KR20120013572A - apparatus of control flow for manhole - Google Patents

Abstract

PURPOSE: A device for controlling the flow rate of a manhole without power is provided to enhance the treating efficiency of a sewage treatment plant by floating depending on the amount of sewage flowing into a chamber in a manhole and by selectively opening/closing a sewage pipe. CONSTITUTION: A device for controlling the flow rate of a manhole without power comprises a plate, a floating body, and a guardrail. The plate is covered at the entrance of a sewage pipe(18) and makes vertical movement by the floating body. The plate comprises orifice connected to the sewage pipe. The floating body is connected to both sides of the plate. The floating body generates buoyancy with the flow rate of sewage and rainwater flowing into a chamber(12) in a manhole(10) and floats the plate. The guard rail is vertically installed outside the floating body and guides the movement of the floating body.

Description

{Apparatus of control flow for manhole}

The present invention relates to a manhole manhole flow rate control device, and more particularly, the treatment efficiency of the sewage treatment plant that rises depending on the amount of sewage and rainwater flowing into the manhole inside the manhole and selectively opens and closes the sewage pipe to treat the sewage. It relates to a non-powered man-ho man flow control device to increase the.

Generally, sewage systems include a combined sewage system that discharges rainwater and sewage into the same sewer pipe, and a sewage system that separates sewage pipes and rainwater pipes into separate sewage.

Most sewage systems in major cities in Korea, including Seoul, consist of a combined sewage system. In the combined sewage system, sewage and rainwater flow into a single sewer pipe, that is, a conduit. In such a combined sewage system, only an appropriate amount of sewage should be sent to the sewage treatment plant during rainfall, and the rest should be discharged to the stream. This is to improve the treatment efficiency of the sewage treatment plant by preventing such a problem in advance, when a large amount of sewage containing rainwater during rainfall is supplied to the sewage treatment plant. .

On the other hand, the conventional manhole manhole flow rate control device is installed on the sewage pipe path of the manor house to install a mechanically driven water gate when the rainwater rainwater flows into the chamber of the manhole manhole, when the rainwater flows into the chamber to shut off the sewage pipe It is configured to prevent a large amount of sewage containing rainwater from flowing to the sewage treatment plant.

However, as mentioned above, the charge manhole flow control device, as mentioned above, has a closed end, which is not only economical and inefficient, but also causes energy waste due to power use as the water gate for opening and closing the sewage pipe is mechanically driven.

Accordingly, an object of the present invention for solving the problems as described above is buoyancy according to the inflow of sewage flowing into the inner chamber of the manhole and to selectively open and close the sewage pipe treatment efficiency of the sewage treatment plant with a relatively simple structure It is to provide a non-powered manho flow control device to increase the.

The present invention for achieving the above object is formed in the chamber for the introduction of sewage and rainwater, the front, the rear wall is a non-power to open and close the rainwater pipes installed on one side wall of the tea house manhole is respectively connected to the inlet and outlet In the collection manhole flow rate control apparatus, the plate is covered with the inlet of the sewage pipe passage and the front plate is formed in the orifice through the connection to the sewage pipe passage, connected to both sides of the plate and the sewage and rainwater flowing into the chamber of the manhole manhole Floating to the plate by buoyancy by the flow rate of the orifice spaced apart from the sewage pipe to close the sewage pipe, and is installed in a vertical position standing on the outside of the floating body to guide the movement of the floating body Characterized in that comprises a guide rail to the.

The non-powered manhole flow rate adjusting device according to the present invention has a plate having an orifice formed in the center of the front of the sewage pipe, and on both sides of the plate a buoyant body floating by buoyancy according to the inflow of sewage flowing into the chamber of the manhole. When the sewage containing a large amount of rainwater is introduced into the chamber of the manhole when rainfall, the buoyancy body floats as buoyancy and lifts the plate to close the sewage pipe connected to the sewage treatment plant. It prevents the inflow of large amounts of rainwater in advance, and realizes the effect of improving the treatment efficiency of the sewage treatment plant with a relatively simple structure.

1 is a view showing the side of the vehicle manhole is installed flow control device according to the invention.
2 is a diagram three-dimensionally showing the configuration of the flow regulating device shown in FIG.
Figure 3 is a view showing the operating state of the flow control device in Cheoncheon.
4 is a view showing an operating state of the flow rate control device during rainfall.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments that can be presented with the present invention are replaced by the description in the configuration of the present invention.

In the present invention, a plate having an orifice is installed at the center of the sewage pipe in the center, and on both sides of the plate, a buoyant body floating as a buoyancy is installed according to the inflow of sewage flowing into the chamber of the manhole of the house. When the included sewage flows into the chamber of the manhole, the buoyancy body floats with buoyancy and lifts the plate to close the sewage pipe connected to the sewage treatment plant. Thus, a large amount of rainwater flows into the sewage treatment plant. It is intended to implement a non-powered manhole flow control device to prevent the wastewater from increasing the efficiency of the sewage treatment plant.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

Attached Figure 1 is a view showing the overall configuration of the vehicle manhole equipped with a non-powered flow control device according to the present invention, Figure 2 is a three-dimensional view showing the configuration of the flow control device shown in FIG.

As shown in FIGS. 1 and 2, the manhole 10 has a rectangular cross-sectional shape and a chamber 12 is formed therein for introducing sewage and rainwater, and before and the rear wall is an inlet 14. And configured to be connected to the outlet 16, respectively. In the inlet 14, the cheoncheon sewage is introduced, and during rainfall, the sewage and rainwater are introduced together. In addition, as the discharge port 16, the sewage pipe 18 to be described later during the rain is closed by the flow control device 20 of the present invention, and the sewage and rainwater overflowing from the chamber 12 of the tea house manhole 10 Discharged.

A sewage pipe line 18 is installed at one side wall of the manhole 10, and the sewage pipe line discharges the sewage introduced into the chamber of the chop house manhole through the inlet to the sewage treatment plant in Cheongcheon, By the flow control device of the present invention, the diameter of the pipe is narrowed or completely closed to block the discharge of a large amount of rainwater in addition to the sewage treatment plant.

One side wall of the house manhole 10 in which the sewage pipe 18 is installed, the flow rate control device 20 is further included.

The flow rate control device 20 is floated by the sewage and rain buoyancy flowed into the chamber 12 of the manhole 10, gradually closing the inlet of the sewage pipe 18, a large amount of wastewater in addition to the sewage treatment plant. Means to prevent rainwater from being discharged together.

The flow control device 20 is configured to include a plate 22, the floating body 26 and the guide rail (28).

The plate 22 is a means for vertically moving up and down by buoyancy of the floating body 26 in a state covered with the inlet of the sewage pipe 18.

The plate 22 is formed with an orifice 24 is made smaller than the diameter of the sewage pipe 18, the orifice 24 is connected to the sewage pipe 18 and communicates with the manhole 10 The sewage introduced into the chamber 12 is passed through the sewage pipe 18, and the plate 22 is floated due to the flow rate of sewage and rainwater flowing into the chamber 12 of the tea house manhole 10 during rainfall. In the process of floating by buoyancy in (26), the sewage pipe 18 is displaced and the sewage pipe 18 is not allowed to pass.

The buoyancy body 26 generates the buoyancy by the flow rate of sewage and rainwater flowing into the chamber 12 of the tea house manhole 10 during the rainfall in the state configured to be connected to both sides of the plate 22 to the plate 22 Injured.

The guide rails 28 are installed vertically on both sides of the plate 22 at a predetermined distance, and are buoyant bodies 26 floating at the flow rates of sewage and rainwater flowing into the chamber 12 of the manhole 10. Guide the movement of At this time, the upper end of the guide rail 28 is preferably configured to further install a stopper 30 to limit the height of the float of the buoyancy body (26).

The flow rate adjusting device 20 is such that when only sewage flows into the chamber 12 of the tea manhole 10 through the inlet 14 of the Cheoncheon, the plate 22 completely blocks the sewage pipe 18. Since the buoyancy body 26 does not float, the sewage can be passed through the orifice 24 of the plate 22 to the sewage pipe 18, and thus, the sewage can be easily discharged to the sewage treatment plant.

On the contrary, during rain, a large amount of rainwater is introduced into the chamber 12 of the manhole 10 through the inlet 14. In this case, as the flow rate of rainwater is added to the buoyancy body 26, It rises higher than Cheongcheon, and lifts the plate 22 upward, through which the orifice 24 formed in the plate 22 is separated from the sewage pipe 18 and completely spaced above the sewage pipe 18. And rainwater can be blocked to pass through the sewage pipe (18) to be able to block the discharge of a large amount of rainwater in addition to the sewage to the sewage treatment plant, a detailed description thereof will be described in the following description.

Hereinafter, the operation of the non-powered manhole flow rate manipulator according to the present invention will be described with reference to FIGS. 3 and 4.

First, in Cheongcheon, only sewage is introduced into the chamber 12 of the tea manhole 10 through the inlet 14 as shown in FIG. 3, in which case the buoyancy body 26 is the plate 22 only by the flow rate of the sewage. As the plate 22 is not injured enough to completely block the sewer line 18, the orifice 24 of the plate 22 remains in communication with the sewer line 18 and the chamber ( Sewage introduced into 12 is passed through the sewage pipe 18 to be discharged to the sewage treatment plant.

On the other hand, during rainfall, as shown in Figure 4 through the inlet port 14 to the chamber 12 of the manhole 10, a lot of rainwater is introduced in addition to the sewage, in this case as the flow rate of rainwater in addition to the sewage The buoyancy body 26 causes the plate 22 to rise higher, so that the orifice 24 of the plate 22 is completely spaced upwards away from the sewer line 18 so that the sewage and rainwater sewage pipe 18 By blocking the passage to), it is possible to block the discharge of large amounts of rainwater in addition to the sewage treatment plant.

10: house manhole 12: chamber
18: sewage pipe 20: flow control device
22: plate 24: orifice
26: buoyant body 28: guide rail

Claims (1)

The chamber 12 is formed inside the sewage and rainwater, and before that, the rear wall is a rainwater pipe 18 installed at one side wall of the manhole 10, which is connected to the inlet 14 and the outlet 16, respectively. In the non-powered manhole flow control device for opening and closing the),
A plate 22 which is covered at the inlet of the sewage pipe path 18 and has an orifice 24 connected to the sewage pipe path 18 through the front surface thereof;
It is connected to both sides of the plate 22 and floats the plate 22 by buoyancy by the flow rate of sewage and rainwater flowing into the chamber 12 of the manhole 10, the orifice 24 to the sewage pipe A buoyancy body 26 spaced apart from (18) to close the sewage pipe 18;
The non-powered manhole flow rate control device, characterized in that it is installed in a vertical position on the outside of the buoyancy body 26 and comprises a guide rail 28 for guiding the movement of the buoyancy body (26).

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