KR20130050020A - Sand settling tank - Google Patents

Abstract

PURPOSE: A soil settling tank is provided to prevent flood by flexibly managing the flood when precipitation amount is increased by using 2 precipitation baths and to efficiently remove precipitated soil by including a conveyor belt inside the soil settling tank. CONSTITUTION: A soil settling tank comprises a first soil settling tank (100); a second soil settling tank (200) and a double pipe type inflow pipe passage (300). The first soil settling tank includes a plurality of partition walls (113) which separates soil from inflow water, and a first conveyor belt (110), which moves precipitated soil to an accumulation part, in the lower part of the settling tank. The second soil settling tank includes punching plates (390) which primarily separate debris flow from inflow water in the lower end of an inlet. A plurality of inclined plates (215) which secondarily separate soil from inflow water passed through the punching plates is equipped inside a second soil settling tank. Filtering members (213), which are installed in a drain and discharge separated inflow water after purification, are equipped in the second soil settling bath. The inflow pipe passage comprises a semi-circular shaped outer pipe (330) and an inner pipe (310). The inner pipe moves the inflow water which is flowed in when water is clear to the first soil settling tank. The outer pipe moves the inflow water to the second soil settling tank when rain fall begins and a large amount of inflow water which overflows the inner pipe is generated. [Reference numerals] (AA) Soil and inflow water

Description

Sand Settling Tank

The present invention relates to a sediment settling tank, and more particularly, to a sediment settling tank having a plurality of partitions and slope plates.

In Korea, many factories were established due to rapid industrialization, and a lot of wastewater was generated due to population concentration due to urbanization. However, water pollution became serious when natural purification reached its limit. Therefore, the government is aware of the importance of the environment, especially the seriousness of water pollution, and enacted legislation accordingly, making a lot of efforts to improve water quality, such as expansion of sewage treatment plants, and efforts to improve water pollution by repairing large and small rivers. Doing

For example, when the soil is accumulated in the river, the soil is drained by using heavy equipment to maintain the depth of the river and smooth the flow of the river.

However, the method of removing the soil directly from the stream has been time-consuming and expensive for large rivers. In order to prevent the inflow of sediment into the river, a technique is used.

Looking in detail from the conventional invention (registration number 10-0646704) of them are as follows.

1 is a side cross-sectional structural view of the inclined plate settling tank according to the prior invention. Referring to Fig. 1 with reference to the prior invention, the inclined plate settling tank is provided with a stacking guide means for guiding the stacked inclination of the corrugated inclined plate 10 in a frame 25 in which the corrugated inclined plate 10 for forming the inclined plate is stacked. The guide means is a toothed frame 25 formed at the bottom of the settling tank. The bottom of the sedimentation tank 20 is formed in the form of a serrated frame to support the corrugated inclined plate 10, so that one corrugated inclined plate 10 for each sawtooth of the toothed frame 25 is mounted. do. Since the serrated frame 25 naturally mounts the corrugated inclined plates to the respective tooth mounts, the inclined stack is naturally formed, so that the inclined plates can be easily assembled and replaced during maintenance. The serrated frame is installed so as not to disturb the flow of running water inside the inclined plate.

As described above, the conventional invention has a disadvantage in that an overflow occurs inside the sedimentation tank when there is a lot of precipitation, and thus cannot fulfill its original purpose. In addition, the solid-liquid separation through a plurality of inclined plate is efficient, but in order to remove the sedimentary soil, there is a need to remove the earth and sand after removing the inclined plate.

Conventional invention has the disadvantage that it can not act as a sedimentation tank in case of overflow when the precipitation is large.

In addition, because the inclined plate must be dismantled when removing the soil, it is cumbersome to remove the soil.

The present invention is to solve such a problem in the prior art, to provide a sedimentation sedimentation tank that can efficiently handle the overflowed precipitation using a double pipe during precipitation.

Another object of the present invention is to provide a sedimentation sedimentation tank having a conveyor belt inside the sedimentation sedimentation tank so that sedimented sediment can be efficiently removed.

In order to achieve the above object, the present invention is provided with a plurality of partition walls for separating the soil and influent, the first soil sedimentation tank having a first conveyor belt in the lower part of the sedimentation tank for moving the sedimentary soil to the sedimentation section, A perforated plate for separating soils first is provided at the lower end of the inlet, and a plurality of inclined plates for separating the soil from the inflow water passing through the perforated plate are provided in the inner space. A second soil sedimentation tank having a filtration member discharged to the outside, in the form of a double pipe, a semi-circular inner tube for moving the inflow water flowing in Changcheon to the first soil sedimentation tank, and the rain starts the inner tube If a large amount of inflow water overflows, the inlet pipe consisting of an outer pipe for moving the generated inflow water to the second soil sedimentation tank It is configured to include.

In this case, the first soil sedimentation tank may include a first motor for driving the first conveyor belt.

The second soil sedimentation tank may include a second conveyor belt below the sedimentation tank for moving the precipitated soil to the sedimentation unit.

In addition, the second soil sedimentation tank may be installed on one side of the lower side of the sedimentation tank, and may include a second motor for driving the second conveyor belt.

Finally, the inclined plate may have a zigzag shape.

The present invention has the effect of reducing the cost and manpower required than removing the soil in the river because it can be easily removed from the sedimentation tank inlet to the river.

In addition, by first purifying the precipitation containing non-point pollutants, there is an effect that can reduce the cost required for water purification.

In addition, by using two sedimentation tanks flexibly to cope with the increase in precipitation, there is an effect that can prevent floods.

1 is a side cross-sectional structural view of the inclined plate settling tank according to the prior invention.
Figure 2 is a perspective view showing the earth and sand sedimentation tank according to the present invention.
3 is a cross-sectional view taken along the line A-A 'of the first earth and sand sedimentation tank according to the present invention.
Figure 4 is a cross-sectional view taken along line B-B 'of the second earth and sand sedimentation tank according to the present invention.
5 is a cross-sectional view of the inlet pipe in accordance with the present invention.
Figure 6 is a perspective view showing another embodiment of the earth and sand sedimentation tank of the present invention.

Matters relating to the operational effects including the technical configuration of the earth and sand sedimentation tank 10 according to the present invention will be clearly understood by the following detailed description with reference to the drawings in which preferred embodiments of the present invention are shown.

Figure 2 is a perspective view showing a soil sedimentation tank according to the present invention, Figure 3 is a cross-sectional view taken along line A-A 'of the first soil sedimentation tank according to the present invention, Figure 4 is a B-B' of the second soil sedimentation tank according to the present invention Line cross section.

As shown in Figures 2, 3 and 4, the sedimentation sedimentation tank 10 according to the present invention has a plurality of partitions 113 for separating the sediment and influent water, the sedimented sediment to the sediment portion 117 A first earth and sand sedimentation tank 100 having a first conveyor belt 110 to be moved below the sedimentation tank, and a perforation plate 390 for separating primary soils from the inflow water at the lower end of the inlet, and the perforation plate 390 is provided. Second earth and sand having a plurality of inclined plate (215) for separating the soil from the influent passed in the interior space, and the filtration member 213 is mounted to the drain hole to purify the influent separated from the soil to discharge to the outside Sedimentation tank 200, in the form of a double pipe, the semicircular inner tube 310 for moving the inflow water flowing in the Changcheon (蒼天) to the first earth and sand sedimentation tank 100, and the rain starts the inner tube 310 If a large amount of influent overflows, Group is configured to include an inlet pipe 300 is formed of an outer tube 330 to move to the second gravel settling tank 200.

At this time, a first motor 211 for driving the first conveyor belt 110 is installed on one side of the first earth and sand sedimentation tank 100.

In addition, the second soil sedimentation tank 200 is provided with a second conveyor belt 210 for moving the sedimented soil to the sedimentation unit 217 under the sedimentation tank, and the second soil sedimentation tank 200 at one side thereof. The second motor 211 for driving the conveyor belt 210 is installed.

The first and second motors 111 and 211 are three-phase motors capable of forward rotation and reverse rotation.

3 and 4, the first and second conveyor belts 110 and 210 have protrusions 119 and 219 formed on the belt to efficiently move the precipitated soil, and the protrusions 119. , 219 serves to use the floor during the belt rotational movement to move the sediment deposited on the bottom of the sedimentation tank to the deposition unit (117, 217).

At this time, the second soil sedimentation tank 200 is provided with the perforated plate 390 to separate the gravel or rock mixed with the influent and the influent.

In addition, the partition 113 is bent left and right so that the upper and lower portions have a predetermined angle, and the inclined plate 215 has a zigzag shape to enable sedimentation of the soil efficiently.

An inner wall of the first and second soil sedimentation tanks 110 and 210 is provided with a ladder 400 to conveniently move the inside of the sedimentation tank when the worker processes the sediment in the first and second soil sedimentation tanks 110 and 210. It was.

In addition, the second soil sedimentation tank 210 is a filter member 213 for purifying non-point pollutants because the non-point pollutant is introduced into the second soil sedimentation tank 210 when the inflow water is large, that is, the amount of rainwater is large. It is provided.

The filtration member 213 may be detachable and attached, and various media of the filtration member 213 may be used depending on the type of the pollution source.

5 is a cross-sectional view of the inlet pipe in accordance with the present invention.

Referring to Figures 2 and 5, the inner tube 310 of the inlet pipe 300 is connected to the first soil sedimentation tank 100, the usual flow rate to the first soil sedimentation tank 100 Move it. However, when the flow rate increases (rainy season) when the inflow water overflows the inner tube 310, the overflowed inflow water is moved to the second earth and sand sedimentation tank 200 through the outer tube 330. . In addition, a support 350 is provided between the inner tube 310 and the outer tube 330 to support the inner tube 310 inside the outer tube 330.

The inflow pipe 300 is provided with a flow sensor (not shown) to measure the flow rate flowing from the outside per second, per minute or hour, and the measured data is transmitted to the center through a communication unit (not shown). By analyzing the transmitted data, it is possible to estimate the amount of soil mixed with the influent and the thickness of the soil deposited in the sedimentation tank.

As described above, the earth and sand sedimentation tank of the present invention includes a first soil sedimentation tank 100 and a second soil sedimentation tank 200 according to the flow rate, when the flow rate does not exceed the inner pipe 310, the first soil sedimentation tank If only 100, the flow rate exceeds the inner tube 310 is to use both the first soil sedimentation tank 100 and the second soil sedimentation tank 200.

The control unit (not shown) drives the first and second motors according to a command from the center road (not shown) to move the deposits scattered and deposited in the sedimentation tank to the deposition units 117 and 217.

Figure 6 is a perspective view showing another embodiment of the earth and sand sedimentation tank of the present invention.

As shown in Figure 6, the soil sedimentation tank 10 is installed on the side of the road, the inlet pipe 300 is provided with an inlet hole 370 in the upper center. When the inflow water (rain water) is generated flows into the inlet hole 370, the inflow water flows through the inner pipe 310 to move to the first soil sedimentation tank (100).

Although the preferred embodiment of the present invention has been described in detail above, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

Accordingly, the scope of the present invention should not be limited to the disclosed embodiments but should be regarded as belonging to various modifications and improvements of those skilled in the art using the basic concept of the present invention as defined in the following claims, or the scope of the present invention. .

10: soil sedimentation tank
100: first soil sedimentation tank
110: first conveyor belt 111: first motor
113: bulkhead 117, 217: sediment
119, 219: protrusion
200: second soil sedimentation tank
210: second conveyor belt 211: second motor
213: filtering member 215: inclined plate
300: inlet pipe
310: inner tube 330: outer tube
350: support 370: inlet hole
390: punched plate
400: ladder

Claims (5)

A first soil sedimentation tank having a plurality of partition walls separating sediment and inflow water, the first soil sedimentation tank having a first conveyor belt below the sedimentation tank for moving the sedimented soil to the sedimentation unit;
A perforated plate for separating the soil from the inflow water is provided at the bottom of the inlet, and a plurality of inclined plates for separating the soil from the inflow that passed through the perforated plate in the inner space, and the influent separated from the soil A second soil sedimentation tank having a filtration member for purifying and discharging it to the outside;
In the form of a double tube, the semi-circular inner tube for moving the influent flowing into the first sediment settling tank during the Changcheon, and when a large amount of inflow water overflows the inner tube occurs, the influent generated Soil sedimentation tank comprising an inlet pipe consisting of an outer tube for moving to the second soil sedimentation tank. The method of claim 1, wherein the first earth and sand sedimentation tank
Soil sedimentation tank comprising a first motor for driving the first conveyor belt. The method of claim 1, wherein the second soil sedimentation tank
A sedimentation sedimentation tank, characterized in that it comprises a second conveyor belt in the lower portion of the sedimentation tank for moving the sedimented sediment to the deposit. The method of claim 3, wherein the second soil sedimentation tank
The sedimentation tank is installed on the lower side of the sedimentation tank, and comprises a second motor for driving the second conveyor belt. The method of claim 1, wherein the inclined plate
Earth and sand settling tank, characterized in that having a zigzag form.

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