KR20120053272A - Sedimentation apparatus with improved hydraulic flocculating waterway - Google Patents

Abstract

PURPOSE: A settling apparatus equipped with an advanced hydraulic flocculation waterway is provided to omit the installation of a separate partition or rectifying board and apply a flocculation function to a settling basin by arranging a flocculation part in an overflow weir to block the movement of scum to the overflow weir. CONSTITUTION: A settling apparatus equipped with an advanced hydraulic flocculation waterway includes a body(40), an overflow weir(50), and a flocculation part(100). The flocculation part includes a flocculation waterway(120), a center introducing pipe(130), and an introducing part(110). The flocculation waterway is in the form of a circular string surrounded by an inner pipe(121) and an outer pipe(122). Baffles(123) are alternately arranged in the inner pipe and the outer pipe. The center introducing pipe is separately arranged in the flocculation waterway. A connecting waterway(131) is formed between the upper side of the center introducing pipe and the flocculation waterway. The flocculation waterway is separately arranged in the overflow weir to be floated.

Description

Sedimentation device with improved hydraulic flocculation channel {SEDIMENTATION APPARATUS WITH IMPROVED HYDRAULIC FLOCCULATING WATERWAY}

The present invention relates to a sedimentation device having an improved hydraulic flocculation channel for sedimentation after hydraulically mixing and flocculating the inflow raw water, and more specifically, the inflow of raw water flows into a sedimentation flow by a wet flow and then injected into the precipitation space. Even in continuous operation, the flow of raw water and sedimentation sludge can be stabilized to collect or concentrate the scum in the center while collecting or concentrating at high concentrations, and can extract high quality symbolic water. The present invention relates to a sedimentation device having an improved hydraulic flocculation channel that can operate as a mixed paper.

In general, in order to perform a series of processes for precipitating by administering a flocculant to the raw water in the water treatment system, a mixed paper, which is a mixed flocculant, is mixed with a blender to produce a micro floc. Agglomerated paper that increases in volume to form flocs, and sedimentary land that precipitates flocs formed to sludge and extracts supernatant must be installed.

However, the separate installation of the mixed paper, the flocculated paper and the settled paper and the pipe connection to each other takes up a lot of installation space, and requires the power for starting the blender and the flocculator and the power for transferring the raw water. This has led to difficulties in terms of facility space and operating costs.

As a conventional technique for solving such a difficulty, there is a Korean Patent Application Publication No. 10-2006-0000542 "Powerless Water Purifier". The prior art is a condensed water is installed with a water supply tank, a water supply tank and a dropping tank supplying raw water and chemicals, the primary rectifying plate, the sedimentation basin inlet, the sedimentation basin inlet and the sedimentation basin is installed at the end of the agglomeration channel It comprises a plurality of inclined plates and overflow wear installed in the sedimentation basin by a secondary rectifying plate, a sedimentation basin, a partition wall.

The prior art configured as described above was capable of mixing, flocculating and sedimenting as one device, and extracting the symbolic water while maintaining the flow of raw water by using the rectifying plate, the rectifying plate, the partition wall, and the inclined plate.

However, the prior art has a complicated structure in which a condensed water channel constituted by a wet type is mounted on the outside of the overflow wear, and a separate partition wall must be installed to block a scum. In addition, a rectifying plate had to be installed to slow down the flow of raw water.

As a result of such a complicated structure, it was not possible to utilize the sedimentation basin which has been generally used, and eventually had to be replaced by the sedimentation apparatus configured in the prior art. In particular, the sedimentation basin or thickening tank is a device for extracting the symbolic water by sedimenting and condensing raw water or sludge in the same way. In the conventional cylindrical sedimentation basin could not be used even more.

On the other hand, the concentration tank is generally provided with a monthly wear for extracting the symbol water, it is configured to block the scum when extracting the symbol water. However, even if the scum is blocked, when the symbolic water flows into the overflowware, the bubble-shaped scum is removed and some contaminants included in the scum are swept away by the symbolic water. Therefore, it was difficult to obtain clean symbol numbers.

KR 10-2006-0000542 A 2006.01.06.

Accordingly, an object of the present invention is to provide a waterway without using power, but does not need to install a separate partition wall to block scum and does not need to install a rectifying plate, thus simplifying the structure, thereby recycling the conventional sedimentation basin. It is to provide a sedimentation device having an improved hydraulic flocculation channel that also serves as a flocculation basin.

Another object of the present invention is to provide a precipitation apparatus having an improved hydraulic flocculation channel which can be easily applied to both a sedimentation basin and a concentration tank.

In order to achieve the above object, the present invention, the upper body is formed in a cylindrical body to form a narrow inner diameter toward the lower and the body 40 to receive the raw water through the inflow channel 10; Overflow wear 50 is formed along the upper inner surface of the body 40 and continues to the discharge passage 20; In the sedimentation device having an improved hydraulic coagulant channel comprising a, the inner tube 121 and the bottom side of the outer surface 122 are connected to each other to form a cohesive channel 120, the cohesive channel 120 The baffles 123 are alternately formed in the inner tube 121 and the exterior 122 while being arranged, and the center input tube 130 having the upper and lower openings spaced apart from the inner side of the agglomeration channel 120 is disposed in the center. It is formed by forming a connection channel 131 connecting the upper portion of the tube 130 and the agglomeration channel 120, spaced inside the overflowware 50 and the upper portion of the inside of the body 40 After being placed in the form of floating in, the flocculation unit 100 is installed to continue to the flocculation channel (120); It characterized by having a.

In addition, the present invention, the body (40, 40 ') receiving the raw water through the inlet (10, 10'); And overflowwares 50 and 50 'formed along the upper inner surface of the bodies 40 and 40' and connected to the discharge channels 20 and 20 '. In the precipitation device comprising a first precipitation portion (1) and a second precipitation portion (2) each provided with, the second precipitation portion (2), the bottom surface side of the inner tube 121 and the outer surface (122) Forming the condensed water channel 120 by connecting to each other, while forming the baffle 123 alternately to the inner tube 121 and the outer surface 122 while following the condensed water channel 120, the top and bottom opening After the pipe 130 is arranged to be spaced apart inside the agglomeration channel 120 is configured to connect between the upper portion of the central input pipe 130 and the agglomeration channel 120 with a connection channel 131, After the spaced apart from the inside of the wearware (50) and arranged in the form floating on the upper portion of the inside of the body 40, the condensed water channel 120 is the inflow channel 10 of the second precipitation section (2) Agglomerating portion 100 connected to; And,

It is characterized in that to connect the discharge channel 20 'of the first precipitation unit 1 and the inflow channel 10 of the second precipitation unit 2 with each other.

In addition, the present invention, the body (40, 40 ') receiving the raw water through the inflow channel (211, 212), and formed along the upper inner surface of the body (40, 40') and the discharge channel (221, 222) A first sedimentation unit 1 and a second sedimentation unit 2 each having a wall wear 50 and 50 'connected to each other; Distribution tank 210 for distributing the raw water supplied to the inlet flow path (211, 212); In the precipitation apparatus comprising a, the second precipitation portion 2, the inner tube 121 and the bottom side of the outer surface 122 are connected to each other to form a flocculation channel 120, the flocculation channel The baffle 123 is alternately formed in the inner tube 121 and the exterior 122 while following the 120, and the central input tube 130 having the upper and lower openings is spaced apart from the inside of the agglomeration channel 120. After the upper portion of the central input pipe 130 and the condensed water channel 120 is configured by connecting the water channel 131, spaced inside the overflowware 50 and in the interior of the body 40 Flocculation unit 100 is installed in the form floating on the upper; And,

The inlet passage 212 of the second precipitation unit 2 is connected to an upper portion of the central input pipe 130 connected to the agglomeration channel 120, and the discharge passage 221 of the first precipitation unit 1 is connected. ) Is connected to the agglomeration channel 120 using the series connection channel 231, and then, the outlet channel 221 of the first precipitation unit 1 and the series connection channel 231 are connected to each other. The three-way valve 230 is installed at the connection point to supply the symbol water recovered in the first precipitation unit 1 to the second precipitation unit 2 or to be discharged through the discharge water passage 221. do.

The agglomeration part 100 blocks the midway of the agglomeration channel 120 with one partition wall 124, connects a space on one surface of the partition wall 124 to the connection channel 131, and a partition wall ( The other side of the space 124 is characterized in that the raw water inlet space 113 to be connected to the inflow channel 10 or the series connection channel (213).

At the upper end of the exterior 122 of the portion forming the raw water inflow space 113, a first support 111 is formed in the upper direction, and the end of the inflow channel 10 or the series connection channel 213 It is characterized in that the raw water inlet 11 is supported on the upper end of the first support 111, to drop the incoming raw water to the raw water inlet space 113.

The upper portion of the first support 111, characterized in that to form a second support 112 for fixing the chemical inlet 31 for injecting the drug on the same vertical line as the raw water inlet 111.

The baffle 132 is alternately formed on both sidewalls while following the connection channel 131.

Therefore, the present invention constituted as described above, by arranging the flocculation part 100 to flow the inflow of raw water in a stream-like manner or stabilizing the inside of the overflowware 50 to be surrounded only by the flocculation part 100. Since the scum is gathered, the scum can be prevented from going to the overflowware 50, and the structure is simple without installing a separate partition or rectifying plate, and it can be configured by recycling the sedimentation basin used or manufactured conventionally. Equipped.

In addition, the present invention is configured to mix the inlet portion 110, which serves as a mixed paper by a hydraulic drop, can be easily mounted to the agglomerated portion 100, and keeps the flow of raw water at a low speed to sludge Symbolic water can be extracted with high concentration.

In addition, the present invention can be configured to settle the concentration of the symbol water discharged from the concentration tank again by being installed at the rear end of the concentration tank, accordingly, the extraction process of the symbol water can be operated in a continuous manner rather than batch or semi-batch. Can be mad.

1 is a perspective view of a precipitation apparatus having an improved hydraulic flocculation channel according to an embodiment of the present invention.
2 is a cross-sectional view of a precipitation apparatus having an improved hydraulic coagulation channel according to an embodiment of the present invention.
Figure 3 is a top view of the sedimentation device having an improved hydraulic flocculation channel according to an embodiment of the present invention.
4 is a perspective view of a sedimentation apparatus having an improved hydraulic flocculation channel according to another embodiment of the present invention.
5 is a perspective view showing a conventional concentration tank.
Figure 6 is a perspective view showing an embodiment applying the present invention to the conventional thickening tank shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. It should be noted that, in the drawings, the same reference numerals are used to denote the same or similar components in other drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view of a precipitation apparatus having an improved hydraulic coagulation channel according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the precipitation apparatus having an improved hydraulic coagulation channel according to an embodiment of the present invention, Figure 3 is a view of the present invention Top view of a precipitation apparatus having an improved hydraulic flocculation channel according to an embodiment.

As shown, the precipitation apparatus having an agglomeration channel according to an embodiment of the present invention includes a body 40 for storing and precipitating raw water and a overflowware 50 formed on the upper inner circumferential surface of the body 40. Body 40 constituting the precipitation device and the overflow wear 50 is generally known, and will be described briefly.

The body 40, the upper portion is formed in a cylindrical shape and the inner diameter is gradually narrowed as the lower portion is lowered to the bottom, can hold the raw water supplied through the inflow channel 10, and, the sedimentation sludge in the lower portion Gather together to collect. In the embodiment of the present invention, the sludge discharge port 41 is formed at the lower end of the body 40 so that the sludge discharge port may be removed through the sludge discharge port 41, but is not limited thereto. A scraper (not shown) or caterpillar chain (not shown) may be installed on the inner lower side of the body 40 to collect and discharge the sediment sludge.

The overflow wear 50 is formed along the upper inner circumferential surface of the body 40 to allow the raw water contained in the body 40 to overflow. Specifically, the overflow wear 50 is formed on the horizontal surface of the bottom surface of the circular band-shaped protruding along the upper inner circumferential surface of the body 40, the overflow beam 51 bent upwards at the end of the bottom surface formed It is configured to surround the inner circumferential surface. Therefore, the overflow wear 50 is formed in the upper inner circumferential surface of the body 40 and the overflow beam 51 is formed in the form of concentric circles to form a wall of the channel, the quantity of raw water contained in the body 40 With this increase, the raw water flowing over the overflow stream 51 is contained in the overflow wear 50 and is discharged through the discharge channel 20. Meanwhile, a bubble-like scum is generated on the surface of the raw water contained in the body 40, and the scum includes floating contaminants that do not sink to the bottom surface of the body 40, as shown. In general, a swirl stream 52 having a sawtooth-shaped projection formed on the upper end of the overflow stream 51 prevents the bubble-shaped scum from falling into the overflow wear 50.

The precipitation apparatus having an improved hydraulic flocculation channel according to the present invention further includes a flocculation part 100 disposed on the water surface of the raw water contained in the body 40 and surrounded by the overflowware 50. .

The agglomeration part 100, the agglomeration channel 120 formed in the form of a circular band, the central input pipe 130 is disposed inside the agglomeration channel 120 and continues to the agglomeration channel 120, the It is configured to include an inlet 110 formed in the condensation channel 120.

The agglomeration channel 120 is arranged to form concentric circles of the inner tube 121 and the outer tube 122 having a cylindrical shape having a short length, respectively opening up and down, and to connect the lower ends of the inner tube 121 and the outer tube 122 to each other. As a result, the bottom surface is blocked and formed in a circular strip-shaped channel surrounded by the inner tube 121 and the outer tube 122. In addition, the agglomeration channel 120 is provided with baffles 123 alternately formed in the inner tube 121 and the exterior 122 while following a circle. That is, the baffle 123 is formed to protrude on the inner surface of the inner tube 121 and the outer surface 122 facing each other, but after forming the inner tube 121 at regular intervals while following the agglomeration channel 120, the outer appearance ( 122) is repeatedly made so that the raw water flows in a zigzag form while hitting the baffle 123 along the condensed water channel 120.

The agglomeration conduit 120 is surrounded by the overflowware 50 while being horizontal and is spaced apart from the overflowware 50 while maintaining a constant distance therebetween, so that the condensed water channel 120 is disposed at an upper portion in the interior of the body 40. It has an injured form, that is, injured in the surface of the raw water filled in the body 40.

The central input pipe 130 is formed in a cylindrical shape of the upper and lower spaced apart from the inside of the condensation channel 120, the upper side of the connection channel 131 to connect with the condensation channel 120 To be provided. Accordingly, the raw water flowing through the condensed water channel 120 flows into the central input pipe 130 via the connection channel 131, and then flows downward to flow into the body 40. do.

In addition, the connection channel 131 alternately forms baffles 132 on both side walls in the same form as the agglomeration channel 120.

Here, the bottom surface of the condensation channel 120 and the connection channel 131 may be close to the horizontal to smooth the flow of raw water, or, in consideration of the inflow rate of the raw water, the central input pipe 130 may be You can also make some downwards as you go.

On the other hand, the agglomeration channel 120, the connection channel 131 and the upper end of the central injection pipe 130 is installed above the water surface formed by the moon stream 52 of the overflow wear 50 By doing so, the raw water contained in the body 40 is not introduced to the reverse.

In addition, the space between the agglomeration channel 120 and the central input pipe 130 is spaced apart, it is utilized as a scum stay space 140 that can collect and process scum generated on the surface of the raw water. That is, in the present invention, rather than mounting a separate scum blocking wall surrounding the water core of the raw water along the overflowware 50, the condensed water channel 120 and the central input pipe 130 forming a concentric circle. Allows you to collect scums by placement. Although not shown, the scum stay space 140 may be equipped with a known scum processing apparatus (not shown) for discharging scum.

On the other hand, the connection channel 131 is mounted to be in communication with the space on one side of the partition wall 124 to block the middle of the agglomeration channel 120 with one partition wall 124.

The inlet 110 is formed at the other surface side of the partition 124.

The inlet 110, the raw water inlet space 113 consisting of the space on the other side divided by the partition wall 124 of the agglomeration channel 120, the appearance of the part forming the raw water inlet space 113 ( 122, the first support 111 for supporting the raw water inlet 11 corresponding to the end of the inflow passage 10 is erected in the form extending in the upper direction to the upper end of the raw water inlet 11 The second support 112, which supports the chemical inlet 31 corresponding to the end of the chemical injection tube 30 is built up so that it is configured to include.

As the inlet 110 is configured as described above, the raw water inlet 11 and the chemical inlet 31 are disposed up and down on the upper side of the raw water inlet space 113, so that the raw water inlet 11 is formed. The raw water supplied through the medicine and the drug such as a coagulant supplied through the chemical inlet 31 may be dropped into the lower raw water input space 113, and the raw water and the chemical may be mixed with each other during the dropping. In addition, raw water and chemicals that are mixed while falling are further mixed by hitting the bottom surface of the raw water inflow space 113.

Referring to the extraction path of the supernatant water in the sedimentation device having an improved hydraulic coagulation channel configured as described above is as follows.

The raw water supplied through the inflow channel 10 falls into the raw water inflow space 113 through the raw water inlet 11, and at this time, the chemical is also introduced through the chemical inlet 31, so that the raw water falls from the raw water inlet 11. The raw water falls into the raw water inflow space 113 while being mixed with chemicals. Accordingly, the inlet 110 may serve as a mixed paper in the water purification system.

The raw water dropped into the raw water inflow space 113 flows in a circle along the agglomeration channel 120, and has a zigzag flow while colliding with the baffle 123, and further, the agglomeration channel 120 The flow rate is slow because it is level while drawing a circle. Therefore, the chemicals mixed in the raw water may play a role while flowing along the flocculation channel 120. For example, if the chemical agent is a flocculant, the raw water flows along the flocculation channel 120 and is included in the raw water. The condensate can be flocculated and flocculated, and the agglomeration channel 120 having such a coagulation function serves as a flocculant of the purification system.

The raw water flowing along the condensation channel 120 is introduced into the central input pipe 130 via the connection channel 131 after reaching the space on one side of the partition wall 124, and the central input pipe 130. After flowing in, it is dropped in a downward direction to be contained in the internal space of the body 40.

Here, the agglomeration part 100 including the agglomeration channel 120 and the central injection tube 130 is horizontal, but close to the surface of the water formed by the upper end of the wall 52 of the overflow wear 50 Since it is horizontal, the lower side of the central input pipe 130 is in a state immersed in raw water. Therefore, the flow rate of the raw water flowing into the body 40 through the central input pipe 130 is not fast, and does not float the sludge settled on the bottom of the body 40 inside.

On the other hand, the raw water introduced into the body 40 through the lower end of the central input pipe 130 is to rise, where the central input pipe 130 is surrounded by the condensed water passage 120, so that the injury of the raw water The scum generated by the agglomerate is collected on the surface of the scum staying space 140 corresponding to the agglomeration channel 120 and the central input pipe 130, and the agglomeration channel 120 which is an outer side of the agglomeration channel 120 is formed. ) Is not generated between the overflowware 50 and only a small amount even if it occurs, even if it occurs, it is completely blocked by the overflow 52.

Therefore, the raw water flowing into the overflowware 50 in the water surface portion between the condensed water channel 120 and the overflowware 50 is made up of only the symbol water blocking the scum, and the overflowware It is discharged through the discharge channel 20 communicated with (50).

On the other hand, the present invention can be applied to the sedimentation basin or condensation tank having a mixed paper and flocculation paper in the water treatment unit integrally, it may or may not be equipped with a chemical inlet 31 depending on the application purpose. For example, the present invention, as shown in Figures 1 to 3, the inlet 110 to serve as a mixing tank, the agglomeration channel 120 to serve as a flocculation basin, and acts as a sedimentation basin It is composed of a body 40 equipped with a ware 50 can be used as a sedimentation basin integrated with mixed paper and agglomerated paper, it can also be used as a thickening tank as shown in the embodiment of FIG.

In addition, although not shown in Figures 1 to 4, a support for fixing the aggregation portion 100 to the body 40 is also included.

As can be seen in the embodiment of Figures 1 to 3, the sedimentation apparatus according to the present invention is the inlet 110 to be mixed by the hydraulic drop, the flocculation channel 120 to agglomerate while the raw water flows into the well type It is possible to provide good mixing and aggregation without using power.

In addition, the sedimentation apparatus according to the present invention, since the flotation unit 100 to be mounted in the form of floating only in accordance with the water surface determined by the height of the moon weon 52 of the overflow wear 50, the previously used sedimentation basin Can also be used. And, in the precipitation apparatus according to the present invention, it is preferable to form the body 40 so that the flat cross section has a circular shape, but among the conventionally used and used sedimentation basins, the flat cross section forms four angles. Even if the condensing part 100 is attached to the sedimentation basin having a cross section, the condensing part 100 can be obtained without the form of the conventional sedimentation basin. Can be configured by mounting.

4 is a perspective view of a precipitation apparatus having an agglomeration channel according to another embodiment of the present invention.

The precipitation apparatus shown in FIG. 4 is composed of two precipitation units, the first precipitation unit 1 and the second precipitation unit 2, wherein the first precipitation unit 1 and the second precipitation unit 2 are As shown in FIGS. 1 to 3, the body 40 and 40 ′ are formed with the overflow wear 50 and 50 ′, and the aggregation part 100 is mounted only on the second precipitation part 2. do.

In addition, the first sedimentation unit 1 receives raw water directly into the body 40 'through the inflow passage 10', and discharges to the overflowware 50 'of the first sedimentation unit 1. (20 ') to the inlet 10 of the second settling section (2). On the other hand, in the embodiment of FIG. 4 does not have a chemical inlet 31 because it does not inject the chemical, but may be provided with a chemical inlet 31 as needed.

In the embodiment shown in Figure 4 the extraction path of the symbol number is as follows.

First, the first sedimentation unit 1 receives raw water through the inflow channel 10 'and extracts the symbolic water through the overflowware 50' while containing the inside of the body 40 ', and the first sedimentation unit. (1) is provided with a monthly flow 52 'of the overflow wear (50') can partially block the flow of scum into the overflow wear (50 '), and also includes a device (not shown) for collecting the scum Can be.

The symbol water extracted primarily using the first precipitation unit 1 is introduced into the raw water inflow space 113 via the inflow channel 10 of the second precipitation unit 2, and the introduced symbol water After flowing along the agglomeration channel 120 is contained in the body 40 of the second precipitation part 2 via the connection channel 131 and the central input pipe 130. Here, since the flow of raw water through the flocculation channel 120 and the coupling channel 131 has a flow rate of storage, the raw water remains stable even if it flows through the flocculation channel 120 and the coupling channel 131. By doing so, the enrichment process may proceed, and is pushed toward the central input pipe 130 by the raw water continuously introduced through the raw water inflow space 113.

The raw water reaching the central input pipe 130 is introduced into the body 40 through the lower end of the central input pipe 130 in the state of being contained in the body 40 of the second precipitation part 2, Since the flow of raw water has a low speed flow rate, the concentrated sludge is not suspended in the lower portion of the body 40 of the second precipitation part 2.

In addition, some of the concentrated sludge is stabilized through the condensation channel 120 and the connection channel 131 falls straight to the bottom and only the raw water relatively close to the symbolic water rises. At this time, the scum is generated on the surface by the floating contaminants, the injury of the raw water has a gentle flow rate, so that the floating contaminants are concentrated only inside the agglomeration channel 120 surrounding the central input pipe 130 and into the agglomerated water. It is not driven between the 120 and the overflowware 50. Therefore, the symbol water flowing into the overflowware 50 does not include a scum.

Then, the symbol water introduced into the overflowware 50 is discharged to the outside through the discharge channel 20 connected to the overflowware 50.

As described above, the embodiment of FIG. 4 may obtain the symbol water with improved water quality by stably depositing the symbol water extracted by the first precipitation unit 1 in the second precipitation unit 2, and the second precipitation unit ( In 2), the flow of raw water through the condensation channel 120, the connection channel 131, and the central input pipe 130 is stabilized while maintaining a low speed, and then supplied to the body 40 to concentrate in the body 40. Since the sludge can be maintained in a stable sedimentation state, only the symbol water obtained by concentrating the sludge to a high concentration and completely removing the sludge can be obtained.

In addition, when the first settling unit 1 is operated continuously, more contaminants are mixed in the symbol water extracted from the first settling unit 1 than the batch type or the semibatch type, but the second settling unit connected to the rear end is connected. Symbol water can be obtained by removing the contaminants through (2), and because the second precipitation unit (2) is operated in a continuous manner, the present invention can be applied to a concentration tank to improve the water quality of the symbol water even if operated in a continuous manner. .

5 is a perspective view showing a conventional concentration tank,

6 is a perspective view showing an embodiment in which the present invention is applied to the conventional concentration tank shown in FIG.

First, referring to FIG. 5 for the conventional thickening tank, the conventional thickening tank is configured to recover the supernatant by receiving the sludge through the sludge supply channel 201 and discharge it into the discharge channel 202. The sludge is formed through the inflow channels 211 and 212 to form a body 40 and 40 'for stabilization, and is formed along the upper inner surface of the bodies 40 and 40' to recover the symbol water to discharge the sludge. A first settling portion 1 and a second settling portion 2 equipped with the overflow wear 50 and 50 / that allow discharge through 221 and 222; Including a distribution tank 210 for distributing the sludge supplied to the sludge supply channel 201 to the inlet channel 211 of the first settling section 1 and the inlet channel 212 of the second settling section 2 It is composed. In addition, the inlet channel 211 is connected to the inlet channels 211 and 212 by mounting the inlet pipes 211a and 212a having the upper and lower openings mounted on the central upper side of the bodies 40 and 40 'of the precipitation units 1 and 2. , 212 to the sludge received in the center of the body (40, 40 '), and the discharge passage (221, 222) of the first and second sedimentation unit (1, 2) is joined to discharge the discharge channel (202) )

Therefore, the conventional thickening tank is provided with two settling units (1, 2) arranged in parallel to precipitate and concentrate the sludge to be distributed respectively to recover the supernatant water to be discharged, and to treat the concentrated sludge in a subsequent process such as a dehydrator. do.

As shown in FIG. 6, in the precipitation apparatus according to the embodiment of the present invention, the agglomeration unit 100 is modified by modifying the concentration tank of FIG. 5, and the second precipitation unit is formed in the first and second precipitation units 1 and 2. (2) and the first precipitation unit (1) and the second precipitation unit (2) is connected using a series connection channel (231).

Specifically, the agglomeration part 100 mounted on the second precipitation part 2 is the inlet part 110, the agglomeration channel 120 and the central input pipe 130 as shown in Figs. However, in the embodiment of FIG. 6, the second settling unit 2 receives sludge through the inflow channel 212 but receives the symbol water of the first settling unit 1 through the series connection channel 231. In order to be supplied through the), the series connection channel 231 is connected to the inlet 110 of the agglomeration unit 100 by way of the agglomeration channel 120 through the central input pipe 130 Followed, and furthermore, after mounting the inlet pipe 130a which is in communication with the center input pipe 130 up and down in the form extending to the top of the central input pipe 130, the input pipe 130 to the inlet ( 212), when the sludge is supplied through the inflow channel 212 is supplied sludge is introduced into the body 40 through the central input pipe 130. .

In addition, the series connection channel 231 is connected in the form of branching in the middle of the discharge channel 221 of the first precipitation unit 1, by installing a three-way valve 230 at the branch point 1, the symbol water recovered from the settling unit 1 is supplied to the second settling unit 2 through the series connection channel 231 according to the operation of the three-way valve 230 or the discharge channel 221 is provided. Discharge to the discharge channel 202 through.

In the embodiment of the present invention configured as described above, during the usual operation of the first and second settling units 1 and 2 in parallel, the sludge is first and second settling units 1 and 2 through the distribution tank 210. Distributing to the settling section (2) to collect the symbol water in parallel to the first and second settling section (1, 2), respectively, and discharged by joining the recovered symbol water, at this time, the first settling section (1) The three-way valve 230 is controlled so that the recovered symbol water is discharged into the oil and water duct 202.

Next, when operating the 1st, 2nd precipitation part 1 and 2 in series, it controls the distribution tank 210, and does not supply sludge to the 2nd precipitation part 2 only to the 1st precipitation part 1, The sludge is supplied, and the three-way valve 230 is controlled to be supplied to the second precipitation unit 2 without discharging the symbolic water of the first precipitation unit 1. As such, as the operation of the distribution tank 210 and the three-way valve 230, the sludge supplied to the sludge supply channel 201 is precipitated and concentrated in the first precipitation unit 1 to recover the supernatant water. It is supplied to the second precipitation part 2 through the series connection channel 231, and is discharged by being treated again with high quality symbol water by the aggregation part 100.

As described above, the embodiment of the present invention illustrated in FIG. 6 may be elastically operated to connect the first and second sedimentation units 1 and 2 in parallel or in series according to the quality of the sludge supplied. Improve the quality of the discharged symbol water.

On the other hand, the embodiment of the present invention shown in FIG. 6 has been described as a concentration tank for treating sludge, but may also be used as a precipitation tank for precipitating raw water.

Although illustrated and described in the specific embodiments to illustrate the technical spirit of the present invention, the present invention is not limited to the same configuration and operation as the specific embodiment as described above, within the limits that various modifications do not depart from the scope of the invention It can be carried out in. Therefore, such modifications should also be regarded as belonging to the scope of the present invention, and the scope of the present invention should be determined by the claims below.

10, 10 ': Inflow channel 11: Raw water inlet 20,20': Outflow channel
30: chemical injection pipe 31: chemical injection hole 40, 40 ': body
41: sludge outlet 50, 50 ': monthly wear 51: monthly report
52, 52 ': Wolyueon
100: agglomeration part
110: inlet 111: first support 112: second support
113: raw water inlet space 120: flocculation channel 121: inner tube
122: appearance 123: baffle 124: partition
130: central input pipe 131: connection channel 132: baffle
140: Scom staying space
210: distribution tank 230: three-way valve

Claims (9)

A body 40 which forms an upper portion of the cylindrical body and narrows the inner diameter toward the lower portion thereof and receives raw water through the inflow channel 10; Overflow wear 50 is formed along the upper inner surface of the body 40 and continues to the discharge passage 20; In the precipitation apparatus comprising a,
The inner surface of the inner tube 121 and the outer surface 122 are connected to each other to form an agglomeration channel 120, and the baffle 123 is connected to the inner tube 121 and the exterior 122 along the agglomeration channel 120. And alternately arranging the central input pipe 130 having the upper and lower openings spaced apart from the inside of the agglomeration channel 120, and then between the upper portion of the central input tube 130 and the agglomeration channel 120. It is formed by forming a connection channel 131 connecting the spaced apart in the inside of the overflow wear 50 and arranged in the form floating in the upper portion of the inside of the body 40, the cohesive channel 120 Agglomerating portion 100 is installed to follow the inflow channel 10;
Sedimentation apparatus having an improved hydraulic flocculation channel characterized in that it comprises a.
The method of claim 1,
The aggregation part 100,
The midway of the agglomeration channel 120 is blocked by one partition wall 124, the space on one side of the partition wall 124 is connected to the connection channel 131, and the space on the other side of the partition wall 124 is spaced above. Sedimentation apparatus having an improved hydraulic coagulation channel, characterized in that the raw water inlet space 113 leading to the inlet 10.
The method of claim 2,
On the upper end of the exterior 122 of the portion forming the raw water inflow space 113, the first support 111 is formed in the upper direction is formed,
By supporting the raw water inlet 11 which is the end of the inflow channel 10 to the upper end of the first support 111,
Sedimentation apparatus having an improved hydraulic condensation channel, characterized in that to drop the incoming raw water to the raw water inlet space (113).
The method of claim 3, wherein
On the upper portion of the first support 111,
Precipitating apparatus having an improved hydraulic coagulation channel, characterized in that to form a second support (112) for fixing the chemical inlet (31) for injecting the drug on the same vertical line as the raw water inlet (111).
The method according to any one of claims 1 to 4,
Sedimentation apparatus having an improved hydraulic coagulation channel, characterized in that the baffle (132) is formed alternately on both side walls along the connection channel (131).
Body 40, 40 'receiving the raw water through the inflow passage (10, 10'); And overflowwares 50 and 50 'formed along the upper inner surface of the bodies 40 and 40' and connected to the discharge channels 20 and 20 '. In the precipitation device comprising a first precipitation portion (1) and the second precipitation portion (2) each provided with,
The second precipitation part 2,
The inner surface of the inner tube 121 and the outer surface 122 are connected to each other to form an agglomeration channel 120, and the baffle 123 is connected to the inner tube 121 and the exterior 122 along the agglomeration channel 120. And alternately arranged in the upper and lower openings of the central input pipe 130 are spaced apart from the inside of the agglomeration channel 120, and then between the upper portion of the central input tube 130 and the agglomeration channel 120. It is configured by connecting to the connection channel 131, after being spaced apart in the inside of the overflow wear 50 and arranged in the form floating in the upper portion of the inside of the body 40, the cohesive channel 120 An agglomeration part 100 connected to the inflow channel 10 of the second precipitation part 2;
And
A sedimentation apparatus having an improved hydraulic coagulation channel, characterized in that to connect the discharge channel (20 ') of the first precipitation unit (1) and the inflow channel (10) of the second precipitation unit (2) with each other.
The method according to claim 6,
The aggregation part 100,
The midway of the agglomeration channel 120 is blocked by one partition wall 124, the space on one side of the partition wall 124 is connected to the connection channel 131, and the space on the other side of the partition wall 124 is removed. 2 sedimentation unit having an improved hydraulic coagulation channel, characterized in that the raw water inlet space 113 leading to the inlet channel 10 of the settling section (2).
Wakeware that is formed along the body (40, 40 ') receiving the raw water through the inflow channel (211, 212), and the upper inner surface of the body (40, 40') and connected to the discharge channel (221, 222) A first precipitation part 1 and a second precipitation part 2 each having 50 and 50 '; Distribution tank 210 for distributing the raw water supplied to the inlet flow path (211, 212); In the precipitation apparatus comprising a,
The second precipitation part 2,
The inner surface of the inner tube 121 and the outer surface 122 are connected to each other to form an agglomeration channel 120, and the baffle 123 is connected to the inner tube 121 and the exterior 122 while following the agglomeration channel 120. It is alternately formed in the upper and lower opening the central input pipe 130 is arranged to be spaced apart inside the agglomeration channel 120, and then connects the upper portion of the central input tube 130 and the agglomeration channel 120. Condensation unit 100 is configured to be connected to the water channel 131, spaced apart in the inside of the overflow wear (50) and installed in the form floating on the upper portion of the inside of the body (40);
Equipped with
Connect the inlet channel 212 of the second precipitation unit 2 to an upper portion of the central input tube 130 connected to the agglomeration channel 120,
After connecting the middle of the discharge passage 221 of the first precipitation unit 1 to the agglomeration channel 120 using the series connection channel 231, the discharge passage of the first precipitation unit 1 By installing a three-way valve 230 at the connection point of the 221 and the series connection channel 231 to supply the symbol water recovered from the first settling section 1 to the second settling section 2 or A sedimentation device having an improved hydraulic coagulation channel, characterized in that to be discharged through the discharge channel (221).
The method of claim 8,
The aggregation part 100,
The midway of the agglomeration channel 120 is blocked by one partition wall 124, the space on one side of the partition wall 124 is connected to the connection channel 131, and the space on the other side of the partition wall 124 is spaced above. Sedimentation apparatus having an improved hydraulic condensation channel characterized in that the raw water inlet space 113 to be connected to the series connection channel (231).

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