KR200289918Y1 - Path structure of dirty and waste water treatment device - Google Patents

Abstract

The present invention relates to a flow path structure of a wastewater treatment device, and its purpose is to expand a specific surface area and to facilitate manufacturing, by stacking a plurality of flow path members having a flow path portion on a plate to seal the flow path of the wastewater treatment device. In providing a structure. It forms at least one flow path portion on the plate, the flow path portion is formed on the upper and lower flow path surface, and the flow path member formed in the longitudinal direction through the flow passage penetrating up and down on the opposite side of the flow opening A plurality of zigzag layers are stacked to form a closed flow path continuously.

Description

PATH STRUCTURE OF DIRTY AND WASTE WATER TREATMENT DEVICE}

The present invention relates to a flow path structure of a wastewater treatment apparatus. More specifically, a plurality of flow path members having upper and lower flow path surfaces communicated by a distribution port are stacked in a zigzag manner so that the distribution port is located on the opposite surface. The present invention relates to a flow path structure of a wastewater and wastewater treatment apparatus that not only facilitates manufacturing but also expands a specific surface area by forming a flow path.

In general, biological treatments for removing organic contaminants present in sewage and wastewater using microorganisms include activated sludge and biofilm treatment.

In the biofilm treatment method, microorganisms are adhered to a fixed or fluidized medium by using microbial adhesion growth, and as a result of the growth of cells, a biofilm of mucus is formed on the surface of the medium, and the biofilm is contaminated. Purification by contacting with water includes a water spray filtering method, a rotating disk method, a catalytic oxidation method, and the like.

Among them, the present invention corresponds to a catalytic oxidation method, and various forms of the related art are known, but the most recent technology can be found in the applicant's prior patent application 2002-2990.

1 is a view showing an example of a conventional wastewater treatment apparatus.

As shown in FIG. 1, the first media is formed by bending the flat plate 1a in a zigzag manner, stacking a plurality of the flat plate 1a, and forming a flow path 1b through which wastewater and waste water pass between the flat plate 1a and the flat plate 1a in the direction of gravity. Located between the first and second filter parts (2) and the first filter part (1) and the second filter part (2), giving up in the first direction toward the first filter part (1) It consists of part (3).

Among them, the first filter portion 1 and the second filter portion 2 have the same structure, and as shown in FIG. 2, the flat plate 1a is bent in a zigzag manner, and both ends of the flat plate 1a in the longitudinal direction are formed. The blocking member 1c is formed, and on the flow path 1b, a plurality of gap holding members 1d for preventing the blocking of the flow path 1b are provided.

The sewage and wastewater treatment device configured as described above is a sewage and wastewater treatment device passing through the first filter part 1 or the second filter part 2, while being a fixed phase, by bending the filter material of the flat plate 1a in a zigzag to expand the specific surface area. By doing so, there is no blockage of the flow path and driving is easy, and no backwashing is necessary.

In addition, the aeration part 3 is formed in the center of the first and second filter parts 1 and 2 to prolong the underwater residence time of air on the plurality of flow paths 1b formed in the upper first filter part 1. By doing so, the oxygen utilization rate becomes high, and the second filter part 2 sequentially causes nitriding and denitrification to remove nitrogen as well as organic matter in the wastewater.

However, there is a manufacturing problem in manufacturing the respective flat plates 1a constituting the first and second filter portions 1 and 2 described above.

That is, in order to mold the flat plate 1a of the thin plate bent by zigzag into an injection mold or the like, the mold must be enlarged. In addition, in order to avoid the enlargement of the mold, the mold is injected and then bonded to the zigzag flow path. (1b) the surface should be formed at this time, the manufacturing is complicated, there is a problem that the manufacturing cost is also increased.

The present invention has been made to solve such a conventional problem, and its purpose is to expand the specific surface area and to facilitate the manufacture of the flow path structure of a sealed wastewater treatment apparatus by stacking a plurality of flow path members having a flow path part on a flat plate. In providing.

1 is a perspective view showing a wastewater treatment apparatus according to the prior art.

Figure 2 is a perspective view showing a flat plate of the wastewater treatment apparatus according to the prior art.

Figure 3 is a front view showing the waste water treatment apparatus according to the present invention.

Figure 4 is a perspective view showing a flow path member of the waste water treatment apparatus according to the present invention.

Figure 5 is a plan view showing a flow path member of the waste water treatment apparatus according to the present invention.

Figure 6 is a perspective view showing a state in which the flow path member is laminated according to the present invention.

7 is a cross-sectional view taken along the line AA of FIG.

Figure 8 is a cross-sectional view showing that the flow path of the waste water treatment apparatus according to the present invention in a horizontal state.

(Explanation of symbols for the main parts of the drawing)

10: flow path member 11, 12: upper and lower flow path surface

13: outlet 14: bulkhead

15: connecting piece 16: coupling hole

17: Bolt 18: O-Ring Groove

A: Euro section a: Euro home

The present invention for achieving the above object is to form at least one flow path portion on the plate, the flow path member is formed in the upper and lower flow path surface on the upper and lower sides and the flow passage member formed in the longitudinal direction through the flow passage By stacking a plurality of zigzag so that the distribution port is located on the opposite side to form a continuous closed passage.

In addition, the upper and lower flow path surfaces are formed with a plurality of flow path grooves according to the flow direction of the waste water.

In addition, the upper and lower flow path surface is inclined toward the distribution port.

In addition, the upper and lower flow path surface is horizontal toward the outlet.

In addition, by installing a plurality of connecting pieces for connecting the width direction of the distribution port to prevent the distortion of the flow path portion.

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

3 is a view showing a waste water treatment apparatus of the present invention.

As illustrated, the wastewater treatment apparatus 100 stacks a plurality of flow passage members 10 formed by using a plastic mold to flow the wastewater into the flow path portion A formed at least one therein.

The flow path member 10 forms at least one flow path portion A on a plate, and the flow path portion A has upper and lower flow path surfaces 11 and 12 formed on the upper and lower sides thereof, as well as in the longitudinal direction. The distribution port 13 which penetrated up and down is formed in the inside.

As a preferred embodiment of the present invention, as shown in Figures 4 and 5, the flow path portion (A) consists of four parts, and the flow path portion (A) is partitioned into partitions (14).

In addition, the upper and lower flow path surfaces 11 and 12 are provided with a plurality of flow path grooves a according to the flow direction of the waste water.

That is, in view of the flow path groove (a), the ridges are continuously formed to enlarge the specific surface area, increase the turbulence coefficient, and increase the oxygen retention time due to the long oxygen residence time.

In addition, the subject innovation is to allow the upper and lower flow path surfaces 11 and 12 to be inclined toward the distribution port 13 so as to smoothly move the waste water.

On the other hand, Figure 8 shows that the upper and lower flow path surface 11, 12 is made to be in a horizontal state, the waste water flows even in the horizontal state by the pressure difference of the waste water and air supplied from the diffuser You can do it.

In addition, not only forming the flow path member 10 into a plastic mold but also providing a plurality of connecting pieces 15 connecting the width direction of the flow port 13 to prevent the flow path A from twisting during the assembling process. desirable.

When the plurality of flow path members 10 are stacked in a zigzag manner so that the distribution ports 13 are located on opposite sides, the closed flow paths can be continuously formed.

Reference numeral 16 denotes a coupling hole for coupling the flow path member 10, 17 denotes a bolt fastened to these coupling holes 16, and reference numeral 18 denotes between the flow path member 10 and the flow path member 10. O-ring groove is inserted to prevent the leakage of water.

Referring to the operation according to the present invention in detail as follows.

Although the wastewater treatment apparatus of the present invention is not shown in the drawing, an acid pipe providing oxygen is installed at the inflow side of the wastewater, and the inflow and outflow side water tanks are formed in which the wastewater is stored. As the wastewater flows into the outflow tank at the outlet, oxygen is given up inside the wastewater by the air supplied from the diffuser.

In the above, the inflow of wastewater is an example flowed in from the upper side, but may be installed on the lower side.

The wastewater introduced from the inflow side tank flows along the distribution port 13 and the upper and lower flow path surfaces 11 and 12 of the flow path portion A, and is separated by the microorganisms attached to the flow path groove a. In addition, the residence time is extended while being zigzag to remove the organic matter contained in the waste water.

This is formed by stacking a plurality of flow path members 10 having the flow ports 13 on the opposite side, so that a single flow path is formed, and the waste, upper and lower flow path surfaces 11 and 12 supplied from the inflow side tank are formed. Smooth inflow by the slope of the.

In the above, the waste water flows up and down is possible by the inclination of the inlet and outlet tanks, and also by the head difference or the pressure of the air supplied from the diffuser.

In addition, a plurality of the waste water treatment apparatus 100 may be installed, and a waste part (not shown) may be disposed at the center to configure various waste water treatment systems.

As described in detail above, the flow path member of the wastewater treatment apparatus of the present invention can be molded into a plastic mold and thus can be mass-produced to improve productivity, and to improve the manufacturability by stacking a plurality of the same flow path members.

In addition, the flow path grooves are formed on the upper and lower flow paths of the flow path, and the upper and lower flow paths are inclined to increase the specific surface area and to extend the underwater residence time of the air. Can also be removed.

Claims (5)

At least one flow path portion (A) is formed on the plate, and the flow path portion (A) is provided with upper and lower flow path surfaces (11, 12) on the upper and lower sides, and a distribution hole penetrated vertically in the longitudinal direction. A flow path structure of the wastewater treatment apparatus, characterized in that a plurality of flow path members (10) having the (13) formed are stacked in a zigzag manner so that the flow port (13) is located on the opposite side, and a closed flow path is formed continuously. 2. The flow path structure of a wastewater treatment apparatus according to claim 1, wherein a plurality of flow path grooves (a) are formed in the upper and lower flow path surfaces (11, 12) according to the flow direction of the wastewater. The flow path structure of the wastewater treatment apparatus according to claim 1 or 2, wherein the upper and lower flow path surfaces (11, 12) are inclined toward the distribution port (13). The flow path structure of the wastewater treatment apparatus according to claim 1 or 2, wherein the upper and lower flow path surfaces (11, 12) are horizontally directed toward the distribution port (13). The wastewater treatment according to claim 1 or 2, wherein a plurality of connecting pieces 15 for connecting the width direction of the distribution port 13 are installed to prevent twisting of the flow path part A. Flow structure of the device.