KR20020043949A - Put-together Upflow Inclined-plate Separator System and Rectangular Reservoir for Settlement by Gravity Comprising the System - Google Patents

Abstract

The removable upflow inclination plate system according to the present invention is characterized in that it includes a plurality of units including a plurality of detachable inclination plates and an inclination plate frame having grooves on the inner sidewalls to accommodate the inclination plates as basic structural units. In addition, the rectangular gravitational sedimentation according to the present invention comprises a removable upflow inclined plate system comprising a plurality of basic structural unit comprising a plurality of removable inclined plate and the inclined plate frame having a groove in the inner side wall to accommodate the inclined plate. It is done.

By using the removable upflow slope plate system and the rectangular gravity settler including the same, the sedimentation efficiency can be improved without changing the basic structure of the existing rectangular gravity settler, thereby saving cost and time. have. In addition, it is possible to separate and move each basic structural unit and each inclined plate, it is possible to effectively and easily maintain and maintain the sedimentation basin.

Description

Put-together Upflow Inclined-plate Separator System and Rectangular Reservoir for Settlement by Gravity Comprising the System}

The present invention relates to a removable upflow swash plate system. More specifically, the present invention relates to a removable upflow inclined plate system including a plurality of basic structural units consisting of a plurality of removable inclined plates and inclined plate frames.

The type of settling basin varies with the method of settling. For example, a sedimentation basin using centrifugation, a sedimentation basin using an flotation aid such as Actiflo, to improve sedimentation efficiency, and a sedimentation basin using air flotation. However, many existing water purification plants already have a rectangular sedimentation basin which is settled using gravity. Gravity sedimentation basins are large-scale sedimentation basins that settle flocs formed by flocculation by gravity and require a residence time of about 3 to 5 hours. For floc to settle well in such gravity settler, the fluid flow in the settler must remain uniform throughout its width and depth. In practice, however, it is very important to maintain a uniform flow of fluid in the sedimentation basin due to the formation of short-circuit flows due to density differences due to temperature differences or turbidity differences between the influent and the sedimentation basin, and wind or structural irregularities in the outflow and inflow sections. It is difficult. Moreover, in the reality that the demand for water is steadily increasing, if a limited capacity settling basin cannot cover the throughput, it has no choice but to increase the load of water and reduce the residence time. This increase in water load and decrease in residence time decreases the floc removal efficiency, which in turn increases the load on the filter paper, leading to undesirable problems such as shortening of the filtration duration, formation of mud balls, and the like.

In the case of newly constructed water purification plants, various types of sedimentation basins can be installed using new technologies to prevent the above problems.However, in the case of water purification plants where rectangular gravitational sedimentation basins are already installed, the large scale sediments are removed and new Building a settler is a huge burden in terms of cost and time. Accordingly, the present inventors have found a way to improve the sedimentation efficiency while using the existing rectangular gravity sedimentation basin.

One of them has been the use of horizontal flow ramps and clarifiers to ameliorate the problems of conventional rectangular gravity clarifiers. Here, "horizontal flow type" refers to a manner in which the direction of raw water supplied to the inclined plate is horizontal to the inclined plate. However, since the horizontal flow type inclined plate must extend to the bottom of the sedimentation basin, it is difficult to operate the sludge automatic collector, and the inclined plate stacked in three stages is difficult to maintain or clean. Due to these shortcomings, the horizontal flow type inclined plate prevents the smooth flow of water flow due to the flocs accumulated on the inclined plate except for the initial installation, and even the inclined plate is broken because it cannot support the weight of the floc.

An upflow inclined plate is effective for solving the above problems. Here, the "upflow type" refers to a manner in which the direction of raw water supplied to the inclined plate is directed from the bottom of the inclined plate to the top. In the case of the upflow inclined plate is installed in one stage on the top of the sedimentation basin easier to clean than the horizontal flow inclined plate, it is easy to collect the floc settled on the bottom of the sedimentation basin with the sludge automatic collector. In addition, since there is little effect due to density or short-circuit flow, there is an advantage that can prevent a decrease in precipitation efficiency. Upflow slope plate having this advantage can be installed in various forms depending on the installation method. Many upflow ramps are now commercially available. However, most of the conventional upflow type inclined plates are formed integrally with the inclined plate frame, and the inclined plate and the inclined plate frame integrally formed are fixed to the entire settling basin. The sedimentation basin using most of these upflow slope plates has a problem that it is very difficult to efficiently clean and manage the slope plates installed. In addition, the cleaning or maintenance, such as maintenance of the sedimentation basin should be temporarily stopped, there was a problem that the solid-liquid separation efficiency of the sedimentation basin is lowered.

The present invention is to solve the problems of the prior art as described above, the object of the present invention is to improve the settling efficiency, while changing the basic structure of the existing rectangular gravity settler to save cost and time, while at the same time inclined plate It is possible to efficiently remove the flocs accumulated in the, to provide a simple and effective inclined plate system and maintenance of the sedimentation basin and the settler including the same. Furthermore, it is possible to provide a slope plate system and a sedimentation basin including the same, which can be maintained or maintained without stopping the operation of the sedimentation basin. .

1 is a top view showing a state in which two basic structural units constituting the inclined plate system according to the present invention are combined.

Figure 2 is a cross-sectional view A-A of Figure 1;

Figure 3 is a B-B longitudinal cross-sectional view of FIG.

4 is a plan view showing a plurality of inclined plates different in size from each other.

5 is a plan view showing a state in which two basic structural units with wheels are coupled and placed on a rail;

Figure 6 is a top view showing a rectangular gravity settler according to the present invention.

Figure 7 is a side view showing a rectangular gravity settler according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: basic structural unit 110: inclined plate

120: inclined plate frame 121: groove

122: irregularities 130: wheels

200: sedimentation basin 210: outlet cover

220: central sidewalk 230: rail

240: handle

In order to achieve the object as described above, the removable upflow inclination plate system according to the present invention is a basic configuration of the sedimentation basin unit comprising a plurality of removable inclined plate and the inclined plate frame having a groove in the inner side wall so that the inclined plate can be built It is characterized by including a plurality as a unit.

In the removable upflow inclined plate system according to the present invention, the inclined plates are different in size from each other.

In the removable upflow inclined plate system according to the present invention, the inclined plate frame has irregularities on an outer sidewall, so that the basic structural unit can be combined with other basic structural units.

In the removable upflow inclined plate system according to the present invention, the inclined plate frame is characterized in that the wheel is provided on the lower surface.

The removable upflow inclination plate system according to the present invention is characterized in that a rail for moving the wheels is installed.

In the removable upflow inclined plate system according to the present invention, the inclined plate frame is characterized in that the handle is provided at the top.

On the other hand, the rectangular gravity sedimentation basin according to the present invention is characterized in that it comprises a removable upward flow inclined plate system.

The rectangular gravity sedimentation basin according to the present invention is characterized in that the space required for the movement and desorption of the basic structural units is disposed on the center and both sides of the sedimentation basin.

The rectangular gravity sedimentation basin according to the present invention is characterized by having a cover for improving the water quality at the end of the outlet.

Hereinafter, with reference to the accompanying drawings, it will be described in detail the removable upflow slope plate system and the rectangular gravity settler including the same according to an embodiment of the present invention.

1 is a top view showing a state in which two basic structural units 100 constituting a sedimentation basin 200 according to an exemplary embodiment of the present invention are combined.

As shown in FIG. 1, the basic structural unit of the removable upflow inclination plate system according to the present invention is a unit consisting of an inclination plate 110 and an inclination plate frame 120. The inclined plate is configured to be detachable from the inclined plate frame. The inclined plate frame 120 is provided with a groove 121 to enable the inclination of the inclined plate 110. 1 shows a state in which the inclined plate 110 is inserted into the inclined plate frame 120 as viewed from above. The inclined plate 110 is inserted while sliding along the groove 121 of the inclined plate frame 120. The basic structural unit 100 on the left side and the basic structural unit 100 on the right side have irregularities 122 of different shapes on the outer side surface. These different shapes of irregularities may be combined with each other. The reason for the coupling using the unevenness 122 as shown in FIG. 1 is to allow the plurality of basic structural units 100 to be combined with each other to function as one body. However, the stronger coupling than the coupling by the concave-convex 122 as shown in FIG. 1 is not necessary because it interferes with lifting each basic structural unit 100 for management of cleaning and the like. Since each inclined plate 110 is detachable from the inclined plate frame 120, the inclined plate 110 may be easily removed by removing the inclined plate 110 from the inclined plate frame 120 to remove the flocs accumulated in the inclined plate 110 during cleaning. In order to achieve the object of the present invention, the most preferable basic structural unit 100 is a cube having a width and length of 1m and a height of about 0.8m. More preferably, the basic structural unit 100 includes a handle 240. The handle 240 is useful for lifting and re-installing the basic structural unit 100 during maintenance such as cleaning.

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

As shown in FIG. 2, the inclined plate 110 is inserted obliquely with respect to the inclined plate frame 120, so that an upflow flow is formed. That is, the introduced raw water flows from the bottom of the inclined plate 110 to the top. Four different inclined plates 111, 112, 113, and 114 of FIG. 4 are inserted obliquely into the inclined plate frame 120 of FIG. 2.

3 is a B-B longitudinal sectional view of FIG. As shown in FIG. 3, the inclined plate frame 120 has a groove 121 formed obliquely with respect to the inclined plate frame 120, and the inclined plate 110 slides along the groove 121 to the inclined plate frame 120. Is inserted.

4 is a plan view illustrating a plurality of inclined plates 111, 112, 113, and 114 having different sizes from each other. In order to insert the plurality of inclined plates inclined to the rectangular inclined plate frame 120 to form an upflow flow, the plurality of inclined plates 110 must vary in size as shown in the example of FIG.

5 is a plan view illustrating a state in which two basic structural units 100 provided with wheels are coupled and placed on a rail 230.

As shown in Figure 5, the lower portion of the inclined plate frame 120 is provided with wheels 130 in four corners can be easily moved through the rail 230 installed at the bottom. The wheel 130 and the rail 230 allow for simple cleaning management for each basic structural unit 100. That is, when the basic structural unit 100 that needs cleaning or repair is removed from the surrounding unit 100 and remounted after cleaning or maintenance, the basic structural unit 100 can be easily moved by simply pushing it. It is. As shown in FIG. 5, the basic structural units 100 are placed on the U-shaped rail 230. Such a curved rail 230 is preferably installed at a lower portion of about 1.5m from the water surface of the sedimentation basin 200.

6 is a plan view showing a rectangular gravity settler 200 according to the present invention.

As shown in FIG. 6, dozens of basic structural units 100 are combined with each other left and right. There is a space in the longitudinal direction in the center of the settling basin 200, there is a space in the width direction on both sides. The outlet 210 of the right side is provided with a cover 210. When the basic component unit 100 needs to be removed or maintained, such as cleaning or maintenance, a space for the administrator to move and work and a predetermined space for cleaning and moving the basic component unit 100 are required. To this end, it is preferable to arrange spaces in the center 220 and both sides of the settling basin. The central walkway 220 is arranged in the longitudinal direction of the rectangular sedimentation basin 200, the width of the space is preferably 1 to 1.5m, considering the remaining width after placing the basic structural units (100) within this range Decide by When the density flow occurs during the precipitation process, the sludge may flow out while riding on the outlet side wall of the sedimentation basin 200. Because this worsens the water quality, appropriate precautions are required. The sedimentation basin 200 of this invention was equipped with the cover 210 of 4-5 m from the wall surface of an outflow side as a preventive measure. Like the central walkway 220, the size of the cover 210 is preferably determined in consideration of the length remaining after the basic structural unit 100 is disposed within a range of 4 to 5 m. The position where the cover 210 is provided is a space where the basic structural unit 100 is not installed.

Figure 7 is a side view showing a rectangular gravity settler 200 according to the present invention.

As shown in FIG. 7, spaces necessary for maintenance of cleaning and the like are disposed on both sides, and are composed of basic structural units 100 coupled to each other. Each structural unit 100 is placed on the rail 230. The rail 230 is installed at a lower portion of about 1.5m from the water surface of the sedimentation basin 200.

In order to achieve the object of the present invention, a preferred material of the inclined plate frame 110 is a lightweight material such as high density polyethylene (HDPE). The basic structural unit 100 constituting the removable upflow inclination plate system according to the present invention is preferably provided with a handle 240 at the top to achieve efficiency during maintenance, such as cleaning or maintenance. By using the handle 240, the administrator can directly lift and reinstall the basic structural units.

If the water purification plant to which the removable upflow inclination plate system of the present invention is applied is large, the total length of the basic structural units coupled to each other is set to the full width or 1/2 width of the sedimentation basin, so that the upper part of the sedimentation basin during maintenance such as cleaning The hoist mounted longitudinally on the side wall can also be lifted and reinstalled.

By using the removable upflow inclination plate system according to the present invention, the sedimentation efficiency can be improved without changing the basic structure of the existing rectangular gravity sedimentation basin, thereby saving cost and time. In addition, it is possible to separate and move each basic structural unit and each inclined plate, it is possible to effectively and easily maintain and maintain the sedimentation basin. Moreover, it is possible to maintain and maintain the cleaning equipment without interrupting the operation of the sedimentation basin, and it is possible to manage only the basic structural units that need to be managed from time to time without having to perform the entire sedimentation basin at the same time.

Claims (9)

And a plurality of units including a plurality of detachable inclined plates and an inclined plate frame having grooves in the inner sidewalls so that the inclined plates can be built, as a basic structural unit of the sedimentation basin. 2. The removable upflow ramp plate system of claim 1, wherein the plurality of ramp plates are different in size from each other. The removable upflow swash plate system according to claim 1, wherein the swash plate frame has irregularities on an outer sidewall so that the basic unit can be combined with other surrounding unit. The removable upflow inclined plate system according to claim 1, wherein the inclined plate frame is provided with a wheel at a lower portion thereof. 5. The removable upflow swash plate system according to claim 4, wherein the settling basin is provided with a rail for moving the wheels. The removable upflow inclined plate system of claim 1, wherein the inclined plate frame is provided with a handle at an upper portion thereof. A rectangular gravity settler comprising the removable upflow ramp plate system according to any one of claims 1 to 6. The rectangular gravity settler according to claim 7, wherein spaces necessary for moving and detaching each of the basic structural units constituting the removable upflow inclination plate system are disposed at the center and both sides. 9. The rectangular gravity settler according to claim 8, wherein a cover for improving water quality is provided at the end of the outlet portion.