KR200434456Y1 - An inclined plate type settling tank - Google Patents

Abstract

The present invention relates to an inclined plate sedimentation tank, and an object of the present invention is to improve the sludge sedimentation efficiency by allowing the fluid drag or inertial force, as well as gravity, to act on the sludge sedimentation effect through the structural improvement of the inclined plate. It is to provide an inclined plate settling tank prepared to be.

To this end, the inclined plate settling tank according to the present invention is spaced apart from each other at a predetermined interval along a direction intersecting with the flow direction of the fluid passing through the sedimentation space in the sedimentation space and the state lying obliquely in the sedimentation space to precipitate the sludge contained in the fluid. And a plurality of inclined plates arranged to be inclined, wherein the inclined plate is vertically extended so that fluid passing between the inclined plates is spaced apart from the downward surface of the neighboring inclined plate by a predetermined distance so as to form a circulation flow, and the end of the inclined plate is adjacent to the inclined plate. The circulation flow forming pin is provided to be parallel to the downward surface of the.

Description

Inclined Plate Settling Tank {AN INCLINED PLATE TYPE SETTLING TANK}

Figure 1 shows the structure of a conventional inclined plate settling tank, showing a perspective view of the inclined plate and the flow direction of the fluid.

Figure 2 shows the structure of a conventional inclined plate settling tank, it is a front view as viewed from the flow direction of the fluid of the inclined plate.

Figure 3 shows the structure of the inclined plate settling tank according to an embodiment of the present invention, showing a perspective view of the inclined plate and the flow direction of the fluid.

4 is an enlarged plan view of a portion of FIG. 3 and illustrates a process of forming a circulation flow.

Figure 5 shows the structure of the inclined plate of various forms that can be employed in the inclined plate settling tank according to the present invention shown in the table.

Figure 6 shows the experimental value of the sludge sedimentation removal rate when installed in the settling tank having different forms according to the display table of Figure 5 in a graph.

7 is a plan view showing a main portion structure of the inclined plate according to another embodiment of the present invention.

8 is a plan view showing a main portion structure of the inclined plate according to another embodiment of the present invention.

* Explanation of symbols for main parts of drawings *

10: inclined plate 20: circulation flow forming pin

30: pin pocket 21, 22: circulation flow guide

The present invention relates to an inclined plate settling tank, and more particularly, to the inclined plate settling tank provided to install a plurality of inclined plates in the settling tank and to reduce the settling distance of the sludge by flowing waste water between the inclined plate.

In general, wastewater purification treatment systems are used for physical treatment, chemical treatment, biological treatment methods, etc. Among these, the physical treatment is to separate the solid particle sludge contained in the wastewater with water.

Mechanical devices such as sedimentation tanks and screens are generally used for this physical treatment method, and double sedimentation tanks are used for sedimentation of heavy sludge particles by gravity in a wastewater treatment device to obtain only the upper supernatant water. In order to increase the sedimentation rate of the sludge and the inclined plate is inserted into the interior is mainly used.

1 and 2 show the structure of such a conventional inclined plate settling tank.

As shown in Figure 1 and Figure 2, the conventional inclined plate settling tank is usually provided with a predetermined settling space (), the slanted plate (1) of the slanted state in an obliquely lying state in this settling space flow direction of the waste water indicated by the arrow It is installed so as to be spaced apart from each other by a predetermined interval along the direction crossing.

When the wastewater flows through the inclined plate 1 through the structure, sludge contained in the wastewater moves downward by gravity and is seated on the inclined plate 1 during the process of passing the inclined plate, and is once seated on the inclined plate 1. The sludge flows down the inclined plate 1 along the outer surface of the inclined plate 1 and is collected.

Therefore, in the inclined plate settling tank, when the depth of the settling tank is H, the settling distance of the sludge is shortened to h, and the sludge settling time is shortened, thereby improving the sludge settling efficiency.

However, since the conventional inclined plate settling tank uses only the gravity effect acting on the sludge in the structure of the inclined plate 1, there are many limitations in improving the settling efficiency to a greater extent. That is, the gravity particles, as well as the external force such as drag and inertial forces due to the flow of water acts on the solid particles in the flowing water, the motion of the solid particles are affected by these various factors at the same time, the conventional inclined plate settling tank In the case of the slant plate (1) is provided to form a static laminar flow of waste water flowing through the inclined plate in order to settle the sludge simply by gravity action without considering the various factors, the sludge Sedimentation efficiency of can not be improved even more significantly.

The present invention is to solve this problem, the object of the present invention is to improve the sludge sedimentation efficiency by allowing the fluid drag or inertial force of gravity as well as gravity and the inertial forces to work together in the sludge sedimentation action by improving the structure of the slope It is to provide an inclined plate settling tank prepared to be.

In order to achieve this object, the inclined plate settling tank according to the present invention has a constant along the direction intersecting the flow direction of the fluid passing through the sedimentation space and the sedimentation space in an oblique state in the sedimentation space to precipitate the sludge contained in the fluid. A plurality of inclined plates disposed to be spaced apart from each other, and the upper surface of the inclined plate is vertically extended so as to be spaced apart from the downward surface of the neighboring inclined plate so as to form a circulating flow therebetween, and the end in the extending direction is adjacent It characterized in that the circulation flow forming pin is provided to be parallel to the downward surface of the inclined plate.

The circulation flow forming pins may be provided in plural numbers spaced apart from each other by a predetermined interval along the longitudinal direction of the inclined plate.

In addition, the distance between the adjacent flow-flow forming pin, the extension width of the circulation flow-forming pin, the distance between the end of the extending direction of the circular flow-forming pin and the downward surface of the inclined plate disposed to be adjacent to the extension direction of the circular flow-forming pin. The ratio of 6 to 6: 4 is characterized by.

In addition, the end of the circulating flow-forming pin in the extending direction is provided with a circulating flow guide portion is extended so as to form a predetermined acute angle in the inflow direction of the fluid flowing between the inclined plate to promote the formation of the circulating flow.

In addition, the circulating flow guide portion is bent from the end of the extending direction of the circulating flow-forming pin.

In addition, the circulating flow guide portion is characterized in that the bending bent from the end in the extending direction of the circulating flow-forming pin.

Next, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

The slant plate settling tank according to the present invention is employed in the wastewater purification system, and is used in the physical treatment process of the wastewater purification process including physical treatment, chemical treatment, and biological treatment. Used to separate from water.

As shown in FIG. 3, the inclined plate settling tank according to the present embodiment includes a predetermined settling space and a plurality of inclined plates 10 installed in the settling space.

The inclined plate 10 is installed in a plurality of spaced apart from each other by a predetermined interval along the direction intersecting the flow direction of the waste water in an oblique state, such inclined plate 10 may be arranged to form a multi-layer structure up and down along the height direction of the settling tank. have.

The inclined plate 10 is basically provided to enlarge the settling area of the settling tank and increase the sedimentation rate of the sludge, the sludge contained in the waste water passing between the inclined plate 10 is moved downward by gravity action and the inclined plate Sludge, which is seated on the inclined plate 10 and once seated on the inclined plate 10, is collected by flowing down the inclined plate along the outer surface of the inclined plate 10.

On the other hand, in the present embodiment, the upward flow of the inclined plate 10 in order to form a circulating flow of the fluid passing between the inclined plate 10, the circulation flow vertically extended so as to be spaced apart from the downward surface of the adjacent inclined plate 10 by a predetermined interval Forming pin 20 is provided, the circulation flow forming pin 10 is provided with a plurality of spaced apart from each other at regular intervals along the longitudinal direction of the inclined plate 10 is provided so that the extension direction end is parallel to the downward surface of the neighboring inclined plate 10. Prepared.

The circulating flow-forming pin 20 is configured such that the vortex circulation flow is formed on the side of the pin pocket 30 formed between the circulating flow-forming pins 20 so that the sludge contained in the waste water can settle more quickly along the circulation flow. By making it possible to improve the sludge settling efficiency of the sludge than the conventional general inclined plate settling tank, the circulation flow forming pin 20 may be attached to the inclined plate 10, preferably integrated with the inclined plate 10 It is recommended that injection molding be done so that no additional attachment work is required.

Referring to Figure 4 describes the formation of the circulation flow in detail as follows.

For reference, for convenience of explanation, one side inclined plate 10 will be referred to as a first inclined plate 10A, and two adjacent circulation flow-forming pins 20 formed in the first inclined plate 10A will be in the inflow direction of wastewater. The first circulation flow forming pins 20A and the second circulation flow forming pins 20B will be called in close proximity. In addition, the inclined plate 10 disposed to be adjacent to the extending direction of the circulation flow forming pin 20 will be set as a second inclined plate 10B. In Fig. 4, the solid arrow indicates the flow of waste water, and the dotted arrow indicates the direction of sludge movement.

The wastewater passing through the area A adjacent to the second inclined plate 10B among the first inclined plate 10B and the first circulating flow forming pin 20A along the inflow direction of the wastewater is formed in the first and second circulation flows. Since there is little interference from the fins 20A and 20B, a parallel laminar flow is formed to move in parallel along the wastewater inflow direction. The parallel laminar sludge flows along the parallel laminar flow and settles downward by gravity. do.

On the other hand, the wastewater that passes through the B region between the A region and the first and second circulating flow forming pins 20A and 20B forms a vortex by the interference in the extension direction of the first circulating flow forming pin 20A. This vortex side sludge is settled while flowing along the vortex in a somewhat stagnant state through the resistive force applied to the opposite direction of the wastewater flow, that is, drag and inertial force to proceed in the flow direction of the wastewater. Sludge will also ride on these vortices.

Meanwhile, some of the wastewater passing through the region B along the vortex is excessively over the second circulation flow forming pin 20B, and the other part collides with the second circulation flow forming pin 20B to enter the pin pocket 30. Wastewater entering the pin pocket 30 is the second circulating flow-forming pin (20B)-the first inclined plate (10A) upward surface between the first and second circulating flow-forming pin (20A, 20B)-the first circulation Guided to the forming pin 20A sequentially to form a gentle circulating flow. Therefore, the sludge settled along the vortex is deposited on the upper surface of the first inclined plate 10A more quickly while settling along this circulating flow, and thus the sludge deposited on the first inclined plate 10A is the first inclined plate 10A. Sliding down the inclined plate 10 along the upward surface of the) is collected in the discharged state, this process is between the first and second circulating flow-forming pin (20A, 20B), as well as between each circulating flow-forming pin (20) Pin pocket 30 is made in succession at the same time.

Therefore, when the inclined plate 10 having the circulating flow forming pin 20 is adopted as described above, the gravitational action as well as the inclination and inertia forces accelerate the settling of the sludge, which not only shortens the sludge settling rate but also the slope of the sludge plate settling tank. Even if the scale is formed smaller than the existing one, the sludge settling efficiency of the overall inclined plate settling tank can be greatly improved, such that a large amount of sludge can be precipitated over a conventional inclined plate settling tank within a predetermined time.

Referring again to FIG. 4, in the case of the inclined plate 10, when the distance between the first and second circulation flow forming pins 20A and 20B is too far, the vortex collides with the second circulation flow forming pin 20B. There is a risk that the circulation will not form well as the loss of pre-motor power. In addition, when the distance between the first and second circulating flow-forming pins 20A and 20B and the downward surface of the neighboring second inclined plate 10B is too far, the equilibrium laminar flow is formed over an excessively large region, and the equilibrium laminar flow side The sedimentation rate of the sludge may be lowered. On the contrary, when the distance between the first and second circulating flow-forming pins 20A and 20B and the downward surface of the neighboring second inclined plate 10B is formed too close, the wastewater flows smoothly. It will not be possible to reduce the sludge sedimentation efficiency.

Accordingly, the inclined plate 10 has a distance h1 between the circulation flow forming pins 20, an extension width h2 of the circulation flow forming pins 20, and a downward direction of the inclined plate 10 adjacent to the circulation flow forming pins 20. Only when maintaining the distance (h3) between the surface at an appropriate ratio will have an optimum precipitation efficiency.

Figure 5 shows the structure of the various types of inclined plate that can be employed in the inclined plate settling tank in consideration of this, Figure 6 shows the experimental value of sludge sedimentation removal rate when the different types of inclined plate is installed in the settling tank Is shown.

5 and 6, a, b and c are the inclined plate 10 according to the present invention, and the distance h2 and the distance h3 are different from each other while maintaining the same distance h1.

As can be clearly seen with reference to Figure 6, the inclined plate 10 has a distance h1 between the circulation flow forming pin 20 and the extension width h2 of the circulation flow forming pin 20 as shown in c, the circulation flow forming When the distance h3 between the end in the extending direction of the pin 20 and the downward surface of the inclined plate 10 arranged to be adjacent to the extending direction of the circulation flow forming pin 20 is 40 mm, that is, the neighboring circulation flow forming pin An inclined plate disposed so as to be adjacent to the distance between the ends of the circulation flow forming pins 20, the extension width of the circulation flow forming pins 20, and the extension direction side of the circulation flow forming pins 20; It can be seen that the optimal deposition efficiency is obtained when the ratio of the distance between the downward planes of 10) is 6: 6: 4.

In addition, Figure 7 shows the structure of the inclined plate 10 according to another embodiment of the present invention, in the case of the present embodiment of the circulating flow forming pin 20 in the extension direction end of the fluid flowing between the inclined plate 10 The circulation flow guide portion 21 is bent and extended to form a predetermined acute angle in the inflow direction. The circulation flow guide portion 21 is for guiding the downstream vortex to collide with the circulation flow forming pin 20 more quickly and effectively, so that the formation of the circulation flow becomes easier.

As shown in FIG. 8, which shows another embodiment of the present invention, the circulating flow guide part 22 may be curved to extend at a predetermined acute angle from an end in the extending direction of the circulating flow forming pin 20 so as to more closely match the trajectory of the circulating flow. There is also.

As described in detail above, the inclined plate settling tank according to the present invention is included in the waste water as the vortex circulation flow is formed on the pin pocket formed between the circulation flow forming pins through the configuration of the circulation flow forming pins installed on the inclined plate. The sludge can be settled more quickly along this circulation flow, and thereby the sludge settling efficiency of the sludge is greatly improved than the conventional general inclined plate settling tank.

Claims (6)

An inclination having a settling space and a plurality of inclined plates spaced apart from each other at regular intervals along a direction intersecting the flow direction of the fluid passing through the settling space in an oblique state lying in the settling space in order to settle the sludge contained in the fluid. In the plate settling tank, On the upward surface of the inclined plate circulating flow-forming pin is vertically extended so that the fluid passing between the inclined plate to form a circulation flow spaced apart from the downward surface of the neighboring inclined plate by a predetermined distance and the end in the extending direction is parallel to the downward surface of the adjacent inclined plate Inclined plate settling tank characterized in that the provided. The method of claim 1, The circulating flow-forming pin is inclined plate settling tank, characterized in that provided in a plurality of spaced apart from each other at regular intervals along the longitudinal direction of the inclined plate. The method of claim 2, The distance between the neighboring circulation flow-forming pins, the extension width of the circulation flow-forming pins, and the distance between the end of the circulation flow-forming pin extending in the extension direction and the downward surface of the inclined plate disposed to be adjacent to the extension-direction side of the circulation flow-forming pin. Slope plate settling tank characterized in that the ratio is 6: 6: 4 :. The method of claim 1, An inclined plate settling tank, characterized in that the end of the circulating flow-forming pin is provided with a circulating flow induction part for extending the bending to form a predetermined acute angle in the inflow direction of the fluid flowing between the inclined plate to promote the formation of the circulating flow. The method of claim 4, wherein The circulating flow guide portion is inclined plate-type sedimentation tank, characterized in that bending bent from the end in the extending direction of the circulating flow-forming pin. The method of claim 4, wherein The circulating flow guide portion is inclined plate settling tank characterized in that the bending bent from the end in the extending direction of the circulating flow-forming pin.

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