KR20200121612A - piping structure - Google Patents

Abstract

The present invention relates to a pipe structure for discharging wastewater of a building, which includes: a penetrating sleeve (100) embedded while forming a hole penetrating into a concrete slab; and a sextia (300) connected to the penetrating sleeve (100). A standing pipe is connected to the penetrating sleeve (100) under the concrete slab and a lower end of the sextia (300) is inserted and connected into an upper end of the penetrating sleeve (100) on the concrete slab. The pipe structure for discharging wastewater of a building connects the standing pipe (200) and a wastewater pipe (400) to the sextia (300), thereby enabling a user to perform an operation connecting the wastewater pipe (400) to the standing pipe (200) on the concrete slab.

Description

Piping structure for discharging sewage from buildings {piping structure}

The present invention relates to a piping structure, and in particular, to a piping structure for discharging sewage from a building that allows the sewage generated in the building to be discharged to a standing pipe.

In general, in order to discharge sewage generated from a multi-storey structure, as shown in FIG. 2, the upright pipe 20 passing through the concrete slab of each floor in the vertical direction and the respective sewage discharge points, for example, It is formed including a sewage pipe 40 that guides sewage from a point such as a sink or sink to the standing pipe 20.

Here, a so-called peanut sleeve 10, a sleeve having a structure in which two sleeves are connected into one, is installed at a point where the granular pipe 20 passes in the concrete slab. The peanut sleeve 10 is to be installed on the concrete slab by pouring concrete while the peanut sleeve 10 is installed in the formwork.

In this configuration, one of the two sleeves penetrates the upright pipe 20 and is connected to the sextia 30 under the concrete slab, and the sewage pipe 40 penetrates the other one, penetrating the concrete slab. The sewage pipe 40 is also connected to the sextia 30. At this time, a clamp 50 is installed on the upright pipe 20 on the large concrete slab to fix the upright pipe, and the clamp 50 may be provided with a fireproof material so as to block the propagation of the flame.

In the piping structure as described above, since the pipe must be connected to the sextia 30 under the concrete slab, the worker must place a ladder and connect the pipe at a point close to the ceiling. Therefore, there arises a problem that piping work is inconvenient and dangerous. Furthermore, there arises a problem that an auxiliary worker who needs to insert the upright pipe and the sewage pipe through the sleeve from above the slab is required.

(Document 1) Korean Utility Model Publication No. 20-2009-0012973 (2009. 12. 16.) (Document 1) Republic of Korea Utility Model Publication No. 20-0482681 (June 14, 2017)

It is an object of the present invention to propose a piping structure for discharging sewage from a building that can safely and easily perform piping work, and can reduce costs by reducing manpower required for the work.

In the present invention, including a through sleeve buried while forming a hole through the concrete slab and a sextia connected to the through sleeve, a riser pipe is connected to the through sleeve under the concrete slab while at the top of the through sleeve above the concrete slab. The purpose of the above is to propose a piping structure for discharging sewage of a building in which the lower end of the sextia is inserted and connected, and the work of connecting the sewage pipe to the standing pipe on the concrete slab by connecting the standing pipe and the sewage pipe to the sextia. To achieve.

According to the present invention, since most of the piping work process can be performed on a concrete slab, stability and convenience of work are improved, and a smooth piping work is possible with only one worker, so that labor costs can be reduced. Furthermore, since the peanut sleeve is not used, only one hole is perforated in the concrete slab, there is no need to use a clamp to fix the upright pipe, and a gap formed in the hole after piping work is not formed. In addition, if a fire protection structure is required, only the fire protection filler needs to be inserted into the through sleeve, so the amount of material can be reduced.

1 is an exemplary view showing a piping structure according to the present invention,
2 is an exemplary view showing a conventional piping structure.

In the present invention, in order to make it possible to safely and easily perform piping work installed for sewage piping in a building, and to reduce cost by reducing manpower required for work, a through sleeve and a through sleeve buried while forming a through hole in a concrete slab and the above Including the sextia connected to the through sleeve, the upright pipe is connected to the through sleeve under the concrete slab, while the lower end of the sextia is inserted and connected to the top of the through sleeve on the concrete slab, and the upright pipe and the sewage pipe are connected to the sextia. By doing so, we propose a piping structure for discharging sewage from buildings that can perform the work of connecting the sewage pipe to the upright pipe on the concrete slab.

Hereinafter, the present invention will be described in detail with reference to FIG. 1 in the accompanying drawings. 1 is an exemplary view showing a piping structure according to the present invention.

As shown, the piping structure for discharging sewage from a building according to the present invention includes a through sleeve 100 installed on a concrete slab and a sextia 300 connected to the through sleeve 100, and the upright pipe 200 It is formed to connect the sewage pipe 400 to.

As is well known, the through sleeve 100 has a hollow cylindrical shape. In the process of forming a concrete slab when constructing a building, the through sleeve 100 is installed in the formwork and then the through sleeve 100 is installed to be buried in the concrete slab by pouring concrete.

Sextia 300 is formed in a hollow cylindrical shape, the upper and lower ends are opened, and a connector 320 is formed on the side. The connector 320 forms a shape protruding to a predetermined length and communicates with the sextia 300. In addition, a locking jaw 340 is formed on the outer periphery of the lower end of the sextia 300. The locking projection 340 is formed larger than the top diameter of the through sleeve 100. The material of the sextia 300 may be formed of synthetic resin.

In the above configuration, the upright pipe 200 is connected to the lower end of the through sleeve 100 embedded in the concrete slab. The upright pipe is connected to the through sleeve 100 under the concrete slab. At this time, a fireproof material ring 120, which is a fireproof filler, may be fitted at the lower end of the through sleeve 100. The refractory ring 120 has a ring shape to surround the outer periphery of the upright tube 200, and when a fire occurs, it expands and blocks the inside of the through sleeve 100 to block the flame.

And the upper end of the through sleeve 100 is coupled by fitting the lower end of the sex tia (300). Sextia 300 is connected to the through sleeve 100 on the concrete slab. At this time, when the lower end of the sextia 300 is inserted into the through sleeve 100, the locking jaw 340 is caught on the top of the through sleeve 100 and the position is fixed, and the cross-section between the locking jaw 340 and the through sleeve 100 A packing 360 is installed to form a'b' shape to seal the gap between the locking jaw 340 and the upper end of the penetrating sleeve 100 and the inner wall of the penetrating sleeve 100 at a time to prevent the outflow of odor and sewage. do.

According to the above, by connecting the upright pipe 200 and the sewage pipe 400 to the sextia 300, it is possible to perform a piping work connecting the sewage pipe 400 to the upright pipe 200 on the concrete slab.

On the other hand, in the present invention may further include a connector 500 connected to the upper end of the sex tia 300. The connection pipe 500 is connected by passing through the upright pipe 200 or being inserted at the top. In addition, a tornado guide part 520 is formed at the lower end of the inside, and the tornado guide part 520 has protrusions inclined in one direction along the surface at regular intervals so that the sewage water falling through the granular tube 200 swirls and flows. It serves as a guide. Therefore, it helps to reduce noise and allow it to flow quickly. This connector 500 may be selectively adopted as needed.

According to the present invention as described above, most of the piping work process installed to discharge sewage generated indoors can be performed on the concrete slab, and the stability and convenience of work are improved and construction time is shortened. Furthermore, since smooth piping work is possible with only one worker, labor costs can be reduced, and not only does not use the peanut sleeve used in the past, but also does not need to use a clamp to support the standing pipe 200 on the concrete slab. Discretion can be saved. As a result, labor and construction costs can be reduced.

100: through sleeve, 200: upright tube,
300: sextia, 320: connector,
340: locking step, 360: packing,
400: sewage pipe, 500: connector,
520: tornado induction part.

Claims (3)

A riser pipe is connected to the through sleeve 100 under the concrete slab, including a through sleeve 100 that is buried while forming a through hole in the concrete slab and a sex tia 300 connected to the through sleeve 100 Meanwhile, the bottom of the sextia 300 is inserted and connected to the top of the penetrating sleeve 100 on the concrete slab,
A pipe for discharging sewage from a building capable of performing the work of connecting the sewage pipe 400 to the upright pipe 200 on a concrete slab by connecting the upright pipe 200 and the sewage pipe 400 to the sextia 300 rescue. The method of claim 1,
A piping structure for discharging sewage from a building further comprising a connection pipe 500 connected to the upper part of the sextia 300 and passing through the upright pipe 200, and having a tornado induction part 520 formed therein. The method of claim 1,
A locking jaw 340 is formed on the outer periphery of the lower end of the sex tear 300 so as to be caught on the upper end of the through sleeve 100,
A piping structure for discharging sewage from a building in which a packing is installed between the locking protrusion 340 and the through sleeve 100 to prevent the outflow of odor and sewage.

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