KR200344099Y1 - drain pipes ready for secession prevention device - Google Patents

Abstract

The present invention relates to a sewage receiver for introducing the sewage generated in the strata into an underground sewage pipe.

The present invention is an annular coupling ring 20 having upper and lower coupling jaws (22, 23), the inlet pipe 30 of the circular pipe coupled to the coupling ring 20, the sewage movement path 42 and the drain ( 43 and a distribution pipe 40 having a drain 44.

This design not only prevents the manhole from falling off during the construction process, but also greatly simplifies the construction work, and ensures smooth drainage after completion of construction, thereby preventing the inflow of sewage into the ground. It can be effective.

Description

Drain pipes ready for secession prevention device

The present invention relates to a circular sewage receiving device having a separation prevention structure, and more specifically, to manage the state of sewage pipes buried underground and to sewage generated in the ground (home) to underground sewage pipes. It relates to a sewage collector for inflow.

Conventionally, a vertical pipe is buried underground to discharge outlets and inlets horizontally at the bottom of the pipe (basement layer), and then manholes are connected to the top of the pipe to manage the condition of the sewage pipe or to discharge sewage from the ground. It can be flowed into the furnace.

In the case of the conventional sewage receiving structure, prior to construction, the outlet and the inlet should be welded separately, and then the sewage pipes should be connected. The manhole is often pushed to one side, and thus the construction is not accurate, and when the positions of the outlet and the inlet are not welded correctly, there is a problem such that the sewage is not smoothly flown.

In addition, in order to construct the sewage collecting structure, concrete should be placed in a certain area of the strata where the lower end of the pipe is in contact with each other to prevent the sewage that is moved through the sewage pipes from entering the basement. Not only is it difficult, but even when concrete is poured, problems such as 100% prevention of inflow of sewage into the ground occur.

The present invention was created to eliminate all the problems of the conventional sewage receiving structure as described above, to prevent the manhole from falling off during the construction process and to make the construction very simple, construction After the completion of the project, the sewage receiver is provided with the main focus of the technical task to ensure the smooth drainage of sewage while preventing the inflow of sewage into the base.

1 is a perspective view showing a preferred embodiment of the sump presented in the present invention.

Figure 2 is a cross-sectional view showing the internal structure of the present invention.

3 is a state of use of the present invention.

▣ Explanation of symbols used in main part of drawing

10: Sewage collecting 20: Coupling ring

22: upper coupling jaw 23: lower coupling jaw

30: inlet pipe 31: flange portion

32: sewage inlet 40: distribution pipe

41: entrance opening 42: sewage passage

43: drain hole 44: drain hole

G: Manhole P: Sewage pipe

1 is an exploded perspective view showing a preferred embodiment of the sewage receiver 10 presented in the present invention, through which the present invention shows a manhole G, an annular coupling ring 20, and a circular tube It can be seen that the inlet pipe 30, the distribution pipe 40 and the like.

The coupling ring 20 is formed in the shape of an annular band extending in the horizontal direction to be coupled to the upper end of the inlet pipe 30, the upper and lower coupling jaw (up and down) extending inside the coupling ring 20 ( 22,23).

The inlet pipe 30 is made of a hollow circular pipe to cut the lower end portion according to the terrain or circumstances in which the sewage receiver 10 is embedded, so that the length can be freely adjusted, the upper end of the inlet pipe 30 A flange portion 31 is formed to extend outward to allow the coupling ring 20 to be placed therein, and the inner diameter of the inflow pipe 20 is substantially equal to the outer diameter of the lower coupling jaw 23 provided on the coupling ring 20. To coincide, the sewage inlet 32 is formed at a predetermined position of the side wall of the inlet pipe 30.

The distribution pipe 40 has an inlet opening 41 for accommodating the outer diameter of the inlet pipe 30 and is formed in the form of a "⊥" type branch pipe and is downward in the central area of the inner bottom surface (W). A sewage movement path 42 is formed to be recessed, and both ends of the sewage movement path 42 are formed with drainage holes 43 and drains 44 penetrating to the outside.

At this time, the sewage movement path 42 has a gentle slope in one direction to form the drain port 43 in the high position and the drain port 44 in the low position, the bottom surface of the distribution pipe (40) W) forms a downward slope gradually lowering toward the sewage movement path 42 so that the sewage movement path 42 is formed at the lowest position of the bottom surface W. FIG.

The present invention having the above configuration allows the inflow pipe 30 and the distribution pipe 40 to be buried underground so that the sewer 43 and the drain 44 of the distribution pipe 40 are different sewage receiving or sewage treatment facilities. Combining the sewage pipe line (P) connected to the, and the sewage inlet (32) of the inlet pipe 30 by using a combined sewage pipe line (P2) for flowing the sewage generated in the home, such as construction in construction sites The length of the inlet pipe 30 is adjusted to a desired standard by cutting the end of the inlet pipe 30 at a time, and then corresponding to the drain port 43 and the drain port 44 among the lower ends of the inlet pipe 30. Sewage flows into the drain port 43 by forming a semi-circular tubular groove 33 in the area is discharged through the drain port 44 via the sewage movement path 42, the sewage inlet 32 of the inlet pipe 30 The sewage introduced through the water is discharged to the sewer 43 through the sewage movement path 42. (See FIGS. 2 and 3. )

The present invention is a configuration in which the manhole (G) is fitted into the upper coupling jaw 22 of the coupling ring 20 in a state in which the lower coupling jaw 23 of the coupling ring 20 is fitted into the inlet pipe 30 and coupled thereto. Therefore, the coupling ring 20 or the manhole (G) in the construction process of the sewage receiving 10 is prevented from being sloped to the side.

In addition, the present invention is the bottom of the distribution pipe 40 is sealed and the drain port 43 and the drain port 44 is formed on one side of the distribution pipe to connect the sewage pipe (P) to the sewage to the underground It is very convenient to construct the sewage receiver 10 because it does not need to be prevented from being introduced at the source and does not require a concrete pouring process or a welding process to construct the sewage receiver 10.

The sewage receiver proposed in the present invention not only prevents the manhole from falling off during the construction process, but also makes the construction work very simple. It can be prevented at the source, and the expected effect is a very useful design.

Claims (1)

A manhole G having a flange portion G1; An annular coupling ring 20 having upper and lower coupling jaws 22 and 23 extending upward and downward; An inlet pipe 30 formed by forming a flange portion 31 extending outward, and forming a sewage inlet 32 on one side of the side wall; An inlet opening 41 is formed to accommodate the outer diameter of the inflow pipe 30, and a sewage movement path 42 is formed at the center area of the bottom surface W, and both ends of the sewage movement path 42 penetrate to the outside. Circular sewage receiving having a separation prevention structure, characterized in that consisting of the distribution pipe 40 formed by forming the drain port (43) and the drain port (44).