KR101536975B1 - Drainage piping of cellular concrete layer and constructing method thereof - Google Patents

Abstract

The present invention relates to a drainage and piping apparatus in a floor structure and a constructing method thereof, wherein boring connection pipes and boring extending pipes which have a plurality of drainage holes are embedded and installed with connection drainage pipes in a foamed concrete layer constituting particularly a toilet floor structure, in which a faucet is frequently used, of floor structures of floors of a building, to discharge moisture contained in the foamed concrete layer to the outside, it is possible to prevent mold from occurring on a wall or between tiles attached to the wall and to prevent wood furniture or a wallpaper attached to the wall from being stained to deteriorate housing environment while moisture contained in the foamed concrete layer sinks into the relatively dry wall or the like, the drainage holes formed in the boring connection pipes and the boring extending pipes are blocked through sealed pipes in the course of embedding the boring connection pipes and the boring extending pipes into the foamed concrete layer, to prevent the placed foamed concrete from flowing into the pipes, and plain concrete which is placed to form a plain concrete layer by blocking an opened upper end portion of the boring pipe after cutting a lower portion of the sealed pipe after curing the foamed concrete layer is prevented from flowing into the opened upper end portion of the boring connection pipe, thereby improving construction of the drainage and piping apparatus in a floor structure.

Description

TECHNICAL FIELD [0001] The present invention relates to a drainage piping device for a floor structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drainage piping system for a floor structure and a construction method thereof, and more particularly, to a drainage piping system for a floor structure and a construction method thereof, will be.

As is well known, among the floor structures for partitioning each floor of a multi-family residential building, in particular, a floor structure constituting a toilet floor is formed by stacking a foam concrete layer, an inactive concrete layer and a tile finishing layer on an underlying concrete layer.

Here, the foamed concrete layer is a porous concrete containing a large amount of air bubbles by mixing a foaming agent with a cement paste or a mixture of a stable foam and a cement paste, and is light in weight, sound absorbing property and excellent barrier property against heat.

Accordingly, the foamed concrete layer is made to have a density difference between the base concrete layer made of reinforcing steel and concrete and the inactive concrete layer, so that vibration and noise, which cause the interlayer noise, are absorbed.

On the other hand, in the foamed concrete layer, water remaining on the bottom surface continues to exist even after the foamed concrete poured on the foundation concrete layer is cured. Also, condensation such as condensation or the like formed on the bottom surface of the bath through the bottom surface of the bath where the tile finishing layer is not formed The water is continuously introduced, and a state containing a large amount of moisture is maintained.

Therefore, the moisture contained in the foamed concrete layer continuously permeates through the relatively dry walls and the like, causing mold in the wall or wall tiles, or contaminating the wooden furniture or wallpaper attached to the wall, It is becoming a major cause of aggravation.

Korean Registered Patent Study No. 10-0913781 (Registered Date Aug. 18, 2009)

It is an object of the present invention to solve the above-mentioned problems, and an object of the present invention is to provide a floor structure internal drain piping device capable of discharging moisture contained in a foamed concrete layer constituting a wet toilet floor structure, And a construction method.

In order to achieve the above object, the present invention provides a drainage piping system for a floor structure, comprising: a drainage connection pipe extending outwardly from a base concrete layer constituting the floor structure so as to be drained; A perforated connecting pipe connected to the inner end of the drain connection pipe so as to be upwardly bent and having a plurality of first drain holes so as to discharge water contained in the foamed concrete layer laminated on the foundation concrete layer; A perforated pipe extending through the perforated connection pipe and having a height corresponding to the foamed concrete layer formed to be laminated, and having a plurality of second drainage holes formed therein so as to discharge moisture contained in the foamed concrete layer; And closing the bubble concrete inserted in the borehole extension pipe and the borehole connection pipe so as to prevent the bored concrete laid by blocking the second drainage holes and the first drainage holes when the foamed concrete layer is poured, The concrete layer is cured so as to cover the upper side of the perforated extension pipe so as to open the second drainage through hole and the first drainage hole in a state where the lower portion is cut and to form an inactive concrete layer laminated on the foamed concrete layer, And a sealing tube which covers the upper end of the perforated extension pipe and closes the inserted perforated concrete to prevent the inserted perforated concrete from escaping through the upper part of the perforated extension pipe.

Here, the sealing tube may include an insertion tube inserted into the perforated extension tube and the perforated extension tube to block and close the second drainage hole and the first drainage holes; And a lid part integrally formed on an upper end of the insertion tube part and configured to cover and close an upper end of the perforated extension pipe.

In addition, it is preferable that at least one cutting line is formed at a predetermined height from the lower end of the insertion tube portion.

In addition, the perforated extension pipe may be integrally formed on the perforated pipe.

Also, the floor structure may include the floor of the room for the bathtub, and the base concrete layer forming the floor of the bathtub room may be slab-downed to be equal to or lower than the floor level of the same layer.

The piping support may further include a waterproof layer formed between the base concrete layer and the foamed concrete layer, and a piping support for supporting and fixing the drain connection pipe spaced apart from the upper surface of the foamed concrete layer by a height of the waterproof layer .

Here, the pipe support base includes a pipe support plate portion having a polygonal plate shape; And a pipe penetration part eccentrically penetrating from the center of the pipe support plate part and having the drainage connection pipe inserted and fastened so as to have different supporting heights from side to side.

A method of constructing a floor structure internal drain piping apparatus for constructing an internal drain piping system of a floor structure of the present invention is characterized in that the first drain passageways and the second drain passageways are closed A drain pipe for connecting the perforated connecting pipe with the sealing pipe so that the perforated connecting pipe is drained to the outside through the drain connecting pipe; Placing the foamed concrete on the foundation concrete to form the foamed concrete layer at a height corresponding to the perforated extension pipe; The sealing pipe is pulled out through the upper end of the perforated extension pipe after the foamed concrete layer is cured so that the sealing member is fitted into the upper end of the perforated connecting pipe in a state in which the first drainage hole and the second drainage hole are opened, Cutting the lower portion of the tube; And forming an imperforate concrete layer on the foamed concrete layer with the upper end of the perforated connecting pipe being closed by inserting the sealed tube with the lower portion cut into the upper end of the perforated extension pipe. .

It is preferable that a waterproof layer is further formed on the foundation concrete and the drain connecting pipe that is installed by using the pipe support in the drain connection pipe installation step is separated from the upper surface of the foundation concrete by the height of the waterproof layer to be supported and fixed.

In addition, it is preferable that the drain connection pipe penetrates the wall and extends so as to be drainable to the outside.

According to the internal drainage piping of the floor structure of the present invention and the method of constructing the floor structure of the present invention, among the floor structure of each floor of a building, a pierced connection pipe and a perforated pipe And the water contained in the foamed concrete layer can be discharged to the outside by connecting it to the outside through the drainage connection pipe installed on the foundation concrete layer, so that the moisture contained in the foamed concrete layer is relatively dried It is possible to prevent molds between the tiles attached to the wall or the wall by impregnating through the walls or the like or to prevent the deterioration of the living environment by contaminating the wooden furniture or wallpaper attached to the wall.

In addition, in the process of filling the perforated connection pipe and the perforated extension pipe in the foamed concrete layer, the sealing pipe is inserted in the process of inserting the perforated connection pipe and the drainage holes formed in the perforated extension pipe and the foamed concrete poured into the foamed concrete layer is introduced into the pipe After the cement concrete layer is cured, the lower part of the sealing pipe is cut. Then, the drain openings formed in the perforated connection pipe and the perforated extension pipe are opened and the upper open end of the perforated extension pipe is closed. The present invention has the effect of enhancing the workability of the drainage piping in the bottom structure by preventing the infiltration of concrete into the perforated pipe.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front sectional view of a toilet for a multi-generational building showing an installed state of a floor structure internal drain pipe device according to an embodiment of the present invention; FIG.
Fig. 2 is an enlarged schematic front view of the installed state of the bottom structure internal drain piping system of Fig. 1; Fig.
FIG. 3 is a perspective view of the floor structure internal drain piping system of FIG. 2.
4 is an exploded perspective view of the bottom structure internal drain piping system of FIG.
Figure 5 is a side view of the piping support of Figure 3;
6 to 10 are flowcharts showing a construction method for a drainage piping system of a floor structure according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

FIG. 1 is a front sectional view of a toilet for a multi-generational building showing an installed state of a drainage piping system for a floor structure according to an embodiment of the present invention, FIG. 2 is an enlarged view FIG. 3 is a perspective view showing the internal structure of the bottom structure of FIG. 2, and FIG. 4 is an exploded perspective view of the internal structure of the bottom structure of FIG.

1 to 4, the bottom structure internal drain pipe system 100 of the present embodiment includes a drain connection pipe 110, a perforated connection pipe 120, a perforated extension pipe 130, and a sealing pipe 140 So that moisture contained in the foamed concrete layer 3 constituting the floor structure 1 can be discharged to the outside.

Meanwhile, the floor structure internal drain piping system 100 of the present embodiment is applied to a bottom structure constituting the floor of the wet type toilet 10, which has a large amount of water use, among the floor structures of multi-generational buildings.

The bottom of the toilet 10 includes a base concrete layer 2, a foamed concrete layer 3 formed on the foamed concrete layer 2, an inactive concrete layer 4 formed on the foamed concrete layer 3, And a tile finishing layer (5) which is finished on the non-woven concrete layer (4).

 In particular, it is more preferable that the foundation concrete layer 2 constituting the bottom of the toilet 10 is formed in a slab-down form (H) lower than the layer thickness of the same layer for the layered pipe.

However, the floor drainage piping system 100 of the present invention is not limited to the slab-down floor structure but may be applied to various types of building floor structures to which the foamed concrete layer 3 having a high water content is applied Of course.

In this embodiment, the drain connecting pipe 110 is illustrated as being connected to the granular drain pipe 25 which is vertically installed in the pipe duct 20 through the wall 11 partitioning the toilet.

At this time, the drain connecting pipe 110 is connected to the end of two horizontal drain connecting pipes 111 and 112 horizontally installed in the wall 11 through a wall-passing flange 21 embedded through the wall 11, And is connected to the granular drainage pipe (25) through the wall (11).

However, the present invention is not limited thereto, and the drain connection pipe 110 connects the perforated connection pipe and the perforated extension pipe buried in the foamed concrete layer 3 forming the bottom of the toilet 10 to the outside to connect the foamed concrete pipe 3, It is natural that it can be modified and applied in a more various form as long as it can discharge the moisture contained in the foamed concrete layer 3 or connect the foamed concrete layer 3 to the relatively high outside air and dry the inside of the foamed concrete layer 3.

On the other hand, a waterproof layer 6 may be further formed on the foundation concrete layer 2 that forms a boundary with the foamed concrete layer 36 for interlayer waterproofing. In this case, At least one piping support 115 is applied on the horizontal drain connection pipe 111 to be spaced apart from the upper surface of the base concrete layer 2 by the thickness of the waterproof layer 6. [

5 is a side view showing the piping support applied to Fig.

Referring to FIG. 5, the piping support 115 applied to the present embodiment includes a piping support plate portion 116 and a piping penetration portion 117.

Here, the pipe support plate portion 116 is formed in a rectangular plate shape, and the pipe penetration portion 117 is eccentrically passed through the center of the pipe support plate portion 116 and has different supporting heights h1, h2, h3 , h4) so that the drain connection pipe is inserted and fastened.

In the present embodiment, the pipe support plate portion is a quadrangle having four sides, but it is natural that the pipe support plate portion may have a polygonal shape having at least three sides.

Accordingly, in the process of installing the drain connection pipe 110 on the foundation concrete layer 2, the pipe support portion 117 is inserted into the pipe support portion 117 around the pipe connection portion 110 fitted on the drain connection pipe 110 according to the height of the waterproof layer 6, The piping support plate portion 116 having the supporting heights h1, h2, h3 and h4 corresponding thereto is selected by rotating the connecting pipe 115 to connect the drain connecting pipe 110 to the base concrete layer 2 So that it can be supported by the height of the waterproof layer 6 from the upper surface and can be installed.

1 to 4, the perforated connecting pipe 120 is formed to be connected to the inner end of the drain connecting pipe 110 so as to be bent upward in an L-shape, A plurality of first drainage holes 121 are formed so as to discharge moisture contained in the foamed concrete layer 3 laminated on the first waterproofing layer.

The perforated extension pipe 130 is formed to be vertically extended to correspond to the height of the foamed concrete layer 2 formed to be stacked from the perforated connection pipe 120 and to discharge moisture contained in the foamed concrete layer 3 So that a plurality of second drainage holes 131 are formed.

Here, the second drainage holes 131 are formed such that moisture contained in the foamed concrete layer 3 flows through the perforated extension pipe 130 more easily and can be discharged, More preferable.

In the present embodiment, the perforated extension pipe 130 is separated from the perforated connection pipe 120 so as to facilitate the cutting process for adjusting the length according to the height of the foamed concrete layer 3 formed on the foundation concrete layer 2 The upper end of the perforated connecting pipe 120 is extended in a state of being perforated corresponding to the height of the foamed concrete layer 3 so that the perforated connecting pipe 120 and the perforated hole It is a matter of course that the extension pipe 130 can be integrally formed.

The sealing pipe 140 is inserted into the perforated connecting pipe 120 and the perforated pipe 130 to form the first drain holes 121 formed in the perforated connecting pipe 120 and the perforated pipe 130, And an upper end of the insertion tube 141 is formed integrally with the upper end of the insertion tube 141 to block the upper open end of the tube 130, And a lid portion 142 which is formed on the inner surface of the lid.

Therefore, when the foamed concrete is inserted to form the foamed concrete layer 3 by inserting the insertion pipe portion 143 of the sealing pipe 140 into the perforated extension pipe 130 and the perforated connecting pipe 120, And the first drainage holes 121 of the perforated connection pipe 120 are closed so that the foamed concrete flows into the perforated extension pipe 130 and the perforated connection pipe 120 .

After the foamed concrete layer 3 is cured, the lower portion of the insertion pipe 141 of the sealing pipe 140 is cut to form the second drainage hole 131 and the perforation connection pipe 120 The second drainage hole 131 of the perforated extension pipe 130 and the first drainage hole 130 of the perforated connection pipe 120 are fitted to each other so as to cover the upper side of the perforated extension pipe so as to open the first drainage hole 121, The concrete pipe (140) is installed in the sealing pipe (140) so as to form an inactive concrete layer (4) to be laminated on the foamed concrete layer (3) so that moisture contained in the foamed concrete layer (3) The lid portion 142 of the piercing pipe 130 prevents the upper end of the piercing extension pipe 130 from flowing into the pipe.

More preferably, at least one cutting line 145 is formed at a predetermined height from the lower end of the insertion tube portion 143 of the sealing tube 140. By forming one or more of the cutting lines 145 on the insertion tube portion 141 as described above, it is possible to easily cut the lower portion of the insertion tube portion 141 by a manual operation without using a separate cutting tool And can be cut and used.

As described above, the floor structure internal drain piping system 100 of the present embodiment includes the perforated connection pipe 120, which is installed in the foamed concrete layer 3 of the floor structure 1, The water introduced from the foamed concrete layer 3 is embedded in the foamed concrete layer 3 on the foundation concrete 2 through the first drainage hole 121 and the second drainage hole 131 of the base concrete 130 The water contained in the foamed concrete layer 3 can permeate through the wall having a relatively high degree of dryness and the like, and the mold can be prevented from being transferred between the tiles attached to the wall or the wall. And to prevent deterioration of the residential environment by contaminating wooden furniture or wallpaper attached to the wall or the like.

Hereinafter, a construction process of applying the bottom construction internal drain piping device 100 of the present embodiment to the floor of a toilet will be described with reference to FIGS. 6 and 11. FIG.

FIGS. 6 and 10 are flowcharts schematically showing a construction process of the bottom drain pipe system 100 of FIG.

6 to 11, the floor structure internal drain pipe system 100 of the present embodiment includes a drain pipe installation step ST10, a foamed concrete layer formation step ST20, a sealing pipe lower cutting step ST30, (ST40) to form an unfired concrete layer.

6, in the drain pipe installation step ST10, as shown in FIG. 6, in the state where the perforated extension pipe 130 is extended on the foundation concrete layer 2 slab-down and constructed as described above, The perforated connection pipe 120 in which the sealing pipe 140 is inserted is closed so that the first drainage holes 121 are closed together with the two drainage holes 131, do.

The waterproof layer 6 may be further formed on the foundation concrete 2 as described above. In this case, the drain connection pipe 110, which is installed using the pipe support 115, Of the foundation concrete (2).

At this time, it is also preferable that the drain connecting pipe 110 is given a gradient by adjusting the height of the piping supports 115 so that the water introduced from the foamed concrete layer 3 can be discharged more easily.

The drain connection pipe 110 is connected to the granular drain pipe 25 vertically installed in the pipe duct 20 through the wall 11 through the wall through flange 21 as described above do.

7, foam concrete is placed on the foundation concrete 20 to form the foamed concrete layer 3 at a height corresponding to the perforated extension pipe 130, .

At this time, the upper end of the perforated extension pipe 130 in which the sealing pipe 140 is inserted is kept uncovered by the foamed concrete in which the poured concrete is laid.

8, the sealing tube 140 is pulled out from the upper end of the perforated pipe 130 exposed after the curing of the foamed concrete layer 3, So that the lower portion of the insertion tube portion is cut along the cutting line 145 formed on the tube portion 141.

9 and 10, at the open concrete layer forming step ST50, the insertion tube portion 141 of the sealing tube 140 with the lower portion cut is again inserted into the upper open end of the perforated extension pipe 130 The lid portion 142 of the sealing pipe 140 covers the upper open end of the perforated pipe 130 and pours the non-porous concrete on the foamed concrete layer 3 in a closed state to form the non-porous concrete layer 4 .

Then, a tile finishing layer 5 is formed on the non-wicked concrete layer 4 by using tiles or the like to complete a toilet floor structure.

In this way, by installing the drainage piping system 100 in the bottom structure through the method of constructing the inner floor drainage pipe of the present embodiment, the air bubble concrete placed in the process of forming the foamed concrete layer 3 on the base concrete 2 In the process of forming the inflow or non-infiltration concrete layer 4 through the second drainage holes 131 and the first drainage holes 121 formed in the pipe connection pipe 120 and the pipe extension pipe 130, It is possible to prevent the water from flowing through the upper open end of the perforated extension pipe 130 and to allow the water contained in the foamed concrete layer 3 to be discharged through the drain connection pipe 110, 2) It is possible to prevent degradation of the bottom support rigidity caused by installing the drain connecting pipe in the inside.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the spirit and scope of the invention. And it goes without saying that they belong to the scope of the present invention.

1: floor structure 2: foundation concrete layer
3: Foam concrete layer 4: Plain concrete layer
5: tile finishing layer 10: toilet
11: wall 20: pipe duct
21: wall-through flange 25: granular drainage pipe
100: Drain piping 110: Drain piping
111: Horizontal connection pipe 115: Plumbing support
116: piping support plate part 117: piping penetration part
120: Perforation connection pipe 121: First drainage hole
130: Perforated pipe 131: Second drainage hole
140: Sealing tube 140: Sealing tube
141: insertion tube portion 142:
145:

Claims (10)

A floor structure internal drainage piping system for drainage in a floor structure of each floor of a building,

A drain connection pipe extended and installed so as to be drained outside on a foundation concrete layer constituting the bottom structure;
A perforated connecting pipe connected to the inner end of the drain connection pipe so as to be upwardly bent and having a plurality of first drain holes so as to discharge water contained in the foamed concrete layer laminated on the foundation concrete layer;
A perforated pipe extending through the perforated connection pipe and having a height corresponding to the foamed concrete layer formed to be laminated, and having a plurality of second drainage holes formed therein so as to discharge moisture contained in the foamed concrete layer; And
Wherein the bubble concrete layer is sandwiched in the borehole extension pipe and the borehole connection pipe to prevent the bored concrete laid to form the bubble concrete layer from escaping by blocking the second drainage holes and the first drainage holes when the foamed concrete layer is poured Wherein the foamed concrete layer is closed and the lower portion is cut off after the foamed concrete layer is cured to cover the upper side of the perforated extension pipe so that the second drainage hole and the first drainage hole are opened to be laminated on the foamed concrete layer, And a sealing pipe covering the upper end of the perforated extension pipe when the unfired concrete is poured so as to form a layer so as to prevent the impervious concrete poured through the upper portion of the perforated pipe from being escaped.
The method of claim 1,
The sealing tube may include:
An insertion tube inserted into the perforated extension pipe and the perforated extension pipe to close and close the second drainage holes and the first drainage holes; And
And a lid part integrally formed at an upper end of the insertion tube part and configured to cover and close the upper end of the perforated extension pipe.
3. The method of claim 2,
Wherein the insertion tube portion has at least one cutting line formed at a predetermined height from a lower end thereof.
The method of claim 1,
Wherein the perforated extension pipe is integrally formed on the upper side of the perforated connection pipe.
The method of claim 1,
Wherein the floor structure includes a floor of the bathtub room,
Wherein the base concrete layer forming the floor of the washtub bath room is slab-downed to be equal to or lower than the floor level of the same layer.
The method of claim 1,
A waterproof layer is further formed between the base concrete layer and the foamed concrete layer,
And a piping support for supporting and fixing the drain connection pipe spaced apart from the upper surface of the foamed concrete layer by a height of the waterproof layer.
The method of claim 1,
The pipe support includes:
A pipe support plate portion having a polygonal plate shape; And
And a pipe penetration portion which is eccentrically penetrated from the center of the pipe support plate portion so that the drain connection pipe is inserted and fastened so as to have different support heights from the pipe support plate portion to the respective sides.
A method of constructing a floor structure internal drain piping apparatus for constructing a floor structure internal piping system according to claim 1,
The perforated connecting pipe having the sealing pipe inserted therein to drain the first drainage through-hole and the second drainage hole in a state where the perforated extension pipe is extended on the foundation concrete layer, A step of setting a drainage pipe to be installed;
Placing the foamed concrete on the foundation concrete to form the foamed concrete layer at a height corresponding to the perforated extension pipe;
The sealing pipe is pulled out through the upper end of the perforated extension pipe after the foamed concrete layer is cured so that the sealing member is fitted into the upper end of the perforated connecting pipe in a state in which the first drainage hole and the second drainage hole are opened, Cutting the lower portion of the tube; And
And forming an unfired concrete layer by inserting the unfilled concrete on the foamed concrete layer in a state that the upper end of the perforated connection pipe is closed by inserting the sealed tube having the lower portion cut into the upper end of the perforated extension pipe Drainage piping construction method.
9. The method of claim 8,
A waterproof layer is further formed on the foundation concrete,

In the drain connection piping installation step,
Wherein the drain connection pipe installed with the piping support is spaced apart from the upper surface of the foundation concrete by a height of the waterproof layer.
9. The method of claim 8,
Wherein the drain connecting pipe passes through the wall and is extended so as to be drained to the outside.

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