KR101975329B1 - Drain Sewage Apparatus - Google Patents

Abstract

The present invention provides a sewage drain. The present invention comprises: a main body including an inflow pipe for introducing sewage, a receiving unit for collecting the sewage introduced into the inflow pipe, and an outflow pipe for flowing out the sewage collected in the receiving unit; and a U-trap connected to the inflow pipe in the receiving unit of the main body and receiving a predetermined amount of the introduced sewage to prevent odors from the sewage from flowing back through the inflow pipe. The U-trap has a drainage hole for discharging the standing sewage. The drainage hole is installed with a temperature sensitive module that contracts or expands according to a temperature change based on a critical temperature. The drainage hole is closed by expansion of the temperature sensitive module when the temperature is above a critical temperature. The drainage hole is opened by the contraction of the temperature sensitive module when the temperature in winter is below the critical temperature to discharge the sewage accumulated in the U-trap. According to an embodiment of the present invention, when the temperature is below the critical temperature in winter, the drainage hole is opened by the contraction of the temperature sensitive module to discharge the standing sewage into the U-trap, thereby preventing freezing of the U-trap and the main body.

Description

Drain Sewage Apparatus}

The present invention relates to a sewage receiving device, and more particularly, to a sewage collecting device which can prevent the sewage collecting water freezing below the critical temperature in winter when the sewage accumulated in the U-trap installed inside the main body is frozen.

In general, waste water is generated in various buildings such as residential and commercial buildings, and in the outdoor, washing water and rainwater (hereinafter, referred to as 'excellent') used to clean the exterior and the surroundings of the building are generated.

As such, the wastewater and rainwater generated indoors and outdoors of the building are collected by sewage collectors buried underground and transported to water purification systems.

In the past, the wastewater sewage catcher and the sewage catcher for sewage were separately buried by dividing the wastewater and sewage due to the odor problem. A sewage receiver formed by combining with one has been proposed, and the inside of the sewage receiver is provided with a blocking device for preventing odors from flowing back into the room.

As shown in FIG. 1, the conventional sewage receiving body includes a main body 10 having an accommodating part therein, a main inflow pipe 20 formed on one side of the main body, and an outflow pipe 30 formed on the other side of the main body. And a plurality of auxiliary inlet pipes (40) installed between one side and the other side of the main body, and installed in the receiving portion of the main body and connected to the main inlet pipe so that the sewage flows in and the sewage remains to prevent backflow of odors. U-trap 50 is comprised.

The sewage receiving device having such a configuration collects the sewage flowing through the main inlet pipe or the auxiliary inlet pipe into the accommodating part of the main body and then flows out through the outlet pipe.

At this time, a certain amount of sewage is accumulated in the U trap. In winter, the underground cold air is transferred to the main body, and the sewage accumulated in the U trap is frozen, thereby freezing the main body and the U trap.

This is the cause of the leakage occurs by going to the freezing of the body, and when the leakage occurs, the soil is increased.

(Patent Document 1) Republic of Korea Patent No. 10-1328125 (Registration Date 2013.10.30)

(Patent Document 2) Republic of Korea Patent No. 10-0407127 (Registration Date 2003.11.13)

The present invention has been made to solve the conventional problems,

An object of the present invention is to form a drainage hole in the U-trap installed inside the main body, and the temperature-sensitive module when the temperature is above the critical temperature by installing a temperature sensitive module that contracts or expands according to the temperature change based on the critical temperature The drainage hole is closed by the expansion of the trap, and when the temperature is below the critical temperature in winter, the drainage hole is opened by the contraction of the temperature sensitive module to discharge the sewage into the U trap, thereby preventing the freezing and freezing of the U trap and the main body. To provide.

Another object of the present invention is to provide a bellows-type connecting member for connecting the connecting pipe to any one or both of the inlet pipe and the outflow pipe to prevent the foreign matter outflow by filtering the foreign matter by filtering the foreign matter to the inlet of the outlet pipe. The present invention provides a sewage receiver that enables the flow of the connection pipe to prevent shock relaxation and damage or damage of the main body when ground subsidence occurs.

The sewage receiving device according to an embodiment of the present invention provided to achieve the above object includes an inlet pipe for introducing sewage, an accommodating part for collecting sewage introduced into the inflow pipe, and a sewage collected in the accommodating part. A main body provided with an outflow pipe for outflow; And a U trap connected to the inlet pipe in the receiving portion of the main body to receive a predetermined amount of filthy water to prevent odors against filthy water from flowing back through the inlet pipe. A drainage hole for discharging the gas is formed, and the drainage hole is installed in the drainage hole by a expansion of the temperature sensitive module when the temperature sensitive module is contracted or expanded according to a temperature change based on a threshold temperature. When the temperature is below the critical temperature in winter, the drainage hole is opened by the contraction of the temperature sensitive module to discharge the sewage accumulated in the U trap.

Herein, the temperature sensitive module includes a temperature sensitive member that contracts or expands in response to a temperature change, and a fixed rib that fixes the temperature sensitive member to an inlet of the drain hole in consideration of an elongation distance according to the contraction or expansion of the temperature sensitive member. And a drain cap coupled to the front end of the temperature sensitive member and configured to open and close the drain hole by a position change due to contraction or expansion of the temperature sensitive member.

The U trap is made of a hemispherical shape, the receiving portion of the main body is characterized in that it is provided with an invert extending from one end of the hemispherical U trap to guide the incoming sewage to the outlet pipe side.

The drainage hole formed in the U trap is formed in the bottom area of the U trap so that the waste water of the U trap is drained to the bottom of the receiving portion of the body, and the outlet pipe is connected to the waste water and the receiving portion guided to the invert. Characterized in that it consists of a diameter of the inverter and the diameter of the receiving portion so as to drain the sewage drained to the floor to the outside.

The drainage hole formed in the U trap is formed at the same height as the bottom area of the invert, and the drain hole is coupled to a joint pipe connected to the bottom area of the invert so that the sewage of the U trap is drained to the invert. The outlet pipe is characterized by consisting of a tube that accommodates the diameter of the invert so that the sewage guided to the invert outflows to the outside.

In addition, the inlet of the outlet pipe is characterized in that the filter screen for filtering foreign matters is coupled, any one or both selected from the inlet pipe and the outlet pipe is characterized in that the bellows type connecting member connecting the connecting pipe is provided. It is done.

According to an embodiment of the present invention, when the temperature is below the threshold temperature in winter, the drainage hole is opened by the contraction of the temperature sensitive module to discharge the sewage into the U trap, thereby preventing freezing and freezing of the U trap and the main body.

In addition, there is an effect of preventing foreign matters from leaking by filtering the foreign matter by connecting the filter net to the inlet of the outlet pipe, and has a bellows type connecting member connecting the connection pipe to any one or both of the inlet pipe and the outlet pipe When settling occurs, the flow of the connecting pipe is enabled, thereby preventing the impact of the main body and preventing or damaging the connecting pipe.

1 is a cross-sectional view illustrating the structure of a conventional sewage collecting device.
Figure 2 is a cross-sectional view for explaining the structure of the sewage collector according to an embodiment of the present invention.
3 is a cross-sectional view for explaining the structure of the sewage collector according to another embodiment of the present invention.
Figure 4 (a), (b) is an enlarged view showing the opening and closing operation of the drain hole of the temperature sensitive module in the sewage receiver of Figs.
5 is a cross-sectional view for explaining the structure of the sewage collecting device according to another embodiment of the present invention.
Figure 6 (a), (b) is an enlarged view showing the main opening and closing operation of the drain hole of the temperature sensitive module in the sewage receiver of FIG.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to embodiments in which the invention may be practiced and to the accompanying drawings, which are shown by way of illustration of the embodiments. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention with respect to one embodiment. It is also to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention.

The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

The terms used in the present invention have been selected as widely used general terms as possible in consideration of the functions in the present invention, but this may vary according to the intention or precedent of the person skilled in the art, the emergence of new technologies and the like. In addition, in certain cases, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the corresponding description of the invention. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents throughout the present invention, rather than the names of the simple terms.

In the present invention, when a part of the whole "includes" a certain component, this means that it may further include other components, not to exclude other components, unless otherwise stated. In addition, the terms “… unit”, “… module” described in the specification mean a unit for processing at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

2 to 4, the sewage receiving device according to an embodiment of the present invention, the inlet pipe for introducing the sewage, the receiving portion for collecting the sewage introduced into the inlet pipe, and the sewage collected in the receiving portion outflow The main body 100 is provided with an outlet pipe to make; It is configured to include; U trap 200 is connected to the inlet pipe in the receiving portion of the main body 100 to receive a certain amount of incoming sewage to prevent odors for sewage from flowing back through the inlet pipe.

First, the main body 100 is provided with an accommodating part 110 having an open upper portion, and an inlet pipe 120 communicating with the accommodating part 110 is provided at one side of the accommodating part 110, and the accommodating part 110 is provided. On the other side of the) is provided with an outlet pipe 130 in communication with the receiving portion (110). In addition, the auxiliary inflow pipe 121 is provided at both sides adjacent to one side and the other side of the accommodation unit 110 of the main body 100.

Here, the outflow pipe 130 is preferably provided with a larger diameter than the inflow pipes (120, 121) so that the sewage flowing in from the plurality of inflow pipes (120, 121) at the same time can flow out quickly without stagnation.

And, as shown in FIG. 2, the receiving portion 110 of the main body 100 is connected to the inlet pipe 120 to accommodate a certain amount of filthy water flowing into the inlet pipe 120, so that the odor for the filthy water is introduced into the inlet pipe ( The U trap 200 is installed to prevent backflow through the 120.

The U trap 200 is formed with a drainage hole 210 for discharging sewage, and the drainage hole 210 is provided with a temperature sensitive module 400 that contracts or expands according to a temperature change based on a critical temperature. . At this time, the drain hole 210 formed in the U trap 200 is formed in the bottom area of the U trap 200 so that the sewage of the U trap 200 is drained to the bottom of the receiving portion 110 of the main body. Then, the outlet pipe 130 has a tube diameter for receiving the bottom of the receiving portion 110 to discharge the sewage drained to the floor to the receiving portion 110 to the outside.

And, as shown in Figure 3, the sewage receiving according to another embodiment of the present invention is connected to the inlet pipe 120 of the main body in the receiving portion 110 of the main body 100 by receiving a predetermined amount of sewage introduced Hemispherical U trap 200 to prevent odors against the back flow through the inlet pipe 120, and hemispherical U trap 200 which extends integrally from one end of the inlet to guide the outflow pipe 130 side Invert 300 is installed.

Here, the U trap 200 is made of a hemispherical shape so that a predetermined amount of sewage may be accumulated therein, and the invert 300 extends integrally from one end of the hemispherical shape so that the sewage flowing into the plurality of inlet pipes 120 and 121 is discharged to the outlet pipe ( 130 is provided in a form that is partially recessed with a predetermined slope to guide to the side.

In addition, a hemispherical U trap 200 is formed with a drain hole 210 for discharging sewage, and the drain hole 210 has a temperature sensitive module that contracts or expands according to a temperature change based on a critical temperature ( 400) is installed.

As shown in FIG. 3, the drain hole 210 formed in the hemispherical U trap 200 is formed in the bottom region of the hemispherical U trap 200 so that the sewage of the U trap 200 is received in the main body 110 of the main body. It may be provided to drain to the floor.

At this time, the outlet pipe 130 accommodates the diameter of the invert 300 and the bottom of the receiving portion 110 to discharge the sewage to be guided to the invert 300, and the sewage drained to the floor to the receiving portion 110 to the outside. It has a diameter to say.

That is, as shown in Figure 1, if the existing outlet pipe 10 is spaced a predetermined height from the bottom of the receiving portion, provided with the same diameter as the diameter of the invert to guide the sewage to the outlet pipe 30, one of the present invention As shown in FIG. 3, the outflow pipe 130 according to the embodiment extends the tube diameter to the bottom of the accommodating part 110 to drain the sewage into the drain hole 210 of the U trap to the bottom of the accommodating part 110. Flow is provided to be discharged to the outlet pipe 130.

As shown in FIG. 4, the temperature sensitive module 400 installed in the drain hole 210 of the U trap includes a temperature sensitive member 410 and a temperature sensitive member 410 that contract or expand according to a temperature change. The fixed rib 420 fixing the temperature sensitive member 410 to the inlet of the drainage hole 210 in consideration of the elongation distance due to the expansion, and is coupled to the front end of the temperature sensitive member 410 and of the temperature sensitive member 410 It is configured to include a drain cap 430 for opening and closing the drain hole 210 by the position change according to the contraction or expansion.

The temperature sensitive module 400 is installed inside the U trap 200 so as to correspond to the inlet of the drain hole 210, and the temperature sensitive member 410 contracts according to the temperature of the sewage accumulated in the U trap 200. Alternatively, the length is changed by expansion, and the drain cap 430 opens or closes the drain hole 210 according to the length change of the temperature sensitive member 410.

That is, as shown in (a) of FIG. 4, the temperature sensitive module 400 extends in length by the expansion of the temperature sensitive member 410 when the temperature is greater than or equal to the threshold temperature so that the drain cap 430 is drained. The hole 210 is closed, and as shown in (b) of FIG. 4, the length is reduced by contraction of the temperature sensitive member 410 when the temperature is lower than the threshold temperature in winter so that the drain cap 430 is the drain hole 210. The drainage hole 210 is opened while being spaced apart from the

Here, the fixed rib 420 for fixing the temperature sensitive member 410 is preferably formed in the form of the rib crosses so that the sewage is drained when the drainage hole 210 is opened and the large foreign substances can be filtered out.

The temperature sensitive member 410 has a property of expanding or contracting according to a change in external temperature (temperature, water temperature, etc.), and various materials that are stretched or contracted according to temperature change may be used. Specifically, in the present invention, as the temperature sensitive member 410, a temperature sensitive wax used in an automotive thermostat is applied, but other materials may be used, and the temperature sensitive wax is generally known in the art. Detailed description is omitted.

In addition, although the critical temperature of the temperature sensitive member 410 may vary depending on the material, preferably the reference of the critical temperature is 1 to 3 ℃, the temperature sensitive member 410 at a temperature of about 1 to 3 ℃ or less It is preferable that the shrinkage of and the expansion of the temperature sensitive member 410 appear at a temperature of 1 to 3 ° C. or more.

In addition, the inlet of the outlet pipe 130 is coupled to the strainer 500 for filtering foreign matter. The strainer 500 filters out the larger ones of the foreign substances contained in the sewage to suppress the outflow of the foreign substances and prevents the connection pipe 600 connected to the outlet pipe 130 to be blocked.

In addition, a bellows type connecting member 700 connecting the connecting pipe 600 is coupled to any one or both selected from the inlet pipe 120 and the outlet pipe 130 of the main body.

The bellows type connection member 700 secures the fluidity of the connection pipe 600 coupled to the inflow pipe 120 and the outflow pipe 130 to alleviate the impact applied to the main body 100 when ground subsidence occurs. To prevent damage or damage to the connector (600).

The sewage receiving device according to the embodiment of the present invention having the above configuration is normally (when the temperature is higher than the threshold temperature), the temperature sensitive module 400 installed in the drain hole 210 of the U trap 200 is closing the inlet of the drain hole, When the sewage is generated, the sewage flowing into the inflow pipe 120 of the main body 100 is discharged to the outflow pipe 130 via the U trap 200 and the invert 300. At this time, a certain amount of the introduced sewage is accumulated in the hemispherical U trap 200 so that the odor for the sewage does not flow back through the inlet pipe 120. However, when the temperature of the sewage accumulated on the U-trap is below the critical temperature in particular in accordance with the external temperature change, the temperature sensitive member 410 of the temperature sensitive module is reduced in length by contraction and the tip of the temperature sensitive member 410 is reduced. The drain cap 430 coupled to the opening is spaced apart from the drain hole 210 to open the drain hole 210. The sewage accumulated in the U trap 200 is drained to the bottom of the receiving unit 110 of the main body through the drainage hole 210 and discharged to the outside through the outlet pipe 130 connected to the bottom of the receiving unit 110. . That is, by discharging the sewage sewage into the inside of the U trap 200 so that the sewage does not freeze to prevent freezing and freezing of the U trap 200 and the main body 100.

In addition, by connecting the filter net 500 to the inlet of the outlet pipe 130 to filter out foreign substances to prevent foreign substances from flowing out, and connecting pipes to any one or both of the inlet pipe 120 and the outlet pipe 130 ( With a bellows type connection member 700 connecting 600 to enable the flow of the connection pipe 600 when ground subsidence occurs, the impact of the main body 100 and the damage or damage of the connection pipe 600 is prevented. Done.

5 and 6 illustrate a sewage collecting device according to another embodiment of the present invention, which has the same configuration as that of the embodiment of FIG. 3, but deforms the structure of the outlet pipe in the existing sewage collecting device shown in FIG. 1. In this embodiment, the sewage accumulated in the U trap can be drained to the outflow pipe without causing any damage.

In more detail, the position of the drain hole 210 formed in the U trap 200 is formed at the same height as the bottom area of the invert 300 so that the U drained to the drain hole 210 of the U trap 200. Sewage of the trap 200 is to be drained to the outflow pipe 130 through the invert (300).

Therefore, the description of the same configuration as in the embodiment of FIG. 3 will be omitted and will be described based on the differences.

First, the hemispherical U trap 200 is formed with a drain hole 210 for discharging sewage, and the drain hole 210 has a temperature sensitive module 400 that contracts or expands according to a temperature change based on a critical temperature. ) Is installed.

At this time, the drain hole 210 formed in the hemispherical U trap 200 is formed at the same height as the bottom area of the invert 300, the invert 300 is a through hole (at a position corresponding to the drain hole 210) 310 is formed, and the joint pipe 320 is coupled to the drainage hole 210 and the through hole 310. That is, when the drain hole 210 of the U trap 200 is opened, the sewage of the U trap 200 is drained to the invert 300 through the fitting pipe 320.

And, as shown in FIG. 5, the outlet pipe 130 is spaced a predetermined height from the bottom of the body receiving portion 110, and accommodates the diameter of the invert 300 so that the sewage guided to the invert 300 is discharged to the outside It has a diameter to say.

The temperature sensitive module 400 is installed inside the U trap 200 so as to correspond to the inlet of the drain hole 210, and the temperature sensitive member 410 contracts according to the temperature of the sewage accumulated in the U trap 200. Alternatively, the length is changed by expansion, and the drain cap 430 opens or closes the drain hole 210 according to the length change of the temperature sensitive member 410.

That is, as shown in Figure 6, the temperature sensitive module 400 is extended by the expansion of the temperature sensitive member 410 when the temperature is above the threshold temperature based on the threshold temperature so that the drain cap 430 drain hole 210 When the temperature is below the threshold temperature in winter, the length is reduced by the contraction of the temperature sensitive member 410 so that the drain cap 430 is spaced apart from the drain hole 210 to open the drain hole 210.

Here, the fixed rib 420 for fixing the temperature sensitive member 410 is preferably formed in the form of the rib crosses so that the sewage is drained when the drainage hole 210 is opened and the large foreign substances can be filtered out.

In another embodiment of the present invention having the above configuration, the temperature sensitive module 400 installed in the drain hole 210 of the U trap at normal times (when the threshold temperature or more) is closing the inlet of the drain hole 210 and sewage The sewage flowing into the inlet pipe 120 of the main body when it is generated is discharged to the outlet pipe via the U trap 200 and the invert 300. At this time, a certain amount of the introduced sewage is accumulated in the hemispherical U trap 200 so that the odor for the sewage does not flow back through the inlet pipe 120. However, when the temperature of the sewage accumulated in the U trap 200 becomes less than the critical temperature, especially in winter, when the temperature of the sewage is below the critical temperature, the temperature sensitive member 410 is reduced in length by shrinkage and is located at the tip of the temperature sensitive member 410. The combined drain cap 430 is spaced apart from the drain hole 210 to open the drain hole 210. The sewage accumulated in the U trap 200 is drained to the invert 300 through the drainage hole 210 and discharged to the outside through the outlet pipe 130 connected to the bottom of the invert 300. That is, by discharging the sewage sewage into the inside of the U trap 200 so that the sewage does not freeze to prevent freezing and freezing of the U trap 200 and the main body 100.

In addition, the inlet of the outlet pipe 130 is coupled to the strainer 500 for filtering foreign matter. The strainer 500 filters out the larger ones of the foreign substances contained in the sewage to suppress the outflow of the foreign substances and prevents the connection pipe 600 connected to the outlet pipe 130 to be blocked.

In addition, a bellows type connecting member 700 connecting the connecting pipe 600 is coupled to any one or both selected from the inlet pipe 120 and the outlet pipe 130 of the main body.

The bellows type connection member 700 secures the fluidity of the connection pipe 600 coupled to the inflow pipe 120 and the outflow pipe 130 to alleviate the impact applied to the main body 100 when ground subsidence occurs. To prevent damage or damage to the connector (600).

As described above, the present invention prevents freezing and freezing of the U trap and the main body by opening the drainage hole by the contraction of the temperature sensitive module when the temperature is below the critical temperature in winter to discharge the sewage into the U trap.

In addition, there is an effect of preventing foreign matters from leaking by filtering the foreign matter by connecting the filter net to the inlet of the outlet pipe, and has a bellows type connecting member connecting the connection pipe to any one or both of the inlet pipe and the outlet pipe When the settlement occurs, the flow of the connecting tube is enabled to prevent the shock of the main body and the breakage or damage of the connecting tube.

While preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described specific embodiments. That is, those skilled in the art to which the present invention pertains can make many changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such suitable changes and modifications Equivalents should be considered to be within the scope of the present invention.

100: main body 110: receiving portion
120: inlet pipe 121: auxiliary inlet pipe
130: outlet pipe 200: U trap
210: drain hole 300: invert
310: through hole 320: fitting pipe
400: temperature sensitive module 410: temperature sensitive member
420: fixed rib 430: drain cap
500: filter 600: connector
700: connecting member

Claims (7)

A main body provided with an inlet pipe for introducing sewage, an accommodating part for collecting sewage introduced into the inlet pipe, and an outlet pipe for discharging the sewage collected in the accommodating part; And
And a U trap connected to the inflow pipe in the accommodation portion of the main body to receive a predetermined amount of wastewater to prevent odors against the wastewater from flowing back through the inflow pipe.
The U trap is formed with a drainage hole for discharging sewage, and a temperature sensitive module that is contracted or expanded in accordance with a temperature change based on a critical temperature is installed in the drainage hole when the temperature sensitive module is above a critical temperature. The drainage hole is closed by the drainage, and when the temperature is below the threshold temperature in winter, the drainage hole is opened by the contraction of the temperature sensitive module to discharge the sewage accumulated in the U trap. The method of claim 1,
The temperature sensitive module includes a temperature sensitive member that contracts or expands according to a temperature change, a fixed rib that fixes the temperature sensitive member to an inlet of the drain hole in consideration of an elongation distance according to the contraction or expansion of the temperature sensitive member; Sewage receiving means characterized in that it is coupled to the front end of the temperature sensitive member and comprises a drain cap for opening and closing the drain hole by the position change according to the contraction or expansion of the temperature sensitive member. The method of claim 1,
The U trap is made of a hemispherical shape,
The receiving part of the main body is provided with an invert extending from one end of the hemispherical U-trap to guide the incoming sewage to the outlet pipe side. The method of claim 3, wherein
The drainage hole formed in the U trap is formed in the bottom area of the U trap to drain the sewage of the U trap to the bottom of the receiving portion of the main body,
The outlet pipe is sewage receiving means characterized in that the sewage is guided to the invert and the receiving portion drained to the floor to the outside to the outside diameter of the invert and the tube receiving the bottom of the receiving portion. The method of claim 3, wherein
The drainage hole formed in the U trap is formed at the same height as the bottom area of the invert, and the drain hole is coupled to a joint pipe connected to the bottom area of the invert so that the sewage of the U trap is drained to the invert. ,
The outflow pipe is sewage receiving, characterized in that made of a pipe diameter to accommodate the diameter of the invert so that the wastewater guided to the invert outflow. The method of claim 1,
The inlet of the outflow pipe is a sewage receiver, characterized in that the strainer is combined to filter foreign matter. The method of claim 1,
Any one or both selected from the inlet and outlet pipes are sewage receiving, characterized in that the bellows type connection member connecting the connecting pipe is provided.

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