KR101069879B1 - Upper water exhaust apparatus - Google Patents

Abstract

The present invention relates to a supernatant discharge device capable of discharging supernatant regardless of a change in water level in a water treatment facility or a reservoir.

The main configuration of the present invention is arranged side by side on one side of the plurality of supply pipes so that each of the plurality of supply pipes arranged in a row, and the plurality of supply pipes are rotated in one side in a state in which the plurality of supply pipes are connected in a row to support each rotation between the plurality of supply pipes, respectively A plurality of hinge members and a plurality of supply pipes are disposed between the hinge members so that the plurality of supply pipes are erected vertically, and a plurality of floats installed on the plurality of supply pipes.

Super water, float, supply pipe

Description

Upper Water Discharge Device {UPPER WATER EXHAUST APPARATUS}

The present invention relates to a supernatant discharge device capable of discharging supernatant regardless of a change in water level in a water treatment facility or a reservoir. More particularly, the present invention relates to a supernatant discharge apparatus capable of discharging only supernatant by allowing a supply pipe to be separated according to the water level.

The device for treating water includes rainwater storage tanks storing rainwater, sewage storage tanks storing sewage, and water reservoirs storing water in apartments. As such, the water stored in the various storage tanks are allowed to accumulate for a long time, and the suspended solids contained in the water settle and sink to the bottom.

In order to use the water stored in the storage tank, it is effective to use the water discharged through the discharge pipe formed on one side of the storage tank, but it is effective to use the supernatant water that is relatively clean, but the discharge pipe is located at the bottom of the storage tank. There is a difficult problem with the discharge.

In order to solve this problem, the discharge pipe may be equipped with a filtration membrane, but there is a problem that additional cost is required for the filtration membrane treatment and supernatant cannot be used first.

On the other hand, in Korean Patent Registration No. 10-0473885 is a discharger that is formed in the upper side water inlet is formed downward, the upper part is formed with a vent pipe, the lower center is formed with a discharge pipe for discharging the introduced supernatant; A float for vertically moving the discharger; It is connected to the side surface of the inlet of the discharger is not formed, the housing for receiving the floating body; A discharger guide rod installed through the floating body and the housing, and fixedly installed vertically in the reaction tank to form a locking plate for inducing movement of the floating body and the discharger within a predetermined depth; A natural flotation type supernatant discharge device having a expansion pipe connected to the discharge pipe under the discharger was proposed.

However, Patent No. 10-0473885 solves the problem of preferentially using the rising water, but when the water level of the storage tank is lowered, there is a problem that the expansion pipe is placed at a lower position than the discharge pipe so that the introduced water is not discharged smoothly. .

The problem to be solved of the present invention is to provide a supernatant discharge device that can discharge the supernatant regardless of the change in the water level in the water treatment facility or reservoir.

Another problem of the present invention is to provide a supernatant discharge device capable of discharging only the supernatant by allowing the supply pipe to be separated according to the water level.

Another problem of the present invention is to provide a supernatant discharge device that can be discharged to the supernatant water is always stretched up and down in accordance with the change in the water level.

The supernatant discharge device according to an embodiment of the present invention is arranged side by side on a side of the plurality of supply pipes so that each of the plurality of supply pipes are arranged in a row, and the plurality of supply pipes are connected in a row to each side, respectively It includes a plurality of hinge members for supporting each rotation between the plurality of hinge members, the plurality of supply pipes are arranged between the hinge members so that the plurality of supply pipes are erected vertically, and installed on top of the plurality of supply pipes, depending on the height of the supernatant Floating sequentially, a plurality of supply pipes are sequentially rotated, characterized in that only the supernatant can be discharged even if the water level is changed.

In addition, the plurality of vertically arranged supply pipes may be installed to be inclined at a predetermined angle in a direction in which the hinge is installed.

In addition, the fixing unit further includes a fixing unit for fixing the supply unit to the supply pipe, and the fixing unit includes a floating holder formed in the supply pipe, and a band clip that is held in the floating holder and surrounds the floating unit.

In addition, the apparatus for discharging supernatant according to another embodiment of the present invention includes a plurality of supply pipes that are telescopically expanded, a float installed in an upper supply pipe among a plurality of supply pipes, and a side of the supply pipe to be positioned below the float. It includes a supply hole is formed, and the locking step formed in the lower portion of the supply hole is caught on the upper portion of the other supply pipe.

According to the present invention, it is applied to a water treatment facility or a reservoir, etc., there is an advantage that the supply pipe is separated by the floating body regardless of the change in the water level to discharge the relatively clean supernatant.

In addition, there is an advantage that the supply pipe is accurately fixed by the floating even if the water level of the water treatment facility or reservoir, etc. rises.

In addition, the present invention has the advantage that the supply pipe is stretched up and down in accordance with the change in the water level can always use the supernatant.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a supernatant discharge device according to an embodiment of the present invention, Figures 2 to 4 is a state diagram of the use of the supernatant discharge device of FIG.

As shown in Figures 1 to 5, an embodiment of the present invention is a plurality of supply pipe 10 is arranged in a row and a plurality of supply pipe 10 so that each of the plurality of supply pipe 10 is rotated in one side in a state connected in line A plurality of hinge members 20 arranged side by side on the one side of the (10) and each support the rotation between the plurality of supply pipes 10, and between the hinge members 20 so that the plurality of supply pipes 10 are erected vertically It is disposed in, and includes a plurality of floating body 30 is installed on top of the plurality of supply pipe (10). At this time, the plurality of supply pipe 10 is located inside the reservoir.

On the other hand, the reservoir (1) is provided with an inlet pipe (2) into which water is introduced into the upper one side, the discharge pipe (4) for supplying the supernatant to be separated from the water filled in the lower one side of the reservoir (1) is provided have. In addition, one side of the inlet pipe (2) is provided with a valve (3) for sensing the amount of the supernatant filled in the reservoir (1) to inject or block the supernatant. At this time, the discharge pipe 4 is connected to the last supply pipe 10 of the supply pipe (10). In addition, the bottom of the reservoir 1 may be provided with a drain hole 6 through which sediment can be discharged.

 Here, the supply pipe 10 may be manufactured in a cylindrical or square. At this time, when the jaw 11 is formed at the lower portion of each of the supply pipes 10 so that the supply pipes 10 are coupled in a line, the jaw 11 is accommodated in the upper portion of the supply pipe 10 so that the supply pipes 10 are separated between the supply pipes 10. Tightness can be maintained. In addition, the plurality of vertically arranged supply pipes 10 may be installed to be inclined at a predetermined angle, such as an angle between 30 degrees and 90 degrees.

In addition, the hinge member 20 has an upper hinge holder 21 formed at one upper side of the supply pipe 10, and lower hinge holders 22 formed at one lower side of the other supply pipe 10 to correspond to each other, and face each other. The hinge shaft 23 may be inserted into the upper and lower hinge holders 21 and 22. Therefore, the supply pipes 10 may be rotated in one direction by the hinge members 20.

In addition, the floating body 30 may be installed on each of the supply pipes 10. Subsequently, the last supply pipe 10 of the supply pipes 10 is connected to the discharge pipe 4 while the supply pipes 10 are accommodated in the reservoir 1. Then, when the treated water is filled in the reservoir 1, the supply pipes 10 may be vertically erected by the floating body 30 installed in each.

Accordingly, the floating body 30 placed in the water of the reservoir 1 exerts a force to raise the connected supply pipe 10 to the right position by the action of the rising force by the water pressure, the beret 30 located outside the water While pulling the supply pipe (30) for its own weight does not exert a force on the connected supply pipe (10), the supply pipe 10 on the water in the end can be in a state of being rotated by the hinge (20) axis. Therefore, since the supply pipe of the present invention always supplies only the supernatant water positioned at the upper side even when the water level of the reservoir 1 is changed, the contaminants that may accumulate in the lower portion of the reservoir 1 are not supplied to the outside, but only the supernatant water. It can be discharged to the outside. In addition, when the reservoir 1 is filled with water, the supply pipes 10 coupled to the floating body 30 are sequentially lined up according to the water level, whereby the supply of the supernatant water can be easily performed.

On the other hand, it further includes a sub-fixing portion 31 for accurately fixing the floating body 30 to the supply pipe 10, the sub-fixing portion 31 is a sub-holder 32 formed in the supply pipe 10 and the sub-holder ( The band clip 33 is held in the 32 and coupled to surround the floating body 30.

Here, the floating body 30 has a cylindrical shape, and the plurality of floating holders 32 are provided to be spaced apart in the horizontal direction so that the floating body 30 is horizontally disposed above the supply pipe 10, and the band clip 33 It is preferable that a plurality also be provided.

At this time, the band clip 33 may be composed of a band member 34 surrounding the floating body 30 and a head member 35 formed at one end of the band member 34 and fastened to the band member 34. In addition, the sub-holder 32 is preferably formed with a hole into which the band member 34 is inserted.

6 is a perspective view of the rising water discharge device according to another embodiment of the present invention, Figure 7 and Figure 8 is a state of use of the upper water discharge device of FIG.

As shown in Figures 6 to 8, another embodiment of the present invention is a plurality of supply pipes 40 that are telescopically stretched, and a floating body installed in the upper supply pipe 40 of the plurality of supply pipes 40 50, a supply hole 41 formed at the side of the supply pipe 40 so as to be positioned below the floating body 50, and a catch formed at a lower portion of the supply hole 41 and caught on an upper portion of the other supply pipe 40. Jaw 42 is included.

Here, the floating body 50 is raised and lowered according to the height of the water filled in the reservoir 1, whereby the plurality of supply pipe 40 can be elevated by the height of the water. At this time, the supernatant water may be supplied to the plurality of supply pipes 40 through the supply holes 41 positioned below the floating body 50.

In addition, the plurality of supply pipes 40 are formed with different sizes gradually in different thicknesses, while being fitted with each other, each upper part is formed with an upper jaw 43 which is enclosed inward, and each lower part is outwardly. A widened lower jaw 44 is formed. Thus, the plurality of supply pipes 40 can be expanded and reduced without being separated from each other.

In addition, when the plurality of supply pipes 40 are lowered by another supply pipe 40 is coupled to the supply pipe 40 is formed immediately below the supply hole 41 by the locking projection 42 formed in the lower portion of the supply hole 41 Being accommodated in can be prevented. Therefore, the supernatant can be easily introduced into the supply hole 41 in a non-closed state.

On the other hand, it is preferable that the plurality of floating bodies 50 are arranged on both sides of the supply pipe 40 so as to raise and lower the supply pipe 40 vertically. At this time, the floating body 50 is fixed to the floating cap 51 is formed with a female thread, the male cap is formed on the upper end of the supply pipe 40, the floating cap 51 may be screwed to the supply pipe (40). Therefore, the plurality of floating bodies 50 may be horizontally installed at both sides of the supply pipe 40.

Then, the floating body 50 may be fixed to the floating cap 51 by the band clip (53). In addition, by forming a cap hole 52 in the upper portion of the floating cap 51 can be more easily supplied to the supernatant water. Therefore, the supernatant water can be easily supplied to the outside through the plurality of supply pipes 40.

As described above, the present invention is a very useful invention that can be constantly discharged in the water located in the upper portion of the water stored in a certain space, can be applied to each of the upper water treatment plant or water treatment plant.

In the above, the Example of this invention was described. It will be understood by those skilled in the art that the technical configuration of the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the embodiments described above are to be understood in all respects as illustrative and not restrictive, the scope of the invention being indicated by the following claims rather than the foregoing description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

1 is a perspective view of a supernatant discharge device according to an embodiment of the present invention.

2 to 4 is a state diagram using the upper water discharge apparatus of FIG.

Figure 6 is a perspective view of the rising water discharge device according to another embodiment of the present invention.

7 and 8 is a state diagram using the upper water discharge apparatus of FIG.

Description of the Related Art

10, 40: supply pipe

20: hinge member

30, 50: floating body

Claims (4)

In the supernatant discharge device for discharging the supernatant water under a certain surface using a floating body, A plurality of supply pipes 10 arranged in a line; A plurality of hinges are arranged side by side on the one side of the plurality of supply pipes 10 so as to rotate in one side in a state in which the plurality of supply pipes 10 are connected in a row, and each of the plurality of supply pipes 10 to support the rotation between the plurality of supply pipes 10, respectively. Member 20; The plurality of supply pipes 10 are disposed between the hinge members 20 so that the plurality of supply pipes 10 are erected vertically, and include a plurality of floats 30 installed on the plurality of supply pipes 10. The supernatant discharge apparatus, characterized in that the floating body 30 is sequentially suspended according to the height of the supernatant water so that the plurality of supply pipes 10 are sequentially rotated to discharge the supernatant water. The method of claim 1, wherein the plurality of supply pipe 10 is the supernatant discharge apparatus, characterized in that installed inclined at a predetermined angle in the direction in which the hinge member (20) is installed. According to claim 1, It further comprises a floating fixing part 31 for accurately fixing the floating body 30 to the supply pipe 10, The floating fixing part 31 includes a floating holder 32 formed in the supply pipe 10; The supernatant discharge device comprising a band clip (33) that is held in the floating holder 32 and coupled to surround the floating body (30). In the supernatant discharge device for discharging the supernatant water under a certain surface using a floating body, A plurality of supply pipes 40 that are telescopically shaped; Floating unit 50 is installed in the upper supply pipe 40 of the plurality of supply pipes 40; A supply hole 41 formed at a side of the supply pipe 40 so as to be positioned below the floating body 50; The supernatant water discharge device is formed in the lower portion of the supply hole 41 and comprises a locking step (42) that is caught on the upper portion of the other supply pipe (40).

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