KR20100135374A - Multi-pipe sedimentation apparatus - Google Patents

Abstract

PURPOSE: A multi-pipe sedimentation apparatus is provided to maximize the precipitation rate of pollutant by increasing the loading rate of a liquid surface in a small processing area. CONSTITUTION: In a water tank body(100), a water input tank(110), a precipitation tank(120) and a drainage tank(130) are classified. In a precipitation pipe member, plural piles(141) are arranged in the multiple structure. The precipitation pipe member directly connects the water input tank to the drainage tank. An opening part is formed in each lower portion of the plural pipes. An air supply unit supplies air to the inside of the precipitation, and a discharge unit(160) discharges the separated foreign substance to the outside.

Description

Multi-layer Horizontal Pipe Liquid Precipitator {MULTI-PIPE SEDIMENTATION APPARATUS}

The present invention relates to a device for depositing contaminants contained in a liquid (water, sewage, wastewater) by gravity, and in particular, a multi-layer horizontal tube liquid precipitation device for maximizing the settling rate and maintenance of sediment contaminants by reducing the settling distance. It is about.

In general, the sedimentation basin is settled at the front end and settled at the front end for water treatment of the influent in a water treatment plant, sewage or wastewater treatment plant. This facility is installed to improve the efficiency of water treatment, such as removing pollutants.

However, existing sedimentation equipment stores liquids (water, sewage, and wastewater) to precipitate sediment by gravity, or shortens the sedimentation distance by installing upflow slope plates (pipes) to reduce land area and settle. Although the efficiency has been increased, existing sedimentation and settling sites have long sedimentation distance, which leads to low sedimentation efficiency and a large amount of treatment volume (area) for treatment efficiency. Difficult to remove the sediment attached to the sedimentation plate (pipe), the maintenance costs are incurred and the floating material such as flocs (floc) is released.

The present invention has been made to solve the above problems, the sedimentation distance is short, and by increasing the surface loading rate at a small treatment volume (area), to maximize the precipitation rate of contaminants and to prevent the outflow of suspended solids, easy to process the sediment In addition, the object of the present invention is to provide a multi-layer horizontal tube liquid precipitation apparatus which makes the maintenance of the facility very convenient.

The present invention for achieving the above object is a water tank body formed by the partition wall A and partition wall B and the sedimentation tank and the drain tank, respectively; Passing through the partition A and the partition B directly connects the intake tank and the drainage tank of the tank body, and passes through the inside of the settling tank, a plurality of pipes to form a downwardly discharged sediment by openings formed in the longitudinal direction at each lower end And settling pipe member is arranged in a multi-layer structure; An air supply means installed at a lower portion of the internal precipitation pipe member of the precipitation tank and supplying air by an external air supply device to generate bubbles in the precipitation tank; It comprises a discharge means for collecting foreign matter, such as sediment and suspended matter separated from the treated water and discharged to the outside.

In the present invention, the sedimentation tube member has an inclined inclination of the inlet tank side higher than the drainage tank side, and the tubular body of each layer constituting the multilayer structure is arranged to be shifted between each other up and down.

In the present invention, the discharge means is installed at the lower end of the settling tank, and the hopper connected to the sediment discharge pipe to the outside; It is installed so that the inlet is located on the upper surface of the settling tank and the inlet tank and includes a float discharge pipe to discharge the float floating on the water surface.

In the present invention, the sedimentation tank is to be distinguished by one or more separation walls, characterized in that the lower end of the separation wall is connected to each other in communication.

In the present invention, the water tank has a rectifying wall A to interfere with the flow of water to increase the rectification efficiency, the front of the water tank is installed induction space to increase the efficiency by adjusting the speed of the water flowing into the water tank It is characterized by.

In the present invention, the drainage tank is provided with a rectifying wall B to increase the rectification efficiency by interfering with the flow of water, the inlet of the drainage pipe for discharging the rectified water is characterized in that a plurality of holes perforated perforated is installed It is done.

As described above, according to the present invention, the liquid settling distance is small, and the surface loading rate is increased at a small processing volume (area) to maximize the settling rate of contaminants and to effectively treat the floating matter such as floc. It is easy to remove and treat contaminants attached to horizontal pipe settler, and it is effective to achieve economic water treatment by reducing maintenance and cost.

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

1 is a plan view showing the liquid precipitation apparatus according to the present invention in an open state, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, FIG. 3 is a cross-sectional view taken along line BB of FIG. 1, and FIGS. 4a and 4b are shown in FIG. FIG. 5 is a view showing an operating state of the liquid precipitation apparatus according to the present invention, and FIG. 5 is a partially enlarged view showing the operating state in the portion A of FIG.

As shown in the figure, the liquid precipitation apparatus according to the present invention is installed in connection with a liquid outflow conduit (not shown) such as, for example, a sewage conduit for transporting and discharging liquid such as purified water, sewage, and wastewater to a predetermined destination. .

Embodiment of the present invention is composed of the tank body 100 and the sedimentation pipe member 140 and the air supply means 150 and the discharge means 160 installed in the tank body 100.

The water tank body 100 is formed by the partition wall A (115) and the partition wall (B) 125 so that the acquisition tank 110, the settling tank 120 and the drain tank 130, respectively.

The settling pipe member 140 is a plurality of pipes 141 is arranged in a multi-layer structure through the partition A 115 and the partition B (125) through the acquisition tank 110 and the drain tank of the tank body 100 Directly connecting 130, it is installed to pass through the inside of the settling tank 120.

Each of the tubular bodies 141 is formed so that the openings 142 are formed to extend in the longitudinal direction at the lower end thereof to discharge the precipitates downwardly.

The sedimentation pipe member 140 is installed in the inlet tank 110 side higher than the drain tank 130 side as shown in Figure 2 is an oblique inclination, as shown in Figure 3 also has a multi-layer structure The tubular body 141 of each layer is characterized by being arranged to be shifted between each other up and down.

The air supply means 150 is installed at the lower portion of the internal sedimentation tube member 140 of the sedimentation tank 120 to introduce the air supplied from the external device (compressor) not shown into the sedimentation tank 120. Air supply pipe 151 and the air supplied by the air supply pipe 151 is composed of a diffuser 152 to eject evenly to the lower portion of the settling pipe member 140 of the settling tank 120.

That is, by supplying air by the external air supply device to generate bubbles in the sedimentation tank 120 while raising the air bubbles on the outer surface or the inside of the pipe body 141 of the sedimentation pipe member 140, sediment or suspended matter in the pipe body To prevent it from sticking and solidifying.

The discharge means 160 includes a hopper 161 and a suspended matter discharge pipe 163 to collect foreign substances such as sediment and suspended matter separated from the treated water and discharge them to the outside.

The hopper 161 is installed in the lower portion of the settling tank 120, and is for collecting the precipitates that settle out of the opening 142 of the tube 141.

A sediment discharge pipe 162 for discharging the sediment collected by the hopper 161 to the outside of the tank body 100 is connected to the central portion of the hopper 161.

The hopper 161 is installed in a size that can cover the entire sedimentation tank 120 to collect the sediment from the sedimentation pipe member 140 installed in each space partitioned by the separation wall 121, the sediment discharge pipe Discharge through (162).

The sediment is sent to a separate sediment treatment facility to be treated along the sediment discharge pipe 162, and is preferably pumped by installing a pump (not shown) in the middle.

The intake tank 110 and the drainage tank 130 are spaced above the hopper 161 to correspond to the settling pipe member 140 positioned above the hopper 161, and upwards thereof. Preferably formed.

In addition, the sediment discharge pipe 162 is connected to the suspended matter discharge pipe 163 for discharging the suspended matter as well.

The float discharge pipe 163 serves to suck the float floating on the water surface of each of the spaces of the settling tank 120 partitioned by the water inlet tank 110 and the separation wall 121 to transfer to the precipitate discharge pipe 162. do.

That is, the float discharge pipe 163 is installed so that the inlet is located on the upper surface of the settling tank 120 and the acquisition tank 110 to discharge the float floating on the water surface of each space.

The sedimentation tank 120 is to be separated by one or more separation walls 121, but the lower end of the separation wall 121 is connected to each other to communicate.

The acquisition tank 110 is provided with a rectifying wall A (111) to increase the rectification efficiency by interfering with the flow of water, and in front of the acquisition tank 110 by adjusting the speed of the water flowing into the acquisition tank 110 An induction space 170 is additionally installed to increase the efficiency, and an inlet pipe 101 is installed in the induction space 170 to connect the inflow tank 110 and the liquid outlet conduit to each other. .

Therefore, as shown in FIG. 1, the liquid for water treatment flowing from the inlet pipe 101 by the induction space 170 flows in a zigzag form to enter the inlet tank 110 to adjust its flow rate.

In addition, the drainage tank 130 is provided with a rectifying wall B (131) to increase the rectification efficiency by interfering the flow of water, a plurality of holes are drilled in the inlet of the drain pipe 180 for discharging the rectified water. The mission 181 is attached.

In this embodiment of the present invention, the sedimentation pipe member 140 is installed to be inclined toward the drainage tank 130, and the liquid in the water inlet tank 110 is formed through the opening 142 formed in the form of a long hole in the lower portion. In the process of moving to the sewage tank 130 by the sedimentation tube member 140, contaminants exit the sedimentation tank 120 through the opening 142 by its own weight.

The sedimentation tube member 140 is densely installed in the sedimentation tank 120 at predetermined intervals up, down, left, and right to minimize the change of the flow of the liquid and the flow amount thereof so that the contaminants escape to the sedimentation tank 120.

The cross-sectional shape of the precipitation tube member 140 may be any one of a square, a round, and an oval.

That is, while the liquid in the inlet tank 110 moves to the drainage tank 130 through the settling pipe member 140, the contaminants contained therein exit through the opening 142, such as soil and sand. Larger specific gravity sedimentation strong sediment mainly exits and is collected in the hopper (161).

The precipitate exiting the opening 142 is gravity and is precipitated by the hopper 161 installed at the bottom of the sedimentation tank 120 along the gap between the sedimentation tube member 140.

Occasionally, floating materials, such as dirt, dust, oil, grease, etc., may come out through the opening 142, which floats on the surface of the settling tank 120 and floats.

However, most of the suspended matter rises up the settling pipe member 140 and collects in the inlet tank 110.

That is, since the settling pipe member 140 is higher than the inlet tank 110 side, the float rises on the settling pipe member 140 to raise the water surface of the inlet tank 110. Gather up

The sedimentation tube member 140 increases the sedimentation efficiency of the precipitate by forming a smaller sedimentation distance than the conventional sedimentation apparatus. That is, since the settling distance of the settling pipe member 140 will be the inner diameter of each pipe 141, the settling distance is small, thereby greatly increasing the settling efficiency of the precipitate.

As such, the liquid from which the precipitate and the suspended matter are removed by passing through the sedimentation pipe member 140 is collected in the drainage tank 130 and then drained to the outside through the drainage pipe 180.

It is preferable to install the porous pipe 181 connected to the drain pipe 180 in the drain tank 130 to drain the outflow flow rate constantly while filtering the liquid in the drain tank 130 by the porous plate. The rectifying wall A 111 and the rectifying wall B 131 are respectively installed in the water tank 110 and the drain tank 130 so as to be spaced apart from the bottom surface, and the rectifying wall A 111 and the rectifying wall B 131, respectively. ) To interfere with the flow of water to increase the rectification efficiency.

In addition, the settling tank 120 is preferably divided into a plurality of spaces by one or more separating walls 121, wherein the settling pipe member 140 is installed through the separating wall 121.

When the settling tank 120 is partitioned into a plurality of spaces through the dividing wall 121 as described above, since the flow in the horizontal direction of the liquid is blocked by the dividing wall 121, the settling pipe member 140 is separated. The sediment that exits can be settled to the bottom stably without being affected by the horizontal flow, and the separation wall 121 also serves to support the settling pipe member 140.

On the other hand, as shown in Figure 4b, the settling tank 120 is provided with an diffuser 152 for cleaning the settling pipe member 140 by itself.

The diffuser 152 is installed between the settling pipe member 140 and the hopper 161 in the space of the settling tank 120 partitioned by the dividing wall 121.

The diffuser 152 installed as described above supplies air from the outside to the respective spaces to clean the contaminants attached to the settling pipe member 140 while the air is raised by buoyancy.

That is, bubbles generated from the diffuser 152 rise through the gaps of the settling pipe member 140 to remove and clean the contaminants caught on the outer wall surface of the settling pipe member 140, and further, the openings ( Entering the inside of the settling pipe member 140 through the 142 to remove the contaminants caught on the inner wall surface of the settling pipe member 140 to clean.

At this time, the contaminants cleaned from the outer wall surface of the sedimentation tube member 140 is suspended above the water surface of the respective spaces and discharged to the sediment discharge tube 162 through the float discharge tube 163, the sedimentation tube member 140 The contaminants cleaned from the inner wall surface of the) is floated on the water surface of the intake tank 110 along the settling pipe member 140 and then discharged to the sediment discharge pipe 162 through the float discharge pipe 163.

As such, the diffuser 152 effectively cleans up the contaminants caught on the inner / outer wall surface of the settling pipe member 140 so that the inside and the gaps of the settling pipe member 140 are blocked, that is, blocked by the contaminants. By preventing the maintenance of the settling pipe member 140 is to facilitate.

The present invention relates to a water treatment device, which is a technology to remove and purify foreign substances contained in water very efficiently at the time when there is a fear of water shortage due to a sudden increase in demand for water. As an applicable technology, the technology is highly applicable to the industry.

1 is a plan view showing an upper open state of the liquid precipitation apparatus according to the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view taken along the line B-B in FIG.

4a and 4b are views showing the operating state of the liquid precipitation apparatus according to the present invention.

Fig. 5 is a partially enlarged view showing an operating state in the display portion A of Fig. 3;

* Explanation of symbols for main parts

100: tank body 101: water supply pipe

110: water tank 111: rectifying wall A

115: bulkhead A 120: sedimentation tank

121: partition wall 125: partition B

130: sump 131: rectifying wall B

140: sedimentation tube member 141: tube body

142: opening 150: air supply means

151: air supply pipe 152: diffuser

160: discharge means 161: hopper

162: sediment discharge pipe 163: float discharge pipe

170: induction space 180: drain pipe

181: porous tube

Claims (6)

A water tank body (100) formed by partition walls (A 115) and partition walls (B) 125 so that an inlet tank 110, a precipitation tank 120, and a drain tank 130 are divided; Through the partition A 115 and the partition B (125) to directly connect the intake tank 110 and the drain tank 130 of the tank body 100, and to pass through the interior of the settling tank 120, respectively A settling pipe member 140 having a plurality of pipes 141 arranged in a multi-layered structure in which an opening 142 is formed at a lower end in a longitudinal direction to discharge the sediment down; An air supply unit 150 installed at a lower portion of the internal precipitation pipe member 140 of the precipitation tank 120 to supply air by an external air supply device to generate bubbles in the precipitation tank 120; Multi-layer horizontal tube liquid precipitation apparatus comprising a discharge means 160 for collecting foreign substances such as sediment and suspended matter separated from the treated water and discharged to the outside. The method of claim 1, The settling pipe member 140 is The water inlet tank 110 side than the water tank 130 side is formed in an oblique inclination, the multi-layered horizontal pipe liquid precipitation apparatus, characterized in that the pipe 141 of each layer constituting a multi-layer structure is arranged between the top and bottom. The method of claim 1, The discharge means 160 is A hopper 161 which is installed at the lower end of the settling tank 120 and connected to the sediment discharge pipe 162 which communicates with the outside; The settling tank 120 and the inlet is installed on the upper surface of the water tank 110, the multi-layer horizontal pipe liquid precipitation apparatus comprising a float discharge pipe 163 to discharge the suspended matter suspended on the water surface. The method according to claim 1 or 3, The sedimentation tank 120 is to be separated by one or more separation walls 121, the lower end of the separation wall 121 is a multi-level horizontal tube liquid precipitation device, characterized in that the communication. The method of claim 1, The acquisition tank 110 A rectifying wall A (111) is provided to increase the rectification efficiency by interfering with the flow of water, and the induction space to increase the efficiency by adjusting the speed of the water flowing into the inlet tank 110 in front of the inlet tank (110). Multi-layer horizontal tube liquid precipitation apparatus, characterized in that 170 is installed. The method of claim 1, In the sump 130 It is provided with a rectifying wall B (131) to increase the rectification efficiency by interfering with the flow of water, and the inlet of the drain pipe 180 for discharging the rectified water is characterized in that a plurality of holes perforated pipe 181 is installed Multi-layer horizontal tube liquid precipitator.

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