KR101532433B1 - Electrolysis sewage treatment plant and sewage treatment system using thereof - Google Patents

Abstract

It is possible to solve the problem of clogging due to manure masses by providing a crushing device for manure on the outside of the wastewater storage tank and it is possible to apply high pressure to the wastewater and seawater flowing in the inside of the pump by constituting the electrolytic apparatus as a pump type, An electrolytic apparatus and a wastewater treatment system capable of holding wastewater treatment capability are disclosed. In order to achieve the above object, according to a preferred embodiment of the present invention, a wastewater treatment system of the present invention comprises a first tank (10) into which wastewater and seawater are introduced, a crusher Device 20; A first electrolytic apparatus (30) for electrolyzing the crushed sewage in the crushing apparatus (20); And a second tank (40) into which the treated water treated in the first electrolytic apparatus (30) is drawn, wherein the first tank (10) comprises a plurality of levels A sensor L; A head unit H for connecting the level sensor L and the control unit; A wastewater inlet line (W) for introducing wastewater into the inside; A seawater inlet line I into which seawater flows through the first solenoid valve V1; And a gas discharge portion (G) for releasing gas inside, and the second tank (40) includes a plurality of level sensors (L) sensing the level of seawater and treated water; A head unit H for connecting the level sensor L and the control unit; A seawater inlet line (I) for introducing treated water treated in the first electrolytic apparatus (30) and seawater through the third solenoid valve (V3); And a gas releasing part (G) for releasing gas inside.

Description

ELECTROLYSIS SEWAGE TREATMENT PLANT AND SEWAGE TREATMENT SYSTEM USING THEREOF BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to an electrolytic apparatus and a sewage treatment system using the electrolytic apparatus. More particularly, the present invention relates to an electrolytic apparatus and a sewage treatment system using the electrolytic apparatus, The electrolytic apparatus of the pipe type is arranged in an intersecting arrangement to make it possible to make a compact structure and the oxidation electrolytic power at the time of electrolysis of the organic matter contained in the sewage can be increased through the structure employing the double electrolytic apparatus, And a sewage treatment system using the electrolysis apparatus.

In general, the wastewater treatment apparatus using electrolysis depends on the efficiency of electrolysis, and the treatment efficiency of the wastewater is determined according to the arrangement of the + and - electrodes and the shape of the electrolysis apparatus.

In order to improve the treatment efficiency, the present applicant has disclosed an apparatus for treatment of manure by electrolysis through the registered patent 10-0759114. Although the apparatus for crushing manure has been provided inside the manure tank, it has not been placed outside the manure tank And clogging due to the manure mass was generated.

In addition, since it is a wastewater treatment apparatus using electrolysis, various methods for improving the efficiency of electrolysis are sought. Hereinafter, a wastewater treatment system maximizing electrolytic treatment efficiency through the present invention is disclosed.

An object of the present invention is to provide a sewage treatment system capable of solving the problem of clogging due to a manure mass by providing an apparatus for crushing manure outside the sewage storage tank, unlike the conventional sewage treatment system.

Another object of the present invention is to provide an electrolytic apparatus and a wastewater treatment system capable of applying a high pressure to wastewater and seawater flowing in a pump by constituting an electrolytic apparatus as a pump type, .

Still another object of the present invention is to provide an electrolytic device capable of providing the above function and capable of providing a compact structure by cross-arranging a pump type electrolytic device having a positive electrode and a pump type electrolytic device having a negative electrode, Processing system.

Yet another object of the present invention is to provide a wastewater treatment system capable of increasing the concentration of hypochlorous acid and increasing the bactericidal effect of wastewater by adding a second electrolytic apparatus for electrolyzing only seawater to a first electrolytic apparatus for electrolyzing seawater and seawater .

In order to achieve the above object, according to a preferred embodiment of the present invention, a wastewater treatment system of the present invention comprises a first tank (10) into which wastewater and seawater are introduced, a crusher Device 20; A first electrolytic apparatus (30) for electrolyzing the crushed sewage in the crushing apparatus (20); And a second tank (40) into which the treated water treated in the first electrolytic apparatus (30) is drawn, wherein the first tank (10) comprises a plurality of levels A sensor L; A head unit H for connecting the level sensor L and the control unit; A wastewater inlet line (W) for introducing wastewater into the inside; A seawater inlet line I into which seawater flows through the first solenoid valve V1; And a gas discharge portion (G) for releasing gas inside, and the second tank (40) includes a plurality of level sensors (L) sensing the level of seawater and treated water; A head unit H for connecting the level sensor L and the control unit; A seawater inlet line (I) for introducing treated water treated in the first electrolytic apparatus (30) and seawater through the third solenoid valve (V3); And a gas discharge portion G for discharging gas inside.

According to another embodiment of the present invention, the treated water discharged from the second tank 40 of the wastewater treatment system of the present invention is supplied with seawater controlled through the fourth solenoid valve V4.

According to another embodiment of the present invention, the wastewater treatment system of the present invention includes a second electrolytic device 50 for electrolyzing only the seawater supplied through the second solenoid valve V2.

According to another embodiment of the present invention, the cap (C) and the main body (B) are fastened and disengaged in the form of a screw in the head portion (H) of the wastewater treatment system of the present invention.

According to another embodiment of the present invention, the electrolytic apparatus of the present invention comprises a non-conductive pipe-shaped body 31; An electrode rod 33 housed in the body 31 and having a positive electrode; And a plurality of non-conductive supports 35 for supporting the electrode 33 from the body 31.

According to another embodiment of the present invention, the outer surface of the body 31 of the electrolytic apparatus of the present invention is a conductor and the inner surface is made of nonconductive material.

According to another embodiment of the present invention, the electrode 33 of the electrolytic apparatus of the present invention has a negative electrode.

According to another embodiment of the present invention, the first electrolytic apparatus (30) or the second electrolytic apparatus (50) of the electrolytic apparatus of the present invention is characterized in that the electrolytic apparatus of claim 5 and the electrolytic apparatus of claim 7 are arranged alternately Or the electrolytic apparatus of claim 7 is overlapped after the electrolytic apparatus of claim 5 is overlapped.

According to the above-described configuration, the electrolytic apparatus and the wastewater treatment system using the electrolytic apparatus according to the present invention can solve the problem of clogging due to manure masses by providing a crushing device for manure on the outside of the wastewater storage tank. It is possible to apply a high pressure to the wastewater and seawater flowing in the interior of the pump so that it can hold a large amount of wastewater treatment capability and can be constructed by arranging a pump type electrolytic device having a positive electrode and a pump type electrolytic device having a negative electrode An electrolytic apparatus capable of increasing the bactericidal effect of sewage water by increasing the concentration of hypochlorous acid by adding a second electrolytic apparatus for electrolyzing only seawater to the first electrolytic apparatus for electrolyzing seawater and seawater, Processing system can be provided.

1 is a diagram of a wastewater treatment system according to an embodiment of the present invention.
2 is a rear view of the wastewater treatment system shown in Fig.
3 is a front view of the wastewater treatment system shown in FIG.
4 is a cross-sectional view and an enlarged view of the head portion shown in Fig.
FIG. 5 is an explanatory view for explaining the milling apparatus shown in FIG. 1;
6 is a cross-sectional view of an electrolytic apparatus according to another embodiment of the present invention.
7 is a front view of the electrolytic apparatus shown in Fig.
8 and 9 are arrangements of an electrolytic apparatus according to still another embodiment of the present invention.

The sewage treatment system mainly includes a first tank 10, a crushing apparatus 20, a first electrolytic apparatus 30, and a second tank 40 (see FIG. 1) ).

A plurality of level sensors L for sensing the level of the wastewater and the seawater are formed in the first tank 10. The level sensor L detects the level of the wastewater and the seawater, And a head unit H for connecting the controller to the controller. The head unit H is for electrically connecting the level sensor L to the control unit and includes a body B including a terminal F and a cable grant E connected to the controller, And a cap C which is seated on the upper portion. The main body B and the cap C are coupled to each other in a rotational manner. The main body B functions as a male screw, and the cap C functions as a female screw. Because of this rotational coupling, it is possible to facilitate the engagement and disengagement, thereby facilitating the maintenance of the machine. The wastewater flows into the interior through the wastewater inlet line W and the seawater flows into the interior through the first electromagnetic valve V1 through the wastewater inlet line I. The gas discharging part G is formed for discharging the methane gas generated in the sewage and manure to the outside.

The crushing apparatus 20 crushes the manure discharged from the first tank 10 and crushes it. 5, a motor M is mounted on an upper portion of the milling unit 20 to allow the milling unit 20 to rotate, and a cutter R is mounted on the lower portion of the milling unit 20 Let the manure mass be crushed.

The first electrolytic apparatus 30 electrolyzes the crushed sewage in the milling apparatus 20 and the second electrolytic apparatus 50 is formed to electrolyze only seawater supplied through the second solenoid valve V2 do. The internal configuration of the electrolytic devices 30 and 50 will be described with reference to FIGS. 6 and 7. FIG. The outer surface of the body 31 of the electrolytic apparatus 31 may be a conductor and the inner surface may be nonconductive. However, according to another embodiment, the body 31 may be formed as a non-conductive pipe. According to another embodiment of the present invention, both ends of the body 31 are formed of a nonconductive plug N and an electrode connection part K may be formed at one end. The electrode rod 33 is accommodated in the body 31 and stands with a positive electrode. However, according to another embodiment of the present invention, the electrode rod 33 of the electrolysis apparatus may have a negative electrode. According to another embodiment of the present invention, the electrode 33 of the electrolytic apparatus may be any one selected from a bipolar electrode, a mono polar electrode, a coil, a bolt, a plate, and a mesh plate. Depending on the installation environment and conditions. For example, a rod or a plate or a porous plate electrode may be inserted into the pipe-shaped body 31, and in order to increase the treatment efficiency with respect to the treated water, Type electrode may be formed. A plurality of support rods 35 are formed of a non-conductive material for supporting the electrode rods 33 from the body 31. 8 and 9, the first electrolytic device 30 or the second electrolytic device 50 is an electrolytic device according to claim 5, The electrolytic apparatus of claim 7 is arranged alternately as shown in Figs. 8 (a), 8 (b) and 8 (d), or after the electrolytic apparatus of claim 5 is arranged as shown in Fig. 8 The electrolytic unit may be arranged in a redundant manner. According to another embodiment of the present invention, after the arrangement of the electrolytic apparatus as shown in Fig. 9 (a) is formed in the first stage, the arrangement of the electrolytic apparatus as shown in Fig. 9 (b) The electrolytic devices 30 and 50 according to the present invention may be constructed through the constitution. A front view of the electrolytic apparatus in which (a) and (b) are formed in two stages is shown in Fig. 9 (c). As described above, by forming the electrolytic devices 30 and 50 according to the present invention in a pipe shape, a more compact wastewater treatment system can be provided.

A plurality of level sensors L are formed in the second tank 40 to sense the level of the seawater and the treated water introduced into the first electrolytic apparatus 30, A head portion H is formed to connect the sensor L and the control portion and the seawater inlet line for introducing the treated water processed in the first electrolyzer 30 and the seawater through the third solenoid valve V3 I) is formed, and a gas discharging portion (G) for discharging hydrogen gas generated in the electrolytic treatment process to the outside is formed. In addition, seawater controlled through the fourth solenoid valve (V4) is supplied to the treated water discharged from the second tank (40), thereby enabling dilution and removing the sludge.

According to another embodiment of the present invention, the first tank 10 and the second tank 40 can be detached from the base substrate T via the fixing member S and the bolts Q .

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10; A first tank 20; Grinding device
30; A first electrolytic apparatus 40; The second tank
50; The second electrolytic device

Claims (9)

A first tank 10 into which wastewater and seawater are introduced;
A crushing device (20) for crushing the manure discharged from the first tank (10);
A first electrolytic apparatus (30) for electrolyzing the crushed sewage in the crushing apparatus (20); And
And a second tank (40) into which the treated water treated in the first electrolytic apparatus (30) is drawn,
The first tank (10)
A plurality of level sensors (L) sensing the level of seawater and seawater;
A head unit H for connecting the level sensor L and the control unit;
A wastewater inlet line (W) for introducing wastewater into the inside;
A seawater inlet line I into which seawater flows through the first solenoid valve V1; And
And a gas releasing part (G) for releasing gas inside,
The second tank (40)
A plurality of level sensors (L) sensing the level of seawater and treated water;
A head unit H for connecting the level sensor L and the control unit;
A seawater inlet line (I) for introducing treated water treated in the first electrolytic apparatus (30) and seawater through the third solenoid valve (V3); And
And a gas releasing part (G) for releasing gas inside,
The first electrolytic device (30)
A tubular body (31) whose outer surface is a conductor and whose inner surface is nonconductive; And
And an electrode rod (33) accommodated in the body (31) and having a positive electrode. The sewage treatment system according to claim 1, wherein the treated water discharged from the second tank (40) is supplied with seawater controlled through a fourth solenoid valve (V4). The sewage treatment system according to claim 1, wherein the wastewater treatment system includes a second electrolyzer (50) for electrolyzing only the seawater supplied through the second solenoid valve (V2). 2. The apparatus according to claim 1, wherein the head portion (H)
And the cap (C) and the main body (B) are fastened and released in a screw form. A tubular body (31) whose outer surface is a conductor and whose inner surface is nonconductive;
An electrode rod 33 housed in the body 31 and having a positive electrode; And
And a plurality of supports (35) of non-conductive material for supporting the electrode (33) from the body (31). delete 6. The electrolytic apparatus according to claim 5, wherein the electrode (33) of the electrolytic apparatus
- an electrolytic device. The method according to claim 1 or 3,
The first electrolytic device (30) or the second electrolytic device (50)
Wherein the electrolytic apparatus of claim 5 and the electrolytic apparatus of claim 7 are alternately arranged,
Characterized in that the electrolytic apparatus of claim 7 is overlapped after the electrolytic apparatus of claim 5 is arranged in a redundant manner. 8. The apparatus according to claim 5 or 7, wherein the electrode (33) of the electrolytic apparatus
A bipolar electrode, a mono polar electrode, a coil, a bolt, a plate, and a porous plate.

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