KR200342276Y1 - Sewerage with channel - Google Patents

Abstract

An object of the present invention is to provide a sewer pipe to prevent sedimentation of solids by ensuring the flow rate of sewage even in Cheongcheon.

Accordingly, the present invention provides a sewer pipe having an invert including a channel having a semi-circular cross-sectional structure at the inner bottom, and a stepping portion horizontally connecting the upper end of the channel and the inner wall of the sewer pipe.

Description

Sewerage channel with section strain channel

The present invention relates to a sewage pipe, and more particularly, to a sewage pipe including a cross-sectional deformed waterway to ensure the flow rate in Cheongcheon.

In general, the sewage flowing out from rainwater or homes in a combined sewage pipe is drained through sewer pipes buried in the ground, and such sewage pipes smoothly do not settle the solids such as various organic and inorganic substances contained in the sewage in sewer pipes. It is buried in accordance with the standard for drainage.

Although the standard is slightly different according to each region, most of them have a constant slope and are installed to maintain the flow rate of 0.6-3.0m / sec.

If the flow rate of sewage is slow, solids precipitate in the sewage and the inflow of sewage treatment equipment becomes low, which makes it difficult to operate the treatment plant.The sedimented solids are discharged to the river through rainwater tossing during rainfall and act as the main cause of river pollution. There is a problem that makes maintenance more frequent.

However, most of the domestic sewage pipes, including Seoul City, are a joining sewage pipe that excludes rainwater (small) and sewage together, and are designed for the primary purpose of drainage.Therefore, they are unsuitable for sewage pipes. Of course, it also provides a direct cause of decay.

In addition, even properly designed confluence sewer pipes have a ratio of several hundred to several thousand times in rainy weather and in Cheoncheon, and the actual flow rates in Cheoncheon are designed and solid because the design criteria of the conduit are based on the flow of rain. The situation is not much below the minimum flow rate for preventing precipitation.

Therefore, solids settled in conduits due to underflow of Cheoncheon-si are discharged to rivers at the same time with the initial rainy weather in rainy weather, causing water accidents. According to the EPA report, about 30% of downstream pollutant loads occur even in properly designed conduits. It has been reported to be deposited within.

This means that securing the flow rate of Cheongcheon should be considered as a very important task for the direct injection of sewage pipe manure, which is being promoted in Seoul.

Accordingly, the present invention has been made in view of the above-described issues, and its purpose is to provide a sewage pipe including a cross-sectional deformed waterway which can prevent sedimentation of solids by securing a flow rate of sewage even in Cheongcheon. .

In addition, the present invention has another object to provide a sewer pipe including a cross-sectional deformed channel to be able to prevent a decrease in the water flow of the sewer pipe while ensuring a flow rate.

1 is a partial cutaway perspective view showing a sewage pipe according to an embodiment of the present invention,

Figure 2 is a partial cutaway perspective view showing another sewage pipe to another embodiment of the present invention,

3 is a view showing an inverted structure installed in the reverse gradient sewer pipe according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10,11: sewer pipe 20: invert

21: channel 22: foot step

In order to achieve the above object, the present invention provides a sewer pipe having a structure having an invert installed at the bottom of the sewage pipe, and having a semicircular cross-sectional structure and a stepping portion connecting the upper part of the channel and the inner wall of the sewer pipe almost horizontally.

In addition, the channel of the invert can be applied to a smooth plastic precast product such as polyethylene (PE) to improve the roughness coefficient and the concrete can be constructed between the channel and the inner wall of the sewer pipe, the surface is mortar to improve the roughness coefficient Or may be finished with a coating.

In this case, it is preferable that the channel number of the invert to ensure the water supply power to the roughness coefficient of about 0.010.

Therefore, the cross section of the existing sewer pipe is reduced by the invert installation, but the roughness coefficient of the inverted water is lower than 0.013, which is the roughness coefficient of the existing sewer pipe, to prevent a decrease in the overall water supply capacity.

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

1 is a partial cutaway perspective view showing a sewage pipe according to an embodiment of the present invention.

The figure illustrates a rectangular box sewage pipe 10, the sewage pipe 10 of the present invention is a semi-circular cross-sectional channel (21) formed in the longitudinal direction along the inner bottom center and the upper end of both sides of the channel and Inverter 20 is further provided between the inner wall of the sewer pipe 10 including a stepping portion 22 forming an inclination of about 10-20%.

The water channel 21 of the invert 20 is installed as a semi-precast product made of plastic, which is manufactured in advance, and is filled by pouring concrete between the water channel and the inner wall of the sewer pipe. Preferably, the bottom of the sewer pipe is laid with a rubble layer and a concrete layer is formed thereon, and more preferably, a mortar or coating layer is finished on the concrete layer.

Here, the stepping portion 22 of the invert can be inclined toward the waterway 21 at the inner wall of the sewer pipe, so that the contaminants of the stepping portion 22 can flow smoothly into the waterway 21. to be.

In addition, FIG. 2 illustrates a sewer pipe 11 having a circular cross-sectional structure, and according to the drawing, an invert including a water channel 21 and a foot tread portion 22 is installed at the inner bottom of the sewer pipe 11. Since the channel 21 and the stepping portion 22 are the same as those installed in the sewer pipe 10 having the rectangular box shape, the description thereof will be omitted.

Accordingly, the sewage flows only along the waterway 21 in Cheongcheon to secure a flow rate for sedimentation of solids, and in case of rain, the cross section required for the flow of sewage tends to be reduced, but as mentioned, the channel of the invert 20 (21) is made of a material with good roughness coefficient, and the stepped part on the side of the channel is also finished with mortar or coating, so the roughness coefficient of the sewer bottom channel 21 is higher than that of the sewer pipe before the invert is installed, and accordingly, the difference in overall water flow capacity is different. It will not appear.

On the other hand, Figure 3 illustrates an inverted structure installed in the reverse gradient sewer pipe.

According to the above drawings, it can be seen that the sewage pipe 11 is inclined in the opposite direction in which the reverse gradient goes to the sewer, and the invert 20 installed in the reverse gradient section of the sewage pipe 11 is a sewer pipe 11. The height from the bottom to the channel 21 is linearly changed according to the slope of the inverse gradient section.

That is, the height of the inverted channel 21 of the lowest part of the sewer pipe in the inverse gradient section is formed higher than the other parts, so that the upstream side and the downstream side are inclined horizontally or downwardly so that the sewage can flow smoothly along the channel 21. This will prevent sewage or sediment from settling in the reverse gradient zone.

Of course, according to the difference in the height of the waterway 21, the foot tread portion 22 connected to the inner wall of the sewer pipe from the upper portion of the waterway 21 is also changed to the same height difference.

The present invention can be seen to provide a sewage pipe having a significantly innovative function as described above. While exemplary embodiments of the present invention have been shown and described, various modifications and other embodiments may be made by those skilled in the art. Such modifications and other embodiments are all considered and included in the appended claims, without departing from the true spirit and scope of the present invention.

According to the sewage pipe including the cross-sectional deformed water channel according to the present invention as described above, it is possible to secure the flow rate of sewage in Cheongcheon to prevent the sedimentation of solids, and to prevent the decrease in the water flow of the sewage pipe while ensuring the flow rate. .

As a result, it is possible to reduce the pollution of the river caused by the participating solids, and to reduce the time, effort, and cost required for maintenance such as cleaning and dredging sewer pipes.

Claims (5)

A sewer pipe having a semi-circular cross-section channel in the inner bottom and an inverted cross-section channel including an inverted foot which horizontally connects the upper end of the channel and the inner wall of the sewer pipe. According to claim 1, wherein the channel of the invert is made of a plastic material, the construction between the water channel and the main building is made of concrete, the surface is finished with mortar or coating agent to reduce the roughness coefficient Sewer pipe included. The sewer pipe according to claim 1 or 2, wherein the channel of the invert has a roughness coefficient of about 0.010. The sewer pipe according to claim 1, wherein the stepped portion of the invert is inclined downward toward the water channel at the inner wall of the sewer pipe. According to claim 1, wherein the invert is installed in the reverse gradient section of the sewer pipe is the height from the bottom of the sewer pipe to the waterway varies linearly depending on the slope of the reverse gradient section connecting the upstream and downstream inclined horizontally or downwards A sewer pipe comprising a cross-sectional deformable channel, characterized in that.