KR102378481B1 - The wastewater treatment facility in which the capacity installation of the wastewater treatment main body and cohesion reaction bath facilitates - Google Patents

Abstract

The present invention relates to a wastewater treatment device that is easy to install by capacity of a coagulation reactor and a wastewater treatment body. When the input wastewater raw water and a chemical are mixed, the agglomeration, reaction, and neutralization of suspended substances are performed, and a flange-type connection part (111) on the rear side. A coagulation reaction tank 110 equipped with; a front treatment tank 210 in which flange-type connection parts 211a and 211b are provided at the edges of the openings on the front and rear surfaces, and the connection part 211a on the front is bolted to the connection part 111 of the coagulation reactor 110; The front treatment tank 210 has a flange-type connection part 221 of a size corresponding to the connection part 211b on the rear side of the front treatment tank 210, and the rear treatment tank 220 is bolted to the front treatment tank 210; 110 is prepared for each capacity of 2 to 5 stages, and the front treatment tank 210 and the rear treatment tank 220 are prepared for each capacity of large, medium, and small, respectively. The front treatment tank 210 is a hopper 216 for settling between the inclined portion 214 provided at the bottom of the rear side and the guide wall 215 for upward guidance provided at the front thereof. In addition, the treated water mixed with microbubbles by the upward guide plate 217 provided on the upper side of the inclined part 214 is guided higher to the upper part of the rear treatment tank 220, so that the floating efficiency of suspended matter is increased. characterized in that

Description

The wastewater treatment facility in which the capacity installation of the wastewater treatment main body and cohesion reaction bath facilitates

The present invention relates to a wastewater treatment device that is easy to install by capacity of a coagulation tank and a wastewater treatment body. More specifically, it is easy to install the coagulation tank and the wastewater treatment body by capacity according to the characteristics and capacity of the incoming wastewater for each situation. It relates to a wastewater treatment device that can shorten time and reduce labor costs.

In general, various types of sewage and wastewater (collectively referred to as 'wastewater') discharged from industrial facilities and livestock facilities are treated with a wastewater treatment device using a floatation tank, settling tank, and oil-water separator at a wastewater treatment plant to treat various pollutants contained in the wastewater. After that, it is made into clean water and discharged outside.

The wastewater treatment device using the flotation tank is a solid/liquid separation type device that floats and removes suspended matter lighter than water to the upper part of the treatment tank while horizontally flowing wastewater introduced into the wastewater through a wastewater inlet.

The wastewater treatment device using the settling tank is a solid/liquid separation device for removing substances heavier than water from the wastewater by precipitating it to the lower part of the treatment tank.

The wastewater treatment device using the oil-water separator is a device that separates from water by using the self-floating force of a substance lighter than water (naturally floating), such as oil, in wastewater.

The wastewater treatment system using the flotation tank and the settling tank above should be installed according to the properties of the incoming wastewater because the properties of the wastewater to be treated are different. It should be installed as a multi-structured water treatment system that can be operated in a mixed manner.

As a prior art of such a mixed operable wastewater treatment device, Republic of Korea Patent Publication No. 10-1898218 (2018.09.12. Announcement) disclosed in the following patent document, "Multi-structured water treatment device capable of mutual crossing and mixed operation of flotation tank and settling tank and its driving method" (hereinafter referred to as 'prior art 1').

In the prior art 1, the treatment tank body is divided into a front treatment tank and a rear treatment tank, and the front treatment tank and the rear treatment tank of the treatment tank body are flotation tank + flotation tank, settling tank + Settling tank, settling tank + flotation tank, flotation tank + settling tank are designed to enable mutual crossing and mixed operation.

And when a coagulation tank is provided in front (in front of the front treatment tank) of the wastewater treatment body comprising the front treatment tank and the rear treatment tank described in the wastewater treatment apparatus of the prior art, in most cases, the outlet of the coagulation tank and the inlet of the wastewater treatment body are connected in the prior art. It was installed in a structure connected with a pipe pipe.

However, when the coagulation tank and the wastewater treatment body are connected with a pipe pipe in this way, the installation area increases and a larger space is required, so it takes up a lot of installation site. There is a problem with this.

In addition, the existing wastewater treatment equipment is manufactured with each tank according to the capacity, but most of them are made to order after the capacity is confirmed.

Republic of Korea Patent Publication No. 10-1898218 (2018.09.12. Announcement) "Multi-structure water treatment system capable of mutually intersecting and mixed operation of flotation tank and settling tank and its operation method"

Accordingly, the present invention was developed to improve the above problems, and an object of the present invention is to assemble the front and rear treatment tanks constituting the coagulation reaction tank and the wastewater treatment body by bolting, respectively, so that the properties of the wastewater flowing in each situation and It is to provide a wastewater treatment device that can be installed quickly and easily according to its capacity.

In addition, the coagulation tank and wastewater treatment body can be quickly constructed according to the capacity to be constructed, thereby shortening the construction period and maximizing the treatment efficiency by capacity. is to provide

The above object of the present invention is a coagulation reaction tank equipped with a flange-type connection part at the rear of which agglomeration, reaction, and neutralization of suspended substances are made when the input wastewater raw water and chemicals are mixed; a front treatment tank provided with a flange-type connection part on the edges of the front and rear openings, and the front connection part is bolted to the connection part of the coagulation tank; A rear treatment tank having a flange-type connector of a size corresponding to the connector on the rear of the front treatment tank and bolted to the connector on the rear of the front treatment tank; The front treatment tank and the rear treatment tank can be achieved by preparing for each capacity of large, medium, and small, respectively, and assembling it with an appropriate capacity according to the order according to the properties and inflow amount of the inflowing wastewater.

In addition, the front treatment tank forms a lower end of the rear surface as an inclined portion, and has a guide wall for upward guidance on its front surface so that the space between the inclined portion and the guide wall becomes a hopper for sedimentation, and an upward guide plate is provided on the upper side of the inclined portion to prevent microbubbles. This can be achieved by allowing the mixed treated water to flow while being guided higher to the upper part of the aftertreatment tank.

The present invention is to assemble each part of the front treatment tank and the rear treatment tank constituting the coagulation tank and the wastewater treatment body by bolting, so it can be assembled and constructed very quickly and conveniently at the site according to the properties and capacity of the inflowing wastewater for each situation. ,

There is an effect of maximizing the treatment efficiency by adjusting the angle and length of the guide wall and the upward guide plate according to the concentration of the influent suspended matter in each part.

In addition, it is possible to change the surface load/residence time by adjusting the length and depth of the wastewater treatment body according to the part capacity change. It has the effect that it can be installed even at the site where heavy equipment cannot be used due to its narrowness.

And since all the assembly of the water tank is of the bolting type as described above, there is an effect of reducing the construction cost and preventing safety accidents in advance by reducing the working time and manpower according to the assembly at the site.

1 is a side view showing the overall structure of a wastewater treatment apparatus according to the present invention;
2 is a state diagram in which the coagulation reaction tank, the front treatment tank, and the rear treatment tank of the present invention are separated;
3 (A) to (D) are diagrams of the state in which the coagulation tank is prepared by capacity in the present invention
4 (A) to (C) are diagrams of a state in which the front treatment tank is prepared by capacity in the present invention
Figure 5 (a) ~ (c) is a state diagram prepared for each capacity of the post-treatment tank in the present invention

Hereinafter, a convenience device for a vehicle using a touch panel according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view showing the overall structure of a wastewater treatment apparatus in which the present invention is implemented, and FIG. 2 is a state diagram in which the coagulation reaction tank, the front treatment tank, and the rear treatment tank of the present invention are separated.

The wastewater treatment apparatus of the present invention shown here is composed of a coagulation reaction tank 110 , a front treatment tank 210 , and a rear treatment tank 220 .

The coagulation tank 110 is a treatment tank that allows the agglomeration, reaction, and neutralization of suspended substances to occur when the raw wastewater and the chemical injected through the chemical inlet 113 are mixed with the electric stirrer 120 provided in the coagulation tank 110, A flange-type connection part 111 is provided on the rear side.

Here, when the coagulation reactor 110 has two or more stages, if the high mixer at the front stage is installed as a rapid stirrer, the raw water and the chemical are mixed as quickly as possible, and if the agitator at the rear stage is installed as a slow stirrer, the chemical is evenly mixed in the raw water wastewater Therefore, it is preferable to maximize the aggregation, reaction, and neutralization effects.

The front treatment tank 210 is provided with flange-type connection parts 211a and 211b at the opening edges of the front and back sides, and the front connection part 211a has a size corresponding to the connection part 111 of the coagulation tank 110 and It is provided in the form and is bolted to the coagulation reactor 110 .

The rear treatment tank 220 is provided with a hopper 222 at the lower portion, and a flange-type connecting portion 221 of a size corresponding to the connecting portion 211b on the rear side of the front treatment tank 210 is provided on the front side of the front treatment tank ( 210) It is bolted to the connection part 211b on the rear side.

In the drawings, reference numeral 230 denotes a sludge receiving unit, 240 denotes a treated water discharge tank, 250 denotes a floating sludge collector, and 260 denotes sludge deposited in hoppers 216 and 222 to the outside. The sludge transfer unit 270 for discharging is a microbubble generator.

The present invention has a structure in which the coagulation reaction tank 110, the front treatment tank 210, and the rear treatment tank 220 are bolted to each other by connecting parts 111, 211a, 211b, and 221 provided respectively. It can be quickly and easily assembled and constructed according to the characteristics and capacity of the inflowing wastewater for each situation.

3 (A) to (D) are diagrams of the state in which the coagulation reactor of the present invention is prepared for each capacity of 2 to 5 stages, (A) to (C) and FIGS. 5 (A) to (C) is a state diagram in which the front treatment tank and the rear treatment tank are prepared for each capacity of 'small, medium, large' in the present invention.

That is, the front treatment tank 210 and the rear treatment tank 220 are prepared for each large, medium, and small capacity, respectively, as shown in FIGS. 4 and 5 , and the coagulation tank 110 has 2 to 5 stages as shown in FIG. 3 . Prepare in advance and set aside for each capacity.

Then, even if the treatment capacity of the wastewater treatment apparatus is ordered differently depending on the properties and inflow of wastewater, the coagulation reactor 110 is selectively assembled within the range of 2 to 5 stages with a capacity suitable for the ordered capacity, and the front treatment tank ( 210) and the post-treatment tank 220 are also selected from among small, medium, and large, so that installation by capacity according to the order is easy.

That is, the wastewater treatment apparatus of the present invention can be quickly constructed with a suitable capacity according to the order even if the order for each capacity is different, so that the construction period can be shortened, and the treatment efficiency according to the properties and inflow of wastewater can be maximized. will, wherein the agglomeration reactor 110 may be prepared with a capacity of five or more stages.

In the present invention, the agglomeration tank 110 has an outlet 112 for the treated water at the lower rear side, and the front treatment tank 210 contains the treated water flowing from the agglomeration tank 110 to the front treatment tank 210 . It is preferable to install the microbubble injection pipe 212 for supplying microbubbles, but to arrange the distribution pipe 213 at the lower end close to the bottom of the front treatment tank 210 so as to be close to the outlet 112 .

And, as described above, a plurality of microbubble injection tubes 212 having a distribution tube 213 at the bottom may be installed when the capacity of the front treatment tank 210 is large as shown in FIG. 4 (c).

Then, the treated water flowing into the lower front of the front treatment tank 210 through the outlet 112 provided at the lower rear side of the coagulation reaction tank 110 is supplied through the distribution pipe 213 of the microbubble injection tube 212. The microbubbles can be quickly and evenly mixed, which increases the efficiency of flotation of suspended matter.

In the present invention, the front treatment tank 210 is provided with an inclined portion 214 at a predetermined angle at the bottom of the rear side so that the rear connection portion 211b is provided with a smaller size than the front connection portion 211a, and the rear treatment tank It is preferable that the connection part 221 of 220 is also provided with a size corresponding to the small size of the rear connection part 211b to be assembled with each other.

Then, the sludge transfer unit 260 provided at the lower end of the hopper 222 inclined from the connection unit 221 may be provided on the same line as the bottom of the coagulation reactor 110 , so that the installation of the wastewater treatment device is easy.

And the front treatment tank 210 is provided with a guide wall 215 on the front side of the inclined portion 214 to guide the treated water flowing in through the outlet 112 provided at the lower rear end of the coagulation reaction tank 110 upward, , between the guide wall 215 and the inclined portion 214 is preferably a hopper 216 for precipitation of the front treatment tank 210.

Then, when the treated water flowing in through the outlet 112 at the bottom of the coagulation reaction tank 110 is guided upward along the guide wall 215 in a state where microbubbles are mixed, the suspended matter sinking due to its heavy specific gravity is the inclined portion 214. It is well gathered in the hopper 216 provided between the and the guide wall 215 .

Therefore, even if the connection part 211a on the front of the front treatment tank 210 is assembled to the connection part 111 including the outlet 112 at the bottom of the coagulation tank 110, as in the prior art, a protruding hopper at the bottom of the front treatment tank 210 Since it is not necessary to separately provide the front treatment tank 210, it is easy to install the front treatment tank 210 close to the floor.

In addition, it is preferable that the front treatment tank 210 has an upward guide plate 217 on the upper side of the inclined portion 214 provided on the rear surface at a predetermined height.

Then, the treated water in which the microbubbles are evenly mixed in the front treatment tank 210 is guided higher to the upper part of the rear treatment tank 220 , so that the floating efficiency of suspended substances included in the treated water is increased, so that the sludge to the floating sludge collector 250 is increased. The collection will be smooth.

The present invention simply selects and selects each part of the coagulation reactor 110, the front treatment tank 210, and the rear treatment tank 220 of an appropriate capacity according to the properties and capacity of the inflowing wastewater for each situation and simply assembles the bolts. This makes assembly and construction on site very quick and easy.

In addition, according to the concentration of the inflow suspended matter in each part, the treatment efficiency can be maximized by adjusting the angle and length of the guide wall 215 and the upward guide plate 217, and the length and depth of the wastewater treatment body according to the change in the part capacity. It is possible to change the sleep load/residence time by adjustment.

In addition, due to the separation of each part (coagulation reaction tank, front treatment tank, and rear treatment tank 220), there is an effect that installation is possible even at the site where heavy equipment cannot be used due to the narrow entrance of the existing equipment.

Although the invention made by the present inventor has been described in detail according to the above embodiment, the present invention is not limited to the above embodiment and it is common knowledge in the art that various changes can be made without departing from the gist of the present invention. It will be self-evident to those who have

110: agglomeration tank 111,211a,211b,221: connection part
112: outlet 113: drug inlet
210: front treatment tank 212: microbubble injection tube
213: distribution pipe 214: inclined part
215: guide wall 216: hopper
217: upward guide plate 220: rear treatment tank

Claims (6)

In configuring the wastewater treatment device,
a coagulation reaction tank 110 having a flange-type connection part 111 on the rear side and an outlet 112 on the rear side as a treatment tank into which raw wastewater and chemicals are put;
Among the flange-type connection parts 211a and 211b provided at the edges of the front and rear openings, the front connection part 211a is bolted to the connection part 111 of the coagulation reactor 110, and is introduced from the coagulation reactor 110. The distribution pipe 213 of the microbubble injection pipe 212 for supplying microbubbles to the treated water is disposed close to the floor so as to be close to the outlet 112, and is provided with an inclined portion 214 of a certain angle at the bottom of the rear surface of the rear surface. a front treatment tank 210 in which the connecting portion 211b is provided with a smaller size than the front connecting portion 211a;
a rear treatment tank 220 having a flange-type connection part 221 of a small size corresponding to the connection part 211b on the rear surface of the front treatment tank 210 and bolted to the rear surface of the front treatment tank 210; to assemble the coagulation tank, the front treatment tank, and the rear treatment tank according to the required capacity.
On the front surface of the inclined part 214 of the front treatment tank 210, a guide wall 215 for guiding the treated water flowing into the outlet 112 upward is provided with a sedimentation hopper 216 between the inclined part 214 and the inclined part 214. install it as much as possible,
An upward guide plate 217 is installed on the upper side of the inclined portion 214 at a certain height.
A wastewater treatment apparatus that is easy to install by capacity of a coagulation reaction tank and a wastewater treatment body, characterized in that the treated water mixed with microbubbles is guided higher to the upper part of the rear treatment tank 220 to increase the floating efficiency of suspended matter.
The method of claim 1,
The front treatment tank 210 and the rear treatment tank 220 are prepared for each large, medium, and small capacity, and the agglomeration tank 110 is prepared for each capacity of 2 to 5 stages.
A wastewater treatment device that is easy to install by capacity of a coagulation reactor and wastewater treatment body, characterized in that it is assembled with an appropriate capacity according to the order according to the properties and inflow amount of the inflowing wastewater.
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