KR200178930Y1 - an electrolysis cesspool of the sewage treatment apparatus - Google Patents

Abstract

The present invention relates to a sewage treatment apparatus using electrolysis, and in particular, by using a plurality of electrode plates having a minimum unit area, the treatment surface area is maximized to maximize the treatment efficiency, and the electrode plate can be easily replaced. In the sewage treatment apparatus using a conventional electrolysis configuration, the filtered water discharge pipe is installed in the upper portion, the treated water supply pipe is installed in the lower portion, the bottom surface is inclined downward to form a collecting portion, the aggregate is installed in the collecting portion, A square reactor having a side surface and a corresponding side surface thereof having a plurality of fixed holes in the form of long holes; The fixing hole relates to a sewage treatment apparatus using electrolysis, characterized in that it comprises an electrolysis section in which a pair of long and short electrode plates are alternately installed so as to be inclined toward the center lower side.

Description

An electrolysis cesspool of the sewage treatment apparatus

The present invention relates to a sewage treatment apparatus using electrolysis, and in particular, to maximize the treatment surface area by using a plurality of electrode plates having a minimum unit area to maximize the treatment efficiency, and also easy to replace the electrode plate using electrolysis It relates to a sewage treatment apparatus.

In recent years, due to the improvement of living standards and industrial development, a considerable amount of sewage and wastewater is discharged every day, so the government has strengthened the discharge standard of sewage and wastewater discharged to prevent water pollution and to supply clearer water. Improvement or replacement of equipment was required, and new technology development was urgently needed.

In addition, in recent years, a large amount of water is used every day, and water shortage has occurred, and as a result, it has been attempted to treat wastewater and wastewater for use in heavy water. There is a problem in that the treatment efficiency is difficult to use for heavy water, so that a separate advanced treatment facility must be provided.

Therefore, in recent years, the physical and chemical treatment methods that are treated to be able to use even the heavy water use that can be used as living water and industrial water, which are excellent in treatment efficiency and processing speed than the biological treatment method, has been mainly studied. The treatment method is emerging.

When the treatment method using the above-mentioned electricity is briefly described, first, the treated water to be treated in order to have a greater efficiency is introduced into a control tank, which is a pretreatment process, and then caustic soda, inorganic coagulant, and suitable additives (NaCl, Na2so4), etc. Add and mix to adjust the conductivity.

The treated water, which has completed the conductivity adjustment step, is then subjected to an electrical reaction through the sewage treatment device, ie, impurities contained in the treated water due to electrocoagulation, electrofltation, and electrooxidation. At the same time, the filtered filtrate is discharged to remove suspended solids (scum) generated in the treatment process, and the precipitated aggregates are discharged through the lower discharge pipe.

Among the treatment methods using electricity as described above, the present application relates to a sewage treatment apparatus for treating treated water that has undergone a pretreatment step in an adjustment tank, and will be described with reference to the accompanying drawings. .

Figure 3 is a perspective view of the main portion cutaway showing a conventional sewage treatment apparatus using electrolysis, Figure 4 is a longitudinal cross-sectional view according to Figure 3, the upper portion is opened and the floating matter collecting unit 54 is installed by the float 52 discharge plate (52) ( 55 is formed, and the discharge portion 50 is provided with a filtered water discharge pipe 56 stepped above the float discharge pipe 54; A reaction tank 60 formed integrally with the discharge part 50 but formed so that the lower end thereof is narrowed so that the aggregate aggregated to the lower portion is smoothly collected and discharged, and the aggregate discharge pipe 62 is installed; An electrolysis unit 70 installed to connect a plurality of cylindrical electrode tubes 72 to the inside of the reactor 60 so as to be connected to a rectifier installed outside; Inserted into the center of the electrolysis unit 70 is composed of a treated water supply pipe 80 formed with a plurality of discharge holes 82 at the bottom.

In the above, the electrode tube 72 of the electrolysis unit 70 is supported by a conventional support frame on the bottom.

In the conventional sewage treatment apparatus 100 configured as described above, the treated water supplied through the treatment water supply pipe 80 is supplied into the reaction tank 60 through a plurality of discharge holes 82 installed at the bottom thereof, and at the same time, the electrolysis unit 70 is provided. After the impurities are removed while passing through the plurality of electrode tubes 72, the filtered filtrate is discharged to the outside through the filtrate discharge pipe 56, and the suspended solids are collected by the floating material collecting part 55 formed by the diaphragm 52. Then it is discharged to the float storage tank through the float discharge pipe (54).

In addition, the aggregate deposited downward is discharged to the aggregate discharge pipe (62).

However, in the conventional sewage treatment apparatus 100, the treatment efficiency of the electrolysis unit 70 is proportional to the width W and the length L of each electrode tube 72 formed to overlap in a cylindrical shape. By forming each electrode tube 72 overlapping with a wide width as well as by increasing the length, the treatment efficiency could be improved, but the overall size of the sewage treatment apparatus 100 is increased, thereby increasing the overall size. Not only the problem occurs but also the manufacturing cost increases.

In addition, due to the electrical reaction, each of the electrode tubes 72 should be replaced when a certain period of use, the replacement process of having to remove and insert each electrode tube 72 overlapping each other in the reaction tank 60 will be quite inconvenient. In addition, a lot of additional costs have arisen accordingly.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of which is the maximum treatment using a plurality of electrode plates having a minimum unit area of the electrolysis tank of the sewage treatment apparatus using electrolysis. The surface is to maximize the treatment efficiency, and to facilitate the replacement of the electrode plate.

1 is a perspective view of the main incision showing the configuration of the subject innovation.

2 is a longitudinal sectional view according to FIG. 1;

Figure 3 is a perspective view of the main incision showing the sewage treatment apparatus using a conventional electrolysis.

4 is a longitudinal sectional view according to FIG. 3;

Explanation of symbols for the main parts of the drawings

10: reaction tank 12: filtered water discharge pipe

14: treatment water supply pipe 16: collecting unit

17: aggregate discharge pipe 18: fixed hole

20: electrolysis unit 22: electrode plate

The present invention for achieving the above object is in the sewage treatment apparatus using a conventional electrolysis, the filtered water discharge pipe is installed on the upper side, the treatment water supply pipe is installed on the lower side, the bottom is inclined toward the lower center to form a collecting portion The unit is provided with a condensate discharge pipe, the reaction tank of the rectangular shape in which a plurality of fixing holes of the long hole shape is formed on one side and the other side corresponding thereto; The fixing hole is characterized in that the pair of long and short electrode plate to be inclined toward the lower side of the center is provided with an electrolysis unit which is installed to cross each other.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in more detail as follows.

1 is a perspective view of the main portion cutaway showing the configuration of the present invention, Figure 2 is a longitudinal cross-sectional view according to FIG.

First, in order to have a greater efficiency in the electrolytic bath of the present invention to be added to the treatment water to be treated in the adjustment tank that is a pre-treatment process, and then added caustic soda, inorganic coagulant and appropriate additives to adjust the conductivity After passing through the conductive adjustment step, the treated water is supplied to the sewage treatment apparatus.

The sewage treatment apparatus of the present invention has a filtered water discharge pipe 12 is formed in the upper portion to be discharged to the outside the treated water after the electrolysis in the electrolysis unit 20 to be described later, the lower portion so that the treated water can be supplied Treatment water supply pipe 14 is installed, the bottom is inclined to the lower center to form a collecting portion 16 so that the collection of aggregates can be smoothly collected, the collection portion 16 can discharge the aggregate after the treatment is completed. A condensate discharge tube 17 is installed so that a rectangular reaction tank in which a plurality of long hole-shaped fixing holes 18 are formed on one side and the other side thereof to be inserted and fixed to the electrode plate 22 described later. 10;

The fixing hole 18 is provided with a pair of long and short electrode plate 22 is inserted to be inclined downward in the center and having the electrolysis unit 20 alternately installed with a finish such as silicon.

The electrode plate 22 inserted and inserted into the fixing hole 18 of the reactor 10 is connected to a rectifier (not shown) installed outside so that electricity is supplied with electricity.

In addition, by forming a support plate extending to the outside of the collecting portion 16 formed by the bottom of the reaction tank 10 to be installed in the base installed a general wheel for movement not shown in the drawing to easily move to any position required It is desirable to use so that it can be made.

When described in more detail with reference to the accompanying drawings the working relationship of the present invention configured as described above are as follows.

First, the treated water that has undergone the pretreatment step in the adjusting tank is introduced into the reaction tank 10 through the treated water supply pipe 14 formed in the lower portion of the reaction tank 10, and the treated water introduced into the reaction tank 10 is long and short. The pair of electrode plates 22 pass through the electrolysis unit 20 intersected with each other, that is, the electrode plate 22 passes from the lower side to the upper side along the flow path formed as the intersected electrode plates 22 are installed. The electrolysis of (22) removes impurities contained in the treated water.

In other words, the water level of the treated water introduced into the reaction tank 10 through the treated water supply pipe 14 as shown by the broken line in FIG. 2 is initially maintained horizontally from the lower side, and then continues to the continuously introduced flowing water. The treated water formed in the horizontal state flows to the bottom surface of the one electrode plate 22, and the horizontal state is destroyed and flowed in between the other pair of electrode plates 22 to maintain the horizontal state again, and the treated water introduced between the electrode plates 22. In order to maintain the horizontal state again by the horizontal state again by the introduction of a pair of the electrode plate 22, while the horizontal way is made continuously, the treated water passes through the electrolysis is made.

In the above, the flow path in which the electrode plate 22 is provided is formed in accordance with the installation height h of the pair of long and short electrode plates 22 in proportion to the minimum length L of the reaction tank 10. The height h of the electrode plate 22 is set to a height h through which a certain amount of treated water can pass smoothly.

The treated water passing through the electrolysis unit 20 as described above is discharged to the outside through the filtered water discharge pipe 12 installed on the upper portion of the reaction tank 10, the aggregate contained in the treated water is the bottom of the reaction tank 10 After being collected in the collecting unit 16 formed as is discharged through the aggregate discharge pipe 17. In addition, the aggregate contained in the treated water while passing along the flow path of the electrode plate 22 is formed to be inclined downward in the center of the electrode plate 22, so that the aggregate is dropped downward along the inclined surface and is collected. ) Is collected and discharged as described above.

On the other hand, according to the use of the electrical reaction as described above, the electrode plate 22 needs to be replaced if it takes a certain period of time, the electrode plate 22 is fitted into the fixing hole 18 formed in the reaction tank 10 In the inserted state is fixed to the finish with silicon, etc., if you remove the finish, such as silicon has a condition that can be easily replaced.

As described above, the present invention has the effect of maximizing the treatment efficiency as well as minimizing the facility, as the maximum treatment surface area is formed by using a plurality of electrode plates having a minimum unit area in the sewage treatment apparatus using electrolysis. To have.

In addition, the replacement of the electrode plate installed in the reaction vessel also has a working condition that can be easily replaced by the operator.

Claims (1)

In the sewage treatment apparatus using a conventional electrolysis, the filtered water discharge pipe 12 is installed in the upper portion, the treatment water supply pipe 14 is installed in the lower portion, the bottom surface is inclined downward to form a collecting portion 16, the collecting portion 16, the aggregate discharge pipe 17 is provided, and the reaction tank 10 of the rectangular shape in which a plurality of fixing holes 18 of the long hole shape is formed on one side and the other side thereof; The fixing hole (18) is a sewage treatment apparatus using an electrolysis, characterized in that it is provided with a pair of electrolysis unit 20 is provided with a pair of long and short electrode plates 22 to be inclined downward in the center.