and the transverse wall 14 of the rectangular plate body as a whole; A conduit wall 20 in which a plurality of zigzag pieces are installed in one side wall 14 and the other side wall 14 at regular intervals in the anaerobic tank 10; In the oxygen-free tank for the sewage treatment plant consisting of an opening 30 formed in the oxygen-free tank (10) zigzag in the constant space between the oxygen-free tank (10) and the flow wall 20 to flow the treated water. In

Corner material 50 having a predetermined curvature is integrally formed on one side or both sides of the flow wall 20 at a corner where the oxygen-free tank 10 and the flow wall 20 are formed to meet at right angles. It is characterized in that it is configured to prevent the occurrence of.

That is, the second embodiment as described above is a structure in which the corner material 50 is integrally formed on one side or the other side of the general waveguide wall, and the shooter zone S generated by the installation of the waveguide wall 20 in the oxygen-free tank 10. By preventing the formation of) at the source, there is also a local anaerobic area disappears, there is an effect that the odor generated in the anaerobic tank 10 is also significantly reduced.

In addition, as described above, by forming the corner member 50 on the drip wall 20, even if the available volume in the oxygen-free tank 10 is slightly reduced, the water molecules and chemicals such as disinfectant sprayed in the oxygen-free tank 10 is in contact with each other. Not only increases the sewage treatment effect of the treated water by providing more opportunities, but also shortens the manufacturing and installation process such as forming a water hole 22 in the dike wall 20 or installing a mixer 40. It has a working effect.

As described above, the anaerobic tank ditch wall for sewage treatment plants according to the present invention has the following effects.

First, the anaerobic tank ditch wall for sewage treatment plant according to the present invention has the advantage that the efficiency of the anaerobic tank is improved by eliminating the catchment area.

Second, the anaerobic tank ditch wall for sewage treatment plants according to the present invention has an advantage that the size of the anaerobic tank can be reduced as the available volume of the anaerobic tank increases.

Third, the anaerobic tank ditch wall for sewage treatment plant according to the present invention has the advantage of significantly reducing the amount of odor generated in the anaerobic tank by disappearing the catchment area and also the local anaerobic zone.

Fourth, the anoxic tank ditch wall for sewage treatment plants according to the present invention has an advantage of smoothly transporting the treated water to the next place in a state in which the sludge is completely removed.

Fifth, the anoxic tank ditch wall for sewage treatment plant according to the present invention has the advantage that can be widely applied to the aeration tank or chlorine contact tank as well as the anoxic tank described in the present invention.

Claims (6)

An oxygen-free tank 10 having a vertical wall 12 and a horizontal wall 14 of the rectangular plate body coupled to form a rectangular parallelepiped as a whole; A conduit wall 20 in which a plurality of zigzag pieces are installed in one side wall 14 and the other side wall 14 at regular intervals in the anaerobic tank 10; Sewage treatment plant consisting of an opening 30 formed so that the treated water flows into a constant space between the transverse wall 14 and the condensation wall 20 of the anaerobic tank 10 by the convex wall 20 zigzag in the oxygen-free tank 10. In the anaerobic tank drip wall, A plurality of water holes 22 having various shapes and predetermined sizes are formed in the convex wall 20 connected to the horizontal wall 14 of the anoxic tank 10, and through the water hole 22, a catching area ( An anaerobic tank ditch wall for sewage treatment plant, characterized in that it is configured to flow smoothly the treated water stagnated in S). The method of claim 1, The flow path wall 20 is composed of a ratio of the area of the conductive wall 20 is 91% to 94% and the opening 30 is 6 to 9% with respect to the cross-sectional area of the vertical wall 12 of the oxygen-free tank (10). An anaerobic tank flow wall for sewage treatment plant. The method of claim 2, Anoxic tank drip wall for sewage treatment plant, characterized in that the area of the water hole 22 with respect to the area of the opening 30 is composed of a ratio of 10%. The method according to claim 1 or 3, The through-hole 22 is formed in a cross-sectional shape of a narrow left light narrow side of the inlet 24 side in which the treated water flows in, and the outlet 26 side outflow, and is predetermined over the inlet 24 side and the outlet 26 side. The flow path 28 is formed in the cross-sectional shape of the, anoxic tank drip wall for sewage treatment plant, characterized in that configured to flow smoothly along the flow path (28). An oxygen-free tank 10 having a vertical wall 12 and a horizontal wall 14 of the rectangular plate body coupled to form a rectangular parallelepiped as a whole; A conduit wall 20 in which a plurality of zigzag pieces are installed in one side wall 14 and the other side wall 14 at regular intervals in the anaerobic tank 10; Sewage treatment plant consisting of an opening 30 formed so that the treated water flows into a constant space between the transverse wall 14 and the condensation wall 20 of the anaerobic tank 10 by the convex wall 20 zigzag in the oxygen-free tank 10. In the anaerobic tank drip wall, A plurality of mixers 40 are installed at predetermined positions between the convex walls 20 so that the treated water stagnated in the catchment area S in the anaerobic tank 10 by the mixer 40 is forced to flow. An anaerobic tank flow wall for sewage treatment plant, characterized in that. An oxygen-free tank 10 having a vertical wall 12 and a horizontal wall 14 of the rectangular plate body coupled to form a rectangular parallelepiped as a whole; A conduit wall 20 in which a plurality of zigzag pieces are installed in one side wall 14 and the other side wall 14 at regular intervals in the anaerobic tank 10; Sewage treatment plant consisting of an opening 30 formed so that the treated water flows into a constant space between the transverse wall 14 and the condensation wall 20 of the anaerobic tank 10 by the convex wall 20 zigzag in the oxygen-free tank 10. In the anaerobic tank drip wall, Corner material 50 having a predetermined curvature is integrally formed on one side or both sides of the flow wall 20 at a corner where the oxygen-free tank 10 and the flow wall 20 are formed to meet at right angles. An oxygen-free tank for the sewage treatment plant, characterized in that configured to prevent the occurrence of.