KR101278957B1 - Sedimentation and floatation apparatus for waste water treatment - Google Patents

Abstract

PURPOSE: A precipitation flotation apparatus is provided to reduce installation area, installation cost, and processing time due to no need to install a setting tank and a flotation tank separately. CONSTITUTION: A precipitation flotation apparatus comprises a precipitation tank (110), a center pipe (120), a flotation tank (130), a scraper (140), a shaft (142), an operating motor (146), a wastewater inlet pipe (150), a precipitating-treated water transfer pipe (160), an air-injecting pipe (170), and a flotation-treated water discharging pipe (180). The inner bottom of a precipitation tank has a downward slope towards the central part, and the central part of the inner bottom is recessed. A center pipe is vertically installed at the upper part of the inner side of the precipitation tank. A flotation tank wraps around the center pipe at the upper portion of the inside of the flotation tank, and the inside of the flotation tank, which has the shape of hollow pillars, is empty. A scraper scraps and transfers the sludge which precipitates at the inner bottom of the precipitation tank. A wastewater inlet pipe passes through a precipitation tank and a flotation tank. The upper end portion of the precipitation-treated water transfer pipe is connected to the top of the precipitation tank, and the lower end portion is connected to the lower part of the flotation tank by penetrating into the precipitation tank. A precipitation-treated water transfer pipe is connected to the precipitation-treated water transfer pipe at the outside of the precipitation tank.

Description

Sedimentation and floatation apparatus for waste water treatment

The present invention relates to a sedimentation flotation apparatus applied to a wastewater treatment system, and more particularly, to a sedimentation flotation apparatus that allows the precipitation process and the flotation process to be performed in one apparatus.

In general, wastewater treatment systems remove contaminants through a series of processes to purify various wastewater, including factory wastewater and household wastewater.

Wastewater treatment systems are usually equipped with sedimentation tanks and pressurized flotation tanks to remove contaminants from the wastewater.

The sedimentation tank is a device that sediments and removes pollutants by using the specific gravity difference between water and pollutants. It is also settled by gravity, but most of them settle floc by injecting flocculant to form floc to accelerate the settling speed. It is shortening time.

A pressurized floatation tank is a device that removes contaminants in the waste water by floating them on the surface of the water.In some cases, they may rise due to the specific gravity difference.In most cases, the air rises when the air is injected and dissolved under pressure. As a result, the specific gravity of the pollutant is reduced to float on the water, and scum collected in the scum collector is discharged through a separate pipe. This pressurization tank is installed adjacent to the sedimentation tank to remove the contaminants remaining in the wastewater treated first in the sedimentation tank, followed by the flotation process, followed by the flotation process. After sedimentation by sedimentation, the secondary sedimentation is separated by injury, and contaminants can be efficiently separated and removed.

However, such a conventional wastewater treatment system has a disadvantage that the floating tank must be separately installed on the ground following the sedimentation tank, and thus a large area is consumed, the site is wasted, the installation cost is increased, and the process time is long.

The present invention has been made to solve the above problems, to provide a sedimentation flotation device for wastewater treatment to allow precipitation and flotation to be carried out in a subsequent process in one device.

An object of the present invention described above has a shape of a cylinder having a space formed therein, the inner bottom of which is inclined downward toward the center portion, but the sedimentation tank in which the center portion of the inner bottom is formed, and perpendicular to the inner upper portion of the sedimentation tank. And a floating tank having a shape of a hollow pillar installed to surround the central tube on the inner upper portion of the precipitation tank, and having an empty inside, and rotatably mounted on the inner bottom of the precipitation tank. A scraper for scraping the sludge settled on the inner bottom of the inner bottom to move to the center of the inner bottom, one end of which is mounted on the top of the settling tank and the other end of which is mounted on the inner bottom center of the settling tank and penetrates through the center of the scraper And a shaft which is mounted on an upper outer side of the settling tank and provides rotational force to the shaft. A driving motor, one end of which is located outside the settling tank and the other end of which is disposed through the settling tank and the floating tank so as to be located inside the central tube, and an upper end thereof is connected to an upper portion of the settling tank. A sedimentation treatment water conveying pipe installed at a lower end of the sedimentation tank to be connected to the lower portion of the flotation tank, an air injection pipe connected to the sedimentation treatment water transporting pipe outside the sedimentation tank, and one end of the flotation tank It is achieved by providing a sedimentation flotation device for wastewater treatment comprising a flotation treatment water discharge pipe connected to be located above the sedimentation treatment water transport pipe and the other end penetrates the sedimentation tank to be located outside the sedimentation tank. Can be.

According to a preferred feature of the invention, the sedimentation treatment water transfer pipe may be connected so that the lower end toward the center of the floating tank.

According to another preferred feature of the present invention, the sedimentation treatment water transfer pipe may be installed at the lower end eccentric to the floating tank.

According to another preferred feature of the invention, the central tube may be extended to be tapered at the bottom.

According to another preferred feature of the present invention, the floating tank is formed to have a 'T' cross section including a first tank and a second tank having a smaller outer diameter than the first tank at the bottom of the first tank, The sedimentation treatment water inlet is connected to the lower end of the second tank, the flotation treatment water discharge pipe is connected to the lower end of the first tank.

According to another preferred feature of the invention, the floating tank may further include a partition portion formed to be inclined upwardly in the inner connection portion of the second tank and the first tank.

According to the sedimentation flotation apparatus for wastewater treatment according to the present invention, since sedimentation and flotation can be performed in successive processes in one apparatus, there is no need to separately install the sedimentation tank and the flotation tank, thereby reducing the installation area and installation cost, Process time can also be shortened.

1 is a front view of the sedimentation flotation apparatus for wastewater treatment according to an embodiment of the present invention.
Figure 2 is a plan view of the sedimentation flotation apparatus shown in FIG.
Figure 3 is a plan view of the sedimentation flotation apparatus for wastewater treatment according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the embodiments described below are only for explanation of the embodiments of the present invention so that those skilled in the art can easily carry out the invention, It does not mean anything.

With reference to Figures 1 and 2, it will be described with respect to the sewage flotation apparatus for wastewater treatment according to an embodiment of the present invention. As shown, the sewage flotation apparatus for wastewater treatment is settling tank 110, the central pipe 120, the floating tank 130, the scraper 140, the shaft 142, the drive motor 146, wastewater inlet pipe 150 ), Sedimentation treatment and flotation treatment in order to remove contaminants from the waste water, including the sedimentation treatment water transport pipe 160, air injection pipe 170, flotation treatment water discharge pipe 180 in a single device Characterized in that to be performed.

The precipitation tank 110 has a shape of a cylinder having a space formed therein and is mounted on the ground. The precipitation tank 110 is formed such that the inner bottom is inclined toward the center portion, and the center portion of the inner bottom is recessed downwardly. In the center of the inner bottom of the sedimentation tank 110 is settled sludge is collected. In the sedimentation tank 110, the first treatment of the wastewater is performed through the sedimentation process of the wastewater containing the flocculant. The sludge, which is heavy due to the coagulant, is precipitated to the inner bottom of the sedimentation tank 110, and the sedimentation treated water is Continued to fill the settling tank 110 to move upwards. Since the sedimentation process does not remove all pollutants from the wastewater, the pollutants remain in the sedimentation water.

The scraper 140 is rotatably installed inside the sedimentation tank 110 to scrape the sludge settled on the inner bottom of the sedimentation tank 110 and push the scraper 140 to the center of the inner bottom of the sedimentation tank 110.

One end of the shaft 142 is mounted on the top of the precipitation tank 110 and the other end is mounted on the inner bottom center of the precipitation tank 110, and is penetrated through the center of the scraper 140.

The drive motor 146 is mounted outside the upper portion of the precipitation tank 110 and serves to provide rotational force to the shaft 142. The drive motor 146 may be connected to a reducer (not shown).

The scraper 140, the shaft 142, and the driving motor 146 may be used as they are used in a conventional sedimentation tank, and are not particularly limited, and thus detailed descriptions of the configuration and operation will be omitted.

The central pipe 120 is installed vertically so as to be located on the inner upper portion of the precipitation tank 110. The central pipe 120 is formed in the form of the lower opening guides the wastewater introduced through the wastewater inlet pipe 150 downward. The central tube 120 may be formed in the form of a circular tube, the bottom may be extended to be tapered. When the lower end of the central tube 120 is expanded, the floating tank 130 installed to surround the central tube 120 may be firmly fixed.

The floatation tank 130 is for successively treating the sedimentation treated water firstly treated in the precipitation tank 110 and removes contaminants through the flotation process. The floating tank 130 is installed to surround the central tube 120 on the inner upper portion of the precipitation tank 110. Therefore, the floating tank 130 is formed in a shape having a hollow (not shown) to which the central tube 120 can be fitted, and forms an empty form so that the waste water can be filled. In the flotation tank 130, the primary treated sedimentation treatment water flows from the sedimentation tank 110 and air is injected at the same time so that the air-contaminated material is moved upwards to be collected by the scum collector (not shown). Through this process, the secondary treated flotation water is discharged through the discharge pipe.

On the other hand, the floating tank 130 may be formed to have a 'T' type cross section. That is, the floating tank 130 is formed in the first tank 130a having a cylindrical shape having a hollow inside, and a second tank formed below the first tank 130a and having a smaller outer diameter than the first tank 130a. 130b may be formed to form a 'T'-shaped cross section as a whole. In this case, the sedimentation treatment water treated first in the sedimentation tank 110 is introduced into the lower end of the second tank (130b), the flotation treated water can be discharged through the lower end of the first tank (130a). have. In addition, the floating tank 130 may further include a partition portion 132 installed to be inclined upwardly at an inner connection portion to which the second tank 130b and the first tank 130a are connected. The partition part 132 serves to orient the air so that the contaminant, which floats upward when the wastewater introduced into the first tank 130a is filled, rises well above the second tank 130b. It is made in the form of a tube that is tapered to the inner upper end of the).

Waste water inlet pipe 150 is installed to introduce the wastewater into the sedimentation tank 110 from the outside of the sedimentation tank 110, one end of the waste water inlet pipe 150 is located outside the sedimentation tank 110 The other end of the wastewater inlet pipe 150 is located inside the central pipe 120 through the settling tank 110 and the floating tank 130. Therefore, the wastewater flowing through the wastewater inlet pipe 150 is discharged through the other end located inside the central pipe 120 and is guided and filled into the inner side of the precipitation tank 110 by the central pipe 120. In this case, the wastewater flowing through the wastewater inflow pipe 150 is in a state containing a flocculant.

The sedimentation treatment water transport pipe 160 is for moving the sedimentation treatment water treated first in the sedimentation tank 110 to the flotation tank 130, the upper end of which is connected to the upper part of the sedimentation tank 110, and the lower end of the sedimentation tank. It is installed to be connected to the lower portion of the floating tank 130 through the (110). In this case, the overflow water in the precipitation tank 110 is introduced into the sedimentation treatment water transport pipe 160 through the overflow water inlet 362. The sedimentation treatment water delivery pipe 160 may be bent to form 'b'.

The sedimentation treatment water transport pipe 160 may be connected to the lower end thereof toward the center of the floating tank 130 as shown in FIG. 2, and alternatively, the second of the floating tank 130 as shown in FIG. 3. The tank 130b may be installed eccentrically. As shown in FIG. 3, when the lower end of the sedimentation treatment water transport pipe 160 is eccentrically installed in the second tank 130b, the sedimentation treatment water injected together with air is introduced while rotating the hollow of the second tank 130b about its axis. To be filled. That is, the vortex is generated, thereby increasing the efficiency of the flotation treatment. For reference, the sedimentation flotation apparatus shown in Figure 3 is substantially the same as the sedimentation flotation apparatus and technical features according to an embodiment of the present invention, except that the lower end of the sedimentation treatment water transport pipe 160 is installed eccentrically Same as

The air injection pipe 170 is connected to the sedimentation treatment water transport pipe 160 from the outside of the precipitation tank 110 to inject air. Accordingly, the precipitated treated water is introduced into the floating tank 130 while the air is injected, so that the pressure floating process is performed in the floating tank 130. Unexplained reference numeral 172 denotes a pressure tank and 174 denotes a pressure pump.

The flotation treatment water discharge pipe 180 is installed to discharge the flotation treatment water secondary treated in the flotation tank 130 to the outside of the precipitation tank 110. In this case, the flotation treatment water discharge pipe 180 is connected to one end of the flotation tank 130 so as to be located higher than the sedimentation treatment water transport pipe 160, the other end penetrates the precipitation tank 110, the precipitation tank 110 It is installed to be located outside of. And one end of the floatation treatment water discharge pipe 180 may be installed to be approximately the same height as the partition portion 132 of the floating tank 130, through the partition portion 132 contaminants attached to the air well above Floating treatment water discharged to the floating treatment water discharge pipe 180 is connected to be located to the outside of the partition portion 132 to float can be efficiently discharged.

When the wastewater is treated by the sewage flotation apparatus for wastewater treatment according to an embodiment of the present invention as described above are as follows.

First, the coagulant-injected wastewater is introduced into the settling tank 110 through the wastewater inlet pipe 150 and filled. Inside the sedimentation tank 110, the scraper 140 is also rotated by the rotation of the drive motor 146 and the shaft 142, the sedimentation of the waste water is carried out to precipitate sludge having a large specific gravity by the flocculant. It is seated on the inner bottom of the precipitation tank (110). In this case, the scraper 140 scrapes the sludge and pushes it into the center of the inner bottom of the precipitation tank 110. And the sludge is discharged to the outside through the sludge discharge pipe (not shown) connected to the central portion of the inner bottom of the precipitation tank 110. Discharge pump 144 may be provided for discharging through the sludge discharge pipe.

As the sedimentation treatment is performed in the sedimentation tank 110, the sedimentation tank 110 is primarily filled with waste water, so the sedimentation treatment water that is first processed and moved upwards overflows to the upper portion of the sedimentation tank 110. However, since contaminants remain in the sedimentation treated water, it is sent to the floating tank 130 for secondary treatment. That is, the sedimentation treatment water is introduced into the sedimentation treatment water transport pipe 160 through the overflow water inlet 162, and the floating tank (with air injected into the sedimentation treatment water transport pipe 160 through the air injection pipe 170). Inflow to the bottom of the second tank (130b) of 130).

The sedimentation treatment water introduced into the floating tank 130 is floated by the air introduced together. That is, the contaminants are attached to the air and the specific gravity is lightened, so that the partition portion 132 inside the flotation tank 130 rises upwards well, and the contaminated material is separated from the flotation treatment water discharge pipe 180. It is discharged to the outside of the precipitation tank 110 through. Scum collected in the scum collector to rise upward is discharged through a separate pipe (390).

As such, in the sewage flotation apparatus for wastewater treatment according to an embodiment of the present invention, the flotation tank 130 is installed inside the precipitation tank 110, so that the precipitation process and the flotation process are continuously processed in a single device in a circulating manner. can do. Therefore, because there is no need to install the floating tank separately on a separate site, it is possible to reduce the installation area and the installation cost, thereby obtaining economic effects, and the effect of shortening the actual process time.

110: sedimentation tank 120: central tube
130: floating tank 130a: the first tank
130b: 2nd tank 132: partition part
140: scraper 142: shaft
144: sludge pump 146: drive motor
150: wastewater inlet pipe 160: sedimentation treatment water transfer pipe
170: air injection pipe 172: pressure tank
174: pressure pump 180: floating treatment water discharge pipe

Claims (6)

A sedimentation tank having a shape of a cylinder formed in the inner side thereof, the inner bottom of which is inclined downward toward the center, and the center of the inner bottom is recessed;
A central pipe installed vertically on the inner upper portion of the precipitation tank;
A floating tank having a hollow pillar shape formed to surround the central tube on an inner upper portion of the precipitation tank and having an empty inside;
A scraper rotatably mounted on an inner bottom of the sedimentation tank to scrape sludge settled on the inner bottom of the sedimentation tank so as to move to the center of the inner bottom;
A shaft, one end of which is mounted on an upper portion of the settling tank and the other end of which is mounted on an inner bottom center of the settling tank, the shaft being penetrated to the center of the scraper;
A drive motor mounted to an upper outer side of the precipitation tank and providing rotational force to the shaft;
A wastewater inlet pipe installed through the settling tank and the floating tank so that one end is located outside the settling tank and the other end is located inside the central pipe;
A sedimentation treatment water transfer pipe having an upper end connected to an upper portion of the sedimentation tank and a lower end penetrating the sedimentation tank and connected to a lower portion of the floating tank;
An air injection pipe connected to the sedimentation treatment water transport pipe outside the precipitation tank;
A sedimentation flotation device for wastewater treatment comprising a flotation treatment water discharge pipe having one end connected to a position higher than the precipitation treatment water transport pipe and having the other end penetrating through the precipitation tank and positioned outside the precipitation tank. . The method according to claim 1,
The sedimentation water treatment pipe sewage flotation apparatus for waste water treatment, characterized in that the lower end is connected to the center of the floating tank. The method according to claim 1,
The sedimentation treatment water transport pipe sewage flotation apparatus for waste water treatment, characterized in that the lower end is installed eccentrically to the floating tank. 4. The method according to any one of claims 1 to 3,
The central tube is a sewage flotation device for wastewater treatment, characterized in that the bottom is extended to be tapered. 4. The method according to any one of claims 1 to 3,
The floating tank is formed to have a 'T' cross section including a first tank and a second tank having a smaller outer diameter than the first tank at a lower portion of the first tank, and the sedimentation treatment water inlet is the second tank. It is connected to the lower end, the flotation waste water treatment sedimentation apparatus, characterized in that connected to the lower end of the first tank. The method according to claim 5,
The flotation tank further comprises a partition portion formed to be inclined upwardly on the inner connection portion of the second tank and the first tank.

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