KR102475732B1 - Apparatus for improvementing precipitation tank - Google Patents

Abstract

The present invention relates to a sedimentation improvement device for a sedimentation tank using an inclined surface. The sedimentation improvement device comprises: a fixed frame installed below an outlet for discharging wastewater into the sedimentation tank, and having a first inclined surface formed thereon to guide the wastewater; and a variable frame having a second inclined surface formed to face the first inclined surface of the fixed frame at a position spaced apart by a predetermined distance, guiding the wastewater together with the first inclined surface, and guiding the wastewater with a separation distance adjusted according to the water pressure of the wastewater. With the configuration, it is possible to stably settle the precipitate in the sedimentation tank by adjusting the water pressure of the wastewater through the variable frame in which the separation distance is adjusted by the water pressure of the discharged wastewater. In addition, the present invention has an effect of improving sedimentation efficiency by preventing clogging between the fixed frame and the variable frame by sediments deposited on the variable frame.

Description

Sedimentation improvement device of sedimentation tank using slope {APPARATUS FOR IMPROVEMENTING PRECIPITATION TANK}

The present invention relates to a sedimentation improvement device for a sedimentation tank using an inclined surface, and more particularly, to a sedimentation improvement device for a sedimentation tank using an inclined surface installed in the sedimentation tank to improve the sedimentation effect through the inclined surface.

Gravity sedimentation tanks that have been used previously require a long residence time as flocs formed by flocculation are settled by gravity.

In order for the floc to settle quickly in such a gravity settling tank, the fluid flow in the settling tank must be maintained uniformly over the entire width and depth. It is difficult to rapidly settle the floc due to the formation of short circuits due to the influence of wind or structural non-uniformity of the inflow and outflow.

In order to solve this problem, an inclined plate is installed in the existing rectangular gravity sedimentation tank. While flowing upward along the inclined plate installed in the sedimentation tank, the sedimentation efficiency can be increased by increasing the sedimentation area while rapidly precipitating the solids.

However, in the prior art, due to frequent clogging of foreign substances in the swash plate, performance degradation due to closing and difficulty in maintenance have prevented full performance despite theoretical advantages.

That is, although the inclined plate has a high sludge removal efficiency, as the sludge does not easily settle from the inclined plate and accumulates, there is a problem that the flow passage between the inclined plates is blocked or the inclined plate is deformed or damaged by the weight of the sludge.

Korean Intellectual Property Office Registration No. 10-1855140 Korea Intellectual Property Office Registration No. 10-0883312 Korea Intellectual Property Office Registration No. 10-1348433 Korea Intellectual Property Office Registration No. 10-0382810

The present invention was invented to solve the above problems, and an object of the present invention is to improve the settling efficiency by adjusting the settling time and position of discharged wastewater.

In addition, the purpose is to prevent the inclined plate for guiding wastewater from being clogged or deformed.

In order to achieve the above object, the sedimentation improvement device of the sedimentation tank using the inclined surface according to a preferred embodiment of the present invention is installed below the outlet for discharging wastewater into the sedimentation tank, and the first inclined surface is formed to guide the wastewater. frame; And a second inclined surface is formed to face the first inclined surface of the fixed frame at a position spaced apart from the first inclined surface by a predetermined distance, guides the wastewater together with the first inclined surface, and the separation distance is adjusted according to the water pressure of the wastewater and is variable for guiding the wastewater. frame; includes.

In addition, the variable frame is characterized in that it is characterized in that it is characterized in that it is characterized in that it is arranged in a position adjacent to the fixed frame by elasticity, or spaced apart by the water pressure of wastewater and the load of sediment.

In addition, it is characterized in that the wastewater guided by the fixed frame and the variable frame is guided through a third inclined surface at a position spaced apart from the variable frame by a predetermined distance below the variable frame.

In addition, the inclined frame is rotatably provided so as to be able to adjust an angle, is connected to interlock with the variable frame, and rotates according to the movement of the variable frame to guide wastewater.

According to the sedimentation improvement device of the sedimentation tank using the inclined surface according to the present invention, the water pressure of the wastewater is adjusted through a variable frame in which the separation distance is controlled by the water pressure of the discharged wastewater, so that the sediment settled in the sedimentation tank can be stably settled, There is an effect of improving sedimentation efficiency by preventing clogging between the fixed and variable frames by sediments deposited on the variable frame.

In addition, an inclined frame is installed below the fixed and variable frame so that the angle is adjusted according to the water pressure to adjust the water pressure of the discharged wastewater, as well as to adjust the sedimentation position according to the water pressure of the wastewater to improve the sedimentation efficiency. have.

1 is a view showing a sedimentation improvement device of a sedimentation tank using an inclined surface according to a preferred embodiment of the present invention.
2 is a cross-sectional view of a variable frame according to a preferred embodiment of the present invention.
3 is an operation diagram of a variable frame according to a preferred embodiment of the present invention.
4 is a plan view of a variable frame according to a preferred embodiment of the present invention.
5 is an operation diagram of a variable frame according to a preferred embodiment of the present invention.
6 is a state diagram showing the use of an inclined frame according to a preferred embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to completely inform the person who has the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification.

Hereinafter, the present invention will be described with reference to drawings for explaining a sedimentation improvement device of a sedimentation tank using an inclined surface according to embodiments of the present invention.

1 is a view showing a sedimentation improvement device of a sedimentation tank using an inclined surface according to a preferred embodiment of the present invention, FIG. 2 is a cross-sectional view of a variable frame according to a preferred embodiment of the present invention, and FIG. 3 is a view according to a preferred embodiment of the present invention Figure 4 is a plan view of a variable frame according to a preferred embodiment of the present invention, Figure 5 is an operation diagram of a variable frame according to a preferred embodiment of the present invention, Figure 6 is a plan view according to a preferred embodiment of the present invention It is a state diagram of the inclined frame.

Referring to these drawings, the sedimentation improvement device of the sedimentation tank using the inclined surface according to the present embodiment has the characteristics of reducing the sedimentation time and excellent sedimentation efficiency by adjusting the water pressure of wastewater.

The sedimentation improvement device 100 of the sedimentation tank using the inclined surface according to the present embodiment capable of providing such an effect includes a fixed frame 110, a variable frame 120, a variable part 130, and an inclined frame 140. do.

The fixing frame 110 is installed below an outlet for discharging wastewater into the sedimentation tank to guide the wastewater, is installed on one side of the sedimentation tank, and has a first inclined surface 111.

The variable frame 120 guides wastewater together with the fixed frame 110, is spaced apart from the fixed frame 110 by a predetermined distance, and has a second inclined surface 121 facing the first inclined surface 111. have

Here, the first inclined surface 111 of the fixed frame 110 and the second inclined surface 121 of the variable frame 120 are formed so that the separation distance decreases from the top to the bottom.

A through hole 122 is formed in the variable frame 120 so that a shaft 131 to be described later can be coupled thereto.

Preferably, at least one through hole 122 is formed.

This is for the shaft 131 to support the variable frame 120 in the through hole 122 so that the variable frame 120 can be moved.

A seating hole 123 is formed at an end of the through hole 122 adjacent to the second inclined surface 121 .

The variable portion 130 includes a shaft 131 coupled to the through hole 122 of the variable frame 120 .

The shaft 131 is coupled to the through hole 122 of the variable frame 120 and is installed on the other side of the settling tank.

At this time, the shaft 131 is formed in a diagonal direction so that the variable frame 120 can be guided from the top to the bottom when moving from one side to the other side.

A seating protrusion 132 is formed at one end of the shaft 131 to correspond to the seating hole 123 of the variable frame 120 .

The seating protrusion 132 is formed to be positioned on a straight line with the second inclined surface 121 when the variable frame 120 is positioned on the first side of the shaft 131 .

Further, when the variable frame 120 moves to the other side, it is separated from the second inclined surface 121 and the deposits accumulated on the second inclined surface 121 are released.

An elastic body 133 for moving the variable frame 120 to the first side of the shaft 131 is coupled to the other side of the shaft 131 .

At this time, the variable frame 120 is located on the first side by the elastic body 133 and is disposed at a position spaced apart from the fixed frame 110 by a predetermined distance, and is pushed to the other side by the hydraulic pressure of wastewater discharged from the outlet. It is moved so that wastewater can be smoothly guided.

In addition, sediments included in wastewater may accumulate between the first inclined surface 111 of the fixed frame 110 and the second inclined surface 121 of the variable frame 120 .

Here, the pressure in the space between the fixed frame 110 and the fixed frame 110 increases due to the sediments accumulated on the variable frame 120 or is moved to the other side by the load of the sediment, so that wastewater can be smoothly discharged.

The inclined frame 140 is rotatably coupled to a position spaced a certain distance downward below the variable frame 120 .

The inclined frame 140 has a third inclined surface 141 guiding wastewater guided between the fixed frame 110 and the variable frame 120 to one side.

Here, the wastewater constantly and smoothly discharged by the fixed frame 110 and the variable frame 120 can be stably discharged to the inclined frame 140 once again.

A long hole 144 is formed along the longitudinal direction at the upper end of the inclined frame 140 .

A link member 143 is connected to the long hole 144 to interlock with the movement of the variable frame 120 .

One end of the link member 143 is movably and pivotally coupled to the long hole 144, and the other end is rotatably coupled to the lower end of the variable frame 120.

The link member 143 is moved and rotated according to the movement of the variable frame 120 to rotate the inclined frame 140 .

At this time, the inclined frame 140 rotates from one direction to the other when the variable frame 120 moves from one side to the other.

On the other hand, the variable frame 120 is eccentric to rotate in one direction by the center of gravity.

At this time, the variable frame 120 is located at the foremost side due to the center of gravity of the variable frame 120 even if the elastic body 133 does not have elasticity.

Accordingly, the variable frame 120 is moved according to the water pressure of the wastewater discharged from the outlet, and the wastewater between the fixed frame 110 and the variable frame 120 is smoothly discharged, and the fixed frame 110 and As the separation space of the variable frame 120 expands, the inclined frame 140 can be rotated to adjust the settling position of wastewater.

Furthermore, a corrugated piece (not shown) may be formed on the third inclined surface 141 of the inclined frame 140 .

The corrugated piece is formed on the upper surface of the inclined frame 140 to have a transverse waveform, so that the wastewater guided through the inclined frame 140 is not only guided from the top to the bottom by the inclination, but also the corrugated piece. so that it can be guided to both sides by

Accordingly, according to the slope of the inclined frame 140, wastewater is guided along the slope when the slope is steep, and when the slope is gentle, some of the wastewater is distributed to both sides by the corrugated pieces and guided more evenly.

According to the sedimentation improvement device of the sedimentation tank using the inclined surface according to the present invention, the water pressure of the wastewater is adjusted through a variable frame in which the separation distance is controlled by the water pressure of the discharged wastewater, so that the sediment settled in the sedimentation tank can be stably settled, There is an effect of improving sedimentation efficiency by preventing clogging between the fixed and variable frames by sediments deposited on the variable frame.

In addition, an inclined frame is installed below the fixed and variable frame so that the angle is adjusted according to the water pressure to adjust the water pressure of the discharged wastewater, as well as to adjust the sedimentation position according to the water pressure of the wastewater to improve the sedimentation efficiency. have.

Those skilled in the art to which the present invention pertains will understand that the present invention can be embodied in other specific forms without changing its technical spirit or essential features. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. The scope of the present invention is indicated by the claims to be described later rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention. should be interpreted

100: improvement device 110: fixed frame
111: first slope 120: variable frame
121: second inclined surface 122: through hole
123: seating hole 130: variable part
131: shaft 132: seating protrusion
133: elastic body 140: inclined frame
141: third inclined surface 142: pivot axis
143: link member 144: long hole

Claims (4)

a fixing frame installed below an outlet for discharging wastewater into the settling tank and having a first inclined surface formed thereon to guide the wastewater; and
A second inclined surface is formed to face the first inclined surface of the fixed frame at a position spaced apart from the first inclined surface by a predetermined distance, guides the wastewater together with the first inclined surface, and the variable frame guides the wastewater with the separation distance adjusted according to the water pressure of the wastewater. including;
The variable frame is disposed adjacent to the fixed frame by elasticity, or is spaced apart by the water pressure of wastewater and the load of sediment.
delete According to claim 1,
Sedimentation improvement device of a sedimentation tank using an inclined surface, characterized in that an inclined frame for guiding the wastewater guided by the fixed frame and the variable frame through a third inclined surface at a position spaced apart from the variable frame is provided.
According to claim 3,
The inclined frame is rotatably provided to enable angle adjustment, is connected to interlock with the variable frame, and is rotated according to the movement of the variable frame to guide wastewater.

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