KR200337148Y1 - Device For Distribution of Flow Rate in Distribution Channel - Google Patents

Abstract

The present invention relates to a flow distribution device for a distribution channel, and more particularly, in the distribution channel in which the inflow water is distributed to several water treatment unit structures in which water flows in from an external structure and is arranged side by side. A water flow control panel installed at a predetermined height in front of the inflow port to block the flow of the inflow water, and a plurality of water flow control holes drilled in the water flow control panel to pass the blocked water; It relates to a flow distribution device.

According to the flow distribution device of the distribution channel according to the present invention, by simply installing a water flow control panel in which a plurality of water flow control holes are perforated at the inlet of the existing distribution channel, it is introduced without any burden of large cost and design change for the existing distribution channel facility. By controlling the flow direction and the flow rate of water is distributed to the uniform flow rate and flow rate to a plurality of water treatment unit structure, through which there is an effect of optimizing the water treatment efficiency in subsequent processes.

Description

Device For Distribution of Flow Rate in Distribution Channel

The present invention relates to a flow regulating device for distributing water for distributing water introduced from an external structure, such as mixed paper, to each water treatment unit structure, and more specifically, a water flow control plate having a plurality of water flow control holes perforated in front of the inlet. The present invention relates to a flow regulating device for distributing water flow which can distribute water introduced through an inlet port at an equal flow rate and flow rate into several unit structures.

A water treatment facility including a water treatment plant or a sewage treatment plant is generally composed of a sump well, a landfill pond, a mixed pond, a flocculant pond, a sedimentation basin, a filter pond, a water purification basin, and the like. The structures (landing wells, blended papers, flocculated papers, settling papers, filter papers, and purified water), or sewage treatment structures (sedimentation, aeration tanks, and aerobic tanks) are moved one after another to produce high-quality tap water with clean water of the desired quality.

Here, the mixed paper is a place where various chemicals are injected and mixed with raw water. A flocculant that aggregates impurity particles in water to form an impurity lump (floc, Floc), a microorganism sterilization and a chemical to remove color, taste and smell. It is a place that serves to quickly and uniformly mix raw and raw water.

In addition, the flocculation paper is a place that serves to form a large floc by promoting agglomeration by causing agitation between particles by slowly stirring the raw water that is mixed with the chemicals in the mixed paper, causing the flocculation, wherein the settled paper is agglomerated in It is a place where most foreign matters are removed by sinking flocs and floats and sending clean supernatant to the next step, filter paper.

The connecting water channel for moving water from the mixed paper to the flocculating paper and the sedimentation basin is generally composed of a distribution channel, wherein the water flowing from the mixed paper is distributed at a uniform flow rate to the plurality of flocculating paper and the sedimentation basin. In addition, it is desirable to maintain a constant flow rate so that the flocks and the like contained in the water does not settle.

However, as shown in FIG. 1, only the inlet of the narrow pipeline is installed on the front side or the side of the flocculation paper 50, and the flow rate of the water exiting the distribution channel 40 through the inlet is shown in FIG. 1. This becomes very fast and the high flow rate creates a very unstable flow throughout the distribution water.

Therefore, when the inlet port 10a of the distribution channel is installed in front of a plurality of horizontally arranged flocculation papers, the flow rate is concentrated on the flocculation paper 50 located close to the inlet port 10a due to the rapid flow rate of the inflowed water. A small flow rate is distributed to the other coagulation paper 50 located, and the coagulation paper located far from the inlet 10b when the inflow port 10b of the distribution channel is installed on the side of the coagulation paper because of the high flow velocity of the incoming water in the lateral direction. There was a problem that the flow rate is biased at 50 and a small flow rate flows into the coagulation paper 50 located close to the inlet 10b, so that even flow distribution to all the coagulation papers cannot be made in any case.

In order to solve the problem of flow distribution in the conventional distribution channel as described above, the applicant filed a utility model registration application with the Korea Water Resources Corporation on December 16, 2002 under the name of the designation “Inlet structure of the distribution channel”. There is a bar.

Looking at the contents of the utility model registration application, the design as shown in Figure 2 is to install the underwater reservoir wall (1) having a constant height at a right angle to the direction of the water flowing in front of the inlet 10 of the distribution channel In addition, as shown in Figure 3, the water reservoir wall (1) is composed of a plurality of mutually different heights and installed in the front and rear rows, respectively, toward the coagulation paper 50 side from the inlet port 10 side It is characterized by that the height is gradually configured to increase.

According to the above design through such a configuration, the flow rate of the water introduced by the underwater reservoir wall 1 is somewhat reduced and the flow rate is stabilized so that the flow rate distribution to each flocculent is 7% to 12% than that of the existing distribution channel. It has been shown to have an effect of leveling.

However, the above design has the effect of realizing a more even flow rate distribution than the conventional distribution channel, there is still a problem that does not achieve a satisfactory level of flow rate distribution because there is still some difference in the flow rate flowing into each flocculent. The distribution water cannot secure a site on which the inlet structure can be installed, and there is a problem in that excessive costs are required during installation.

The present invention is devised to solve the conventional problems as described above, an object of the present invention is to install a water flow control panel in which a plurality of water flow control holes are perforated in front of the inlet inlet water from the mixed paper to the distribution channel By controlling the flow direction and the flow rate of the introduced water by passing the water introduced through the water flow control hole to distribute the flow rate and flow rate evenly to a plurality of water treatment unit structures, thereby improving the water treatment efficiency in the subsequent process It is to provide a flow distribution device to the distribution water that can be optimized.

1 is a plan view showing an inlet to a conventional distribution channel.

Figure 2 is a plan view showing a first embodiment of the present invention filed by the present applicant.

Figure 3 is a plan view showing a second embodiment of the present invention filed by the present applicant.

Figure 4a, Figure 4b is a perspective view and a plan view showing a flow distribution device for distribution channel according to the present invention.

Figure 5a, Figure 5b is an exemplary view showing an example of installing the water flow control panel according to the present invention at various angles.

Figure 6 is an exemplary view showing an example of drilling the water flow control hole according to the present invention at various angles.

Figure 7 is an exemplary view showing an example for drilling various sizes of the water flow control hole according to the present invention.

8 is an exemplary view showing the arrangement of water flow control holes punched in different sizes according to the present invention.

Figure 9a, Figure 9b is an experimental graph showing the flow distribution state to each water treatment unit structure before and after applying the flow distribution device for distribution channel according to the present invention.

Flow distribution apparatus for a distribution channel according to the present invention for achieving the above object, in the distribution channel in which the inlet water is distributed to the several water treatment unit structure in which the water flows in from the outer structure arranged side by side to the distribution channel. It is installed to a certain height in front of the inlet in which water is introduced is characterized in that it comprises a water flow control plate for blocking the flow of the water flows in and a plurality of water flow control holes that are passed through the water flow control plate.

In addition, the water flow control plate according to the present invention is installed at various angles with respect to the flow direction of the incoming water, characterized in that for controlling the flow direction of the water passing through the water flow control hole.

In addition, the water flow control hole according to the present invention is characterized in that the longitudinal cross-section of the water flow control plate has a variety of angles and the size of the diameter is drilled in various ways to control the flow direction and flow rate of water passing through the water flow control hole The water flow control panel may be installed to be spaced apart at a predetermined interval from the installation bottom surface.

Hereinafter, with reference to the accompanying drawings in the specification will be described in detail a preferred embodiment of the flow distribution device for distribution channel according to the present invention.

The configuration and operation of the present invention shown in the drawings and described by the following will be described as at least one embodiment, by which the technical spirit and core construction and operation of the present invention described above are not limited. . For example, the flow distribution device for distribution channel according to the present invention can be applied to all water treatment facilities including a water treatment plant and a sewage treatment plant. When applied to a water treatment plant, mixed and coagulated paper are the external structures and the unit structures, respectively. In addition, there is a distribution channel in the sewage treatment plant, for example, it is applicable to all cases such as a case where there are a plurality of distribution channels such as a distribution channel for agglutination paper and a distribution channel for filter paper in one water treatment plant.

Figure 4a is a perspective view showing the configuration of the distribution channel is installed flow rate distribution apparatus according to the present invention, Figure 4b is a plan view showing the configuration of the distribution channel.

As shown in the figure, the flow distribution device for distribution channel according to the present invention, for example, the inlet 10 and the water flow control panel installed at a constant angle while having a constant height in front of the inlet 10 and the water inlet from the external structure provided as a mixed paper 20 and a plurality of water flow control holes 30 formed by being drilled in the water flow control plate, a distribution channel 40 through which water passed through the water flow control hole 30 flows, and water is distributed from the distribution channel 40 It consists of a water treatment unit structure 50 is provided with a plurality of coagulated paper arranged in a row arranged.

The inlet 10 may be provided at right angles to the distribution channel 40 as shown in the drawing, or may be provided in parallel with the distribution channel 40. That is, the inlet 10 is provided at the front or side of the unit structure 50 to allow water to flow in at right angles to the distribution channel 40 or to flow in a balanced manner.

The water flow control panel 20 blocks the flow of water introduced through the inlet 10 in the same manner as the existing water reservoir wall 1 of the present inventors. However, the water reservoir wall (1) is blocked by the water flows through the water reservoir wall (1), the water flows, the water flow control plate 20 is formed of a plurality of water flow control holes 30 is blocked water There is a big difference in that water flows through the water flow control hole 30 rather than the water flow control plate 20.

The water flow control panel 20 blocks the flow of water introduced through the inlet 10 once to block its flow, and the blocked water is passed through a plurality of water flow control holes 30 drilled in the water flow control panel 20. It exits at a constant speed and flows along the distribution channel 40 to be evenly supplied to the plurality of unit structures 50.

5A and 5B are exemplary views illustrating an example in which the water flow control panel 20 is installed in front of the inlet 10 by varying an installation angle thereof, as shown in the drawing. By installing 20 at various angles with respect to the direction of the incoming water, it is possible to adjust the flow direction of the water passing through the water flow control hole 30, and through this, it is possible to adjust the flow rate distributed to each unit structure 50.

6 is an exemplary view showing an example in which the water flow control hole 30 is formed by drilling at various angles with respect to the longitudinal cross section of the water flow control plate 20. As shown in the figure, the water flow control plate 20 is shown. In the perforation of the water flow control hole 30, the angle can be varied so that the flow direction of water passing through the water flow control hole 30 can be adjusted in the same manner as the water flow control plate 20 is installed at various angles.

7 and 8 are exemplary views showing examples of drilling by varying the size of the water flow control hole 30, respectively.

The size of the water flow control hole 30 determines the flow rate of water passing through the water flow control hole (30). That is, since the flow rate is the product of the cross-sectional area through which the fluid passes and the flow rate (Q = A × V, where Q is the flow rate, A: cross-sectional area, and V: flow rate), it is assumed that there is no significant change in the flow rate through the water flow control hole. The flow rate of the water flowing out through the flow control hole having a large cross-sectional area is increased.

7 shows that all the flow control holes 30 are uniformly drilled, and the flow rates passing through the water flow control holes 30 are changed by changing the size while all the water flow control holes 30 have the same size. By adjusting the flow rate is distributed to each unit structure 50 through this it can achieve an even flow distribution between each unit structure (50).

8 shows that the water flow control holes 30 having different sizes are drilled and arranged, and when the water flow control holes 30 having different sizes are arranged, there is a constant difference in the flow rate of water passing through the water flow control holes 30. The water flow control hole 30 is inlet 10 and the inlet 10 as shown in the figure so that more flow rate can be distributed to the unit structure 50 that is relatively far from the water flow control panel 20 From the upper end of the water flow control panel 20 connected to the lower end of the water flow control panel 20 connected to the lower surface of the distribution channel 40 it is preferable to be disposed so as to gradually decrease the diameter difference.

Looking at the action of the flow distribution device in the distribution channel according to the present invention of the configuration as described above, first, the water introduced through the inlet 10 of the distribution channel from the external structure is the water flow control panel 20 installed at various angles in front of the inlet The flow rate is reduced as the flow of water is blocked by).

The blocked water exits through the water flow control hole 30 of the water flow control plate 20, and the water exiting the water flow control hole 30 has a constant flow rate and flows in a predetermined direction and is arranged in rows. Supplied to the structure 40.

The distribution channel 40 may be controlled by varying the angles of the water flow control panel 20 and the water flow control hole 30, and controlling the flow direction and the flow rate of the water, and varying the size of the water flow control hole 30. By controlling the flow rate of the water flowing through the) it is possible to distribute the water at an equal flow rate and flow rate to each unit structure (50).

In addition, the water flow control panel is installed to be spaced apart by approximately 5 cm at a predetermined interval from the installation floor to prevent the sediment is deposited on the bottom, it can be installed as a prefabricated in preparation for aging and replacement of the water flow control hole. Is self explanatory.

9a and 9b are graphs illustrating the flow rate distribution to each unit structure before and after applying the flow rate distribution device to the distribution channel according to the present invention as described above.

As shown in FIG. 9A, the flow rate flowing into each unit structure 50 of the conventional distribution channel without installing the water flow control panel 20 is determined by the unit structure to which the maximum flow rate is distributed and the unit structure to which the minimum flow rate is distributed. The difference is 110,000,000 0,000 / s.

In addition, as shown in Figure 9b, the flow rate flowing into each unit structure 50 of the distribution channel in which the water flow control panel 20 according to the present invention is installed, the unit structure in which the maximum flow rate is distributed and the unit structure in which the minimum flow rate is distributed It can be seen that the difference between and 45,000,000 ㎣ / s, which is the result of reducing the flow concentration to the specific unit structure by more than 60% compared to the conventional distribution channel shown in Figure 8a by installing the water flow control panel 20 The flow distribution to the unit structure was found to be very efficient.

Although the flow distribution device for distributing water in accordance with the present invention has been described above, the technical scope of the present invention is not limited to the contents described in the embodiments, and also in order to carry out the same purposes of the present invention. It should be noted that the configuration of equivalents modified or changed by those having the same does not depart from the scope of the technical idea of the present invention described in the utility model registration claims. Therefore, the modification or modification of the equivalent configuration by those skilled in the art to which the present invention belongs is to be bound by the technical scope of the present invention described in the utility model registration claims.

As described above, according to the flow distribution device for distribution channel according to the present invention, a large cost and design change for the existing distribution channel facility can be achieved by simply installing a water flow control panel having a plurality of water flow control holes at the inlet of the existing distribution channel. By controlling the flow direction and the flow rate of the introduced water without burden, evenly distributed to a plurality of unit structures at an equal flow rate and flow rate, through which there is an effect that can optimize the water treatment efficiency in subsequent processes.

Claims (4)

In the distribution channel in which the inflow of water is distributed to several unit structures arranged in a row arranged by the flow of water from the external structure, A water flow control panel installed at a predetermined height in front of an inlet through which water is introduced into the distribution channel to block the flow of the inflowed water; And a plurality of water flow control holes which are punctured by the water flow control panel to pass the blocked water. The method of claim 1, The water flow control plate, It is installed at various angles with respect to the flow direction of the incoming water flow rate distribution device for distributing water, characterized in that for adjusting the flow direction of the water passing through the water flow control hole The method of claim 1, The water flow control hole, And a plurality of angles of the cross section of the water flow control plate in the longitudinal direction and having various diameters to adjust the flow direction and the flow rate of the water passing through the water flow control hole. The method of claim 1, The water flow control plate, Flow rate distribution device for distribution channel characterized in that the installation is spaced apart from the bottom by a predetermined interval.