JP3592658B2 - Drainage channel forming method and drainage channel device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a drainage channel forming method and a drainage channel device for connecting a drainage facility in a building to a drainage channel outside the building.
[0002]
[Prior art]
Conventionally, as a method of forming this kind of drainage channel, for example, a configuration shown in FIGS. 4 and 5 is known.
[0003]
In the method of forming the drainage channel shown in FIGS. 4 and 5, in a state before the foundation 2 of the building 1 is formed, the portion where the drainage pipe 5 is buried in the foundation 2 is formed by piping the drainage pipe 5 in advance. After being fixed to reinforcing bars (not shown), concrete is poured into a mold (not shown), or a mold is formed when a foundation is formed. Concrete is poured with the void pipe 6 fixed.
[0004]
Next, after forming the foundation 2 of the building 1, each drainage device (not shown) of the building 1 is connected to the upstream end 3 of the drainage pipe 5, and the downstream end 4 of the drainage pipe 5 is buried below the ground surface (not shown). Connect to drainage channels such as sewage basins.
[0005]
[Problems to be solved by the invention]
However, in the drainage channel forming method shown in FIGS. 4 and 5 described above, since the downstream end of the drainage pipe 5 penetrates from the foundation 2 of the building 1 to the ground surface G, the drainage pipe from outside the building 1 5 may be partially visible. For this reason, a part of the drain pipe 5 protruding above the ground surface G at a position outside the building 1 is deteriorated due to irradiation of ultraviolet rays by sunlight or the like or an external impact.
[0006]
In addition, when the drainage equipment of the building 1 is changed due to renovation or the like, the drainage pipe 5 penetrating the foundation 2 of the building 1 must be replaced or reused. Therefore, it is difficult to change the drain pipe 5 without breaking it at all. Therefore, there is a problem that it is not easy to replace or reuse the drain pipe 5, and it is not easy to repair the drain for connecting each drain to the drain.
[0007]
The present invention has been made in view of such a point, and an object of the present invention is to provide a drainage channel forming method and a drainage channel device which can be easily repaired.
[0008]
[Means for Solving the Problems]
In the method of forming a drainage channel according to claim 1, the downstream end of the pipe is horizontally penetrated below the ground surface at an external position of the building, and the upstream end of the pipe is inclined with respect to the downstream end. A solid foundation for the building is formed in a state where the solid foundation is penetrated above the ground surface inside the building, and the tubular body is buried in the solid foundation. The pipe is detachably inserted into the pipe, the downstream end of the small-diameter pipe is connected to a drainage channel, and the drainage facility of the building is connected to the upstream end of the small-diameter pipe.
[0009]
In this configuration, the downstream end of the pipe is penetrated below the ground surface at an external position of the building, and the upstream end of the pipe is penetrated into the interior of the building to form the foundation of the building. Next, a small-diameter pipe smaller in diameter than the pipe is inserted into this pipe so that it can be inserted and removed, and the downstream end of the small-diameter pipe is connected to a drainage channel. Connecting. As a result, even if the drainage system of the building is changed, the drainage system of the building can be connected to the drainage channel by replacing the small-diameter pipe removably inserted into the pipe body. Road repair becomes easier. Further, since the downstream end of the pipe is disposed below the ground surface, the pipe is not exposed on the ground surface at a position outside the building. For this reason, the drainage channel of the building can be formed visually, and the deterioration and damage of the pipe and the small-diameter pipe due to the irradiation of ultraviolet rays by sunlight or the impact can be prevented.
[0010]
According to a second aspect of the present invention, there is provided a drainage channel forming method according to the first aspect, wherein the pipe is curved so that a small-diameter pipe can be inserted and removed.
[0011]
In this configuration, since the small-diameter pipe is a pipe curved so that it can be inserted and removed, the downstream end of the pipe is penetrated below the ground surface at an external position of the building, and the upstream end of the pipe is inserted into the building. It becomes easier to penetrate into.
[0012]
According to a third aspect of the present invention, there is provided a drainage channel forming method according to the first aspect, wherein the pipe is bent so that a small-diameter pipe can be inserted and removed.
[0013]
In this configuration, the small-diameter pipe is bent so that it can be inserted and removed, so that the downstream end of this pipe penetrates below the ground surface at an external position of the building, and the upstream end of this pipe is located inside the building. It becomes easy to penetrate into.
[0014]
According to a fourth aspect of the present invention, in the drainage channel forming method according to any one of the first to third aspects, the small-diameter pipe is a bendable pipe.
[0015]
In this configuration, since the small-diameter tube is a bendable tube, the small-diameter tube can be easily inserted and removed even with a bent tube. In addition, since the upstream end of the small-diameter pipe penetrating from the upstream end of the pipe body can be bent, by bending the upstream end of the small-diameter pipe toward the building drainage system, piping from the building drainage system is more improved. It will be easier.
[0016]
According to a fifth aspect of the present invention, there is provided a drainage channel forming method according to any one of the first to fourth aspects, wherein the pipe is buried in a solid foundation with the upstream end of the pipe inclined at 30 to 45 degrees. It is to let .
[0017]
In this configuration, the pipe is buried in the solid foundation while the upstream end of the pipe is inclined by 30 ° to 45 °.
[0018]
According to a sixth aspect of the present invention, in the method of forming a drainage channel according to any one of the first to fifth aspects, the upstream end of the pipe is formed along the upper end surface of the solid foundation .
[0019]
And in this structure, the upstream end of a pipe body is formed along the upper end surface of a solid foundation.
[0020]
The drainage channel device according to claim 7 , wherein the drainage device connects the drainage device in the building to the drainage channel outside the building, wherein a downstream end of the drainage device extends horizontally below the ground surface at a position outside the building. And a pipe buried in the solid foundation of the building , with the upstream end penetrating above the ground surface in the building at an angle to the downstream end, and being insertable into and removable from the pipe. And a small-diameter pipe that is inserted and is smaller in diameter than the pipe body and can be bent.
[0021]
In this configuration, a small-diameter pipe, which is smaller in diameter than the pipe and can be bent, is removably inserted from the inside of the building into a curved pipe penetrating below the ground surface at a position outside the building. Next, a drainage facility of the building is connected to one end of the small-diameter pipe located inside the building, and the other end of the small-diameter pipe located outside the building is connected to a drainage channel outside the building. As a result, even if the drainage system of the building is changed, the drainage system of the building can be connected to the drainage channel by replacing the small-diameter pipe removably inserted into the pipe body. Repair of drainage to connect equipment to drainage becomes easier. Further, since the pipe is penetrated below the ground surface, the pipe is not exposed on the ground surface at a position outside the building. For this reason, the drainage channel of the building can be formed visually, and the deterioration and damage of the pipe and the small-diameter pipe due to the irradiation of ultraviolet rays by sunlight or the impact can be prevented.
[0022]
The drainage channel device according to claim 8 is the drainage channel device according to claim 7, wherein the pipe is buried in the solid foundation with the upstream end of the pipe being inclined by 30 ° to 45 °. Things.
[0023]
In this configuration, the pipe is buried in the solid foundation while the upstream end of the pipe is inclined by 30 to 45 degrees.
[0024]
The drainage channel device according to claim 9 is the drainage channel device according to claim 7 or 8, wherein an upstream end of the pipe is formed along an upper end surface of the solid foundation.
[0025]
In this configuration, the upstream end of the tube is formed along the upper end surface of the solid foundation.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the configuration of the first embodiment of the drainage device of the present invention will be described with reference to FIG.
[0027]
In FIG. 1, reference numeral 11 denotes a drainage channel device. The drainage channel device 11 serves as a drainage channel (not shown) buried in the residential land of the house 12 such as a drainage port (not shown) in a house 12 as a building. To the sewage basin. Below the floor of the house 12, a substantially horizontal so-called solid foundation 14, which is a foundation 13 of the house 12, is formed. Also, standing up from the foundation slab of the solid foundation 14, a so-called cloth foundation 15, which forms the basis of the pillars of the house 12, is formed. These solid foundation 14 and cloth foundation 15 are cast with concrete.
[0028]
The drainage device 11 is a bent pipe, which is a VU pipe as a pipe penetrating from above the solid foundation 14 of the house 12 to a position outside the cloth foundation 15 of the house 12 below the ground surface S, that is, a bend pipe 21. It has. The bend pipe 21 has a nominal diameter of, for example, 75 mm, and is formed of a vinyl chloride resin or the like into a substantially cylindrical shape whose axial direction is bent. Here, the center axis of the bend tube 21 is bent.
[0029]
The upstream end 22 of the bend pipe 21 projects obliquely upward from the solid foundation 14, for example, at an angle of approximately 30 ° to 45 °, and extends along the substantially horizontal upper end surface 16 of the solid foundation 14. Is formed. As a result, the upstream end 22 of the bend pipe 21 is open in an elliptical shape. Here, the upper end surface 16 of the solid foundation 14 is located above the ground surface S. Further, the bend pipe 21 is embedded in the solid foundation 14 at an angle of about 30 ° to 45 °, and the downstream side of the bend pipe 21 is bent in the horizontal direction. The downstream end 23 of the bend pipe 21 penetrates through the cloth foundation 15 and protrudes below the ground surface S, which is an external location of the house.
[0030]
Further, inside the bend pipe 21, a flexible pipe 31 having a smooth inner surface as a bendable pipe which is a small-diameter pipe smaller in diameter than the bend pipe 21 is removably inserted. The flexible tube 31 bends or curves inside the bend tube 21 when inserted into the bend tube 21 so as to be able to be inserted and removed. The downstream end 32 of the flexible pipe 31 protrudes from the downstream end 23 of the bend pipe 21 and is connected to an inflow end of a drain pipe (not shown) connected to an inlet of a sewage tub (not shown).
[0031]
A socket 35 as a substantially cylindrical connecting body is fitted and fixed to the upstream end 34 of the flexible tube 31 by bonding. The upstream end 36 of the socket 35 is fitted and fixed to a fitting portion 43 formed at a downstream end 42 of a first elbow 41 which is a pipe joint bent at, for example, 60 ° to 45 °. Further, a claw-shaped fitting portion 45 along the circumferential direction, which gradually increases in diameter toward the downstream side of the first elbow 41, is provided on the outer edge of the opening of the upstream end 44 of the first elbow 41. It is protruding.
[0032]
The upstream end 44 of the first elbow 41 is connected to a fitting portion 53 formed at the downstream end 52 of a second elbow 51 which is, for example, an L-shaped joint bent at 90 ° via an O-ring 54 as packing. And watertightly and rotatably fitted and connected. The fitting portion 53 of the second elbow 51 is formed in a substantially cylindrical shape whose diameter is larger than that of the main body of the second elbow 51. An O-ring holding portion 55 which is a U-shaped packing holding portion extending in the circumferential direction is formed on the inner periphery of the fitting / receiving portion 53. The O-ring 54 is fitted into the O-ring holding portion 55, and is connected to the upstream end 44 of the first elbow 41 in a watertight manner.
[0033]
A substantially concave groove-shaped fitting concave portion 56 which can be fitted to the fitting portion 45 of the first elbow 41 is formed on the inner periphery of the second elbow 51 inside the O-ring holding portion 55. The fitting concave portion 56 is formed in a key shape that gradually becomes deeper toward the downstream side of the second elbow 51, and is formed in an annular shape along the circumferential direction of the second elbow 51. Have been. An expanded cylindrical insertion recess 58 is formed at the upstream end 57 of the second elbow 51. A drain pipe from a drainage facility of the building is inserted and fixed to the insertion recess 58 by bonding.
[0034]
Further, a lid 61 as an upstream closing means for closing the upstream end 22 of the bend pipe 21 is attached to the upstream end 22 of the bend pipe 21. The lid 61 is formed in an elliptical shape larger in diameter than the upstream end 22 of the bend tube 21, and is integrally connected to the outer periphery of the first elbow 41. Further, a cylindrical flange portion 62 protruding toward the downstream end 42 of the first elbow 41 in the axial direction of the lid 61 is formed on the outer peripheral edge of the lid 61. The flange portion 62 covers the outer edge of the opening of the upstream end 22 of the bend pipe 21.
[0035]
Next, a method of forming the drainage channel in the drainage channel device according to the first embodiment will be described.
[0036]
First, in a state before the foundation 13 of the house 12, that is, the solid foundation 14 and the cloth foundation 15, the upstream end 22 projects from the upper end face 16 of the solid foundation 14, and the downstream end 23 is an external position of the house 12. The bend pipe 21 is provided so as to protrude below the ground surface S.
[0037]
Next, after the flexible pipe 31 is removably inserted into the bend pipe 21, the downstream end 37 of the socket 35 which is inserted and bonded to the upstream end 34 of the flexible pipe 31 in the insertion section 43 of the first elbow 41. And the upstream end 22 of the bend pipe 21 is closed by a lid 61 formed on the outer periphery of the first elbow 41.
[0038]
Further, a fitting / receiving portion 53 of the second elbow 51 is rotatably fitted and connected to the upstream end 44 of the first elbow 41. At this time, the fitting portion 45 of the first elbow 41 is slidably fitted into the fitting recess 56 of the second elbow 51. Then, the O-ring 54 attached to the O-ring holding portion 55 of the second elbow 51 comes into contact with the outer peripheral surface of the first elbow 41, and the connection between the first elbow 41 and the second elbow 51 is made watertight. To
[0039]
In this state, the solid foundation 14 and the cloth foundation 15 of the house 12 are cast.
[0040]
Next, the downstream end 32 of the flexible pipe 31 is connected to the inflow end of the drain pipe connected to the inlet of the wastewater basin, and the drainage from the drainage facility of the house 12 is inserted into the insertion recess 58 of the second elbow 51. The tube is inserted and adhesively fixed.
[0041]
As described above, according to the first embodiment, the downstream end 23 of the bend pipe 21 is penetrated below the ground surface S at a position outside the house 12, and the upstream end 22 of the bend pipe 21 is After the flexible pipe 31 is inserted into the bend pipe 21 so as to be able to be inserted and removed while penetrating the upper end face 16 of the 12 solid foundation 14, the foundation 13 of the house 12 is cast. Thereafter, the downstream end 23 of the bend pipe 21 is connected to the inflow end of the sewage basin, and the drain end of the house 12 is connected to the upstream end 22 of the bend pipe 21.
[0042]
As a result, even in the case of remodeling or changing the drainage system of the house 12, the flexible pipe 31 can be pulled out from the bend pipe 21, so that this flexible pipe 31 can be pulled out and replaced with a new flexible pipe 31. Accordingly, the newly provided drainage equipment can be connected to the wastewater basin without damaging the bend pipe 21, and the drainage channel of the house 12 can be secured. Therefore, the drainage of the house 12 can be easily repaired.
[0043]
Further, since the downstream end 23 of the bend pipe 21 penetrates below the ground surface S, the bend pipe 21 and the flexible pipe 31 are not exposed on the ground surface S at a position outside the house 12. As a result, the drainage channel of the house 12 can be formed to be visually appealing, and the drainage channel can be prevented from being deteriorated or damaged due to irradiation of ultraviolet rays by sunlight or impact.
[0044]
Furthermore, since the bendable flexible tube 31 is removably inserted into the bend tube 21 formed on the foundation 13 of the house 12, even if the bend tube 21 is curved or bent, the bend tube 21 The flexible tube 31 can be easily inserted from the upstream end 22 to the downstream end 23, and the inserted flexible tube 31 can be easily pulled out.
[0045]
Further, the first elbow 41 is bonded and fixed to the upstream end 34 of the flexible pipe 31 via the socket 35, so that the lid 61 and the flange 62 on the outer peripheral portion of the first elbow 41 The upstream end 22 is closed. As a result, it is possible to prevent the intrusion of the concrete liquid or the like from the upstream end 22 of the bend pipe 21 when the foundation 13 of the house 12 is cast. As a result, the flexible tube 31 can be easily pulled out of the bend tube 21 and the foundation 13 of the house 12 can be easily cast. Therefore, the work efficiency at the time of placing the foundation 13 of the house 12 can be improved.
[0046]
Then, the first elbow 41 is attached to the upstream end 22 of the flexible tube 31 inserted through the bend tube 21 via the socket 35, and the upstream end 44 of the first elbow 41 is opened upward, A second elbow 51 is rotatably and water-tightly connected to an upstream end 44 of the first elbow 41, and an upstream end 57 of the second elbow 51 is opened to the side. Furthermore, since the lid 61 for closing the upstream end 22 of the bend pipe 21 is formed integrally with the first elbow 41, the lid 61 closes the upstream end 22 of the bend pipe 21 so that the second end is closed. A second elbow 51 connected to the upstream end 44 of one elbow 41 is rotatable.
[0047]
As a result, the second elbow 51 can be rotated in accordance with the direction of the drainage system of the house 12, so that the connection of the flexible pipe 31 to the drainage system of the house 12 is facilitated, and the work of piping the drainage channel of the house 12 is performed. Can be made easier.
[0048]
Further, by forming the lid 61 for closing the upstream end 22 of the bend pipe 21 integrally with the first elbow 41, a portion protruding from the upstream end 22 of the bend pipe 21, that is, the first elbow 41 and the lid The gap formed with the body 61 is eliminated. As a result, when the foundation 13 of the house 12 is formed, it is possible to efficiently prevent the materials and the like when forming the foundation 13 of the house 12 from entering the bend pipe 21.
[0049]
Next, a configuration of a second exemplary embodiment of the present invention will be described with reference to FIG.
[0050]
The drainage channel device 11 shown in FIG. 2 is basically the same as the drainage channel device 1 shown in FIG. 1, except that the upstream end 34 of the flexible pipe 31 inserted through the bend pipe 21 is inserted through a socket 35. It is a direct connection of the drainage system of the house 12.
[0051]
As a result, the drainage device 11 shown in FIG. 2 is formed by directly connecting the drainage facility of the house 12 to the upstream end 34 of the flexible pipe 31 inserted through the bend pipe 21 via the socket 35. The same operation and effect as those of the drainage channel device shown in FIG. 1 can be obtained.
[0052]
Further, if a floor band 81 is attached to the upstream side of the socket 35, the downstream end 32 of the flexible tube 31 can be more easily positioned and fixed.
[0053]
Next, a configuration of a third exemplary embodiment of the present invention will be described with reference to FIG.
[0054]
The drainage channel device 11 shown in FIG. 3 is basically the same as the drainage channel device 11 shown in FIG. 2, but is different from the drainage channel device 11 shown in FIG. The middle region is curved. Here, the center axis of the bend tube 21 is arcuate, that is, bent in an arc shape.
[0055]
In addition, the upstream end 34 and the downstream end 32 of the flexible pipe 31 inserted into the bend pipe 21 have drainage pipes 85, 86 as a tubular body having the same diameter as the flexible pipe 31 at the upstream end 34 and the downstream end 32, respectively. Are provided respectively so as to be connectable by internal fitting.
[0056]
Then, between the downstream end 32 of the flexible pipe 31 inserted into the bend pipe 21 and the downstream end 23 of the bend pipe 21, a space between the downstream end 32 of the flexible pipe 31 and the downstream end 23 of the bend pipe 21 is provided. A packing 89 as an annular closing means for closing is attached. In addition, a short pipe 90 is internally fitted and fixed to the upstream end 34 of the flexible pipe 31 inserted into the bend pipe 21. Further, at the upstream end of the short pipe 90, an elbow body 91 whose axial direction is curved by about 45 degrees is adhesively fixed by inner fitting. A drain pipe 85 is internally fitted to and fixed to the upstream end of the elbow body 91.
[0057]
Further, the upstream end of the drainage pipe 85 is connected to the drainage facility of the house 12, and a floor band 81 is attached near the downstream end of the drainage pipe 85 to position and fix on the solid foundation 14 of the house 12. Have been.
[0058]
As a result, the drainage device 11 shown in FIG. 3 allows the flexible pipe 31 to pass through the bend pipe 21 penetrating from the solid foundation 14 of the house 12 to the outside of the cloth foundation 15 of the house 12, and Since the drainage pipes 85 and 86 are formed by connecting the drainage pipes 85 and 86 to the upstream end 34 and the downstream end 32 of the pipe 31, respectively, the same operation and effect as the drainage channel device 11 shown in FIG. 2 can be obtained.
[0059]
In addition, since the bend pipe 21 is curved, the flexible pipe 31 is inserted through the bend pipe 21 and the flexible pipe 31 is moved from the solid foundation 14 of the house 12 to the house in comparison with the case where the bend pipe 21 is bent. The work of penetrating into the 12 cloth foundations 15 can be made easier.
[0060]
Further, the space between the downstream end 32 of the flexible pipe 31 inserted into the bend pipe 21 and the downstream end 23 of the bend pipe 21 is closed by a packing 89, so that the elastic deformation of the packing 89 causes these bend pipes to be closed. The gap at the downstream end of 21 and the flexible pipe 31 can be closed airtight and watertight. Therefore, when forming the foundation 13 of the house 12, the bend pipe 21 and the flexible pipe at the downstream end of the bend pipe 21 and the flexible pipe 31 for the material for forming the foundation 13 of the house 12, such as concrete milk, etc. In addition to preventing the intrusion into the gap between the flexible pipe 31 and the bend pipe 21 and the flexible pipe 31, the intrusion of insects, earth and sand, rainwater, and the like into the gap between the flexible pipe 31 and the bend pipe 21 can be prevented.
[0061]
Note that, in each of the above-described embodiments, any configuration is possible as long as the drainage facility of the house 12 can be connected to the upstream end 34 of the flexible pipe 31 that is removably inserted into the bend pipe 21 that penetrates the base 13 of the house 12. Configuration may be used.
[0062]
【The invention's effect】
According to the method for forming a drainage channel according to claim 1, even when the drainage facility of the building is changed, the drainage facility of the building is replaced by exchanging the small-diameter pipe removably inserted into the pipe body. It can be connected to the drainage channel, making it easy to repair the drainage channel of the building.In addition, since the downstream end of the pipe is located below the ground surface, the pipe is not exposed on the ground surface at a location outside the building. In addition, the drainage channel of the building can be easily formed, and the deterioration and damage of the pipe and the small-diameter pipe due to the irradiation of ultraviolet rays by sunlight or the impact can be prevented.
[0063]
According to the drainage channel forming method of the second aspect, in addition to the effect of the drainage channel forming method of the first aspect, a small-diameter pipe is formed into a pipe that is curved so that it can be inserted and removed. It can be easier to penetrate below the ground surface at a location outside the building and to penetrate the upstream end of the tube into the building.
[0064]
According to the drainage channel forming method of the third aspect, in addition to the effect of the drainage channel forming method of the first aspect, the small-diameter pipe is bent so that it can be inserted and removed. It is easy to penetrate below the ground surface at a location outside the building, and to penetrate the upstream end of this tube into the building.
[0065]
According to the drainage channel forming method of the fourth aspect, in addition to the effect of the drainage channel forming method of any one of the first to third aspects, the small diameter pipe is made to be a bendable pipe. It can be easily inserted and removed, and the upstream end of the small-diameter pipe penetrating from the upstream end of the pipe body can be bent. Pipes can be made easier.
[0066]
According to the drainage channel forming method of the fifth aspect, in addition to the effect of the drainage channel forming method of any one of the first to fourth aspects , in a state where the upstream end of the pipe body is inclined by 30 to 45 degrees, It is buried in a solid foundation.
[0067]
According to the drainage channel forming method of the sixth aspect , in addition to the effect of the drainage channel forming method of any one of the first to fifth aspects, the upstream end of the pipe is formed along the upper end surface of the solid foundation. .
[0068]
According to the drainage device according to claim 7 , even when the drainage equipment of the building is changed, the drainage equipment of the building is replaced by exchanging the small-diameter pipe that is removably inserted into the curved pipe. The drain can be connected to the drain, facilitating repair of the drain of the building, and the pipe penetrated below the ground surface. The drainage channel can be formed visually, and the deterioration and damage of the pipe and the small-diameter pipe due to the irradiation of ultraviolet rays by sunlight or the impact can be prevented.
[0069]
According to the drainage device of the eighth aspect , in addition to the effect of the drainage device of the seventh aspect , the pipe is buried in the solid foundation while the upstream end of the pipe is inclined by 30 ° to 45 °. Is done.
[0070]
According to the drainage device of the ninth aspect, in addition to the effect of the drainage device of the seventh or eighth aspect, the upstream end of the pipe is formed along the upper end surface of the solid foundation.
[Brief description of the drawings]
FIG. 1 is a sectional view showing a first embodiment of a method for forming a drainage channel according to the present invention.
FIG. 2 is a sectional view showing a second embodiment of the present invention.
FIG. 3 is a sectional view showing a third embodiment of the present invention.
FIG. 4 is a cross-sectional view illustrating a conventional drainage channel forming method.
FIG. 5 is a cross-sectional view showing another conventional drainage channel forming method.
[Explanation of symbols]
11 Drainage channel device
12 Housing as a building
14 Housing 12 solid foundation
21 Bend tube as tube
22 Upstream end of bend tube 21
23 Downstream end of bend tube 21
31 Flexible tube as bendable tube as small diameter tube
32 Downstream end of flexible tube 31
34 Upstream end of flexible tube 31
S ground surface

Claims (9)

The downstream end of the pipe is horizontally penetrated below the ground surface at an external position of the building, and the upstream end of the pipe is inclined with respect to the downstream end to rise above the ground surface inside the building. Forming a solid foundation of the building in a state of being penetrated, burying the pipe in this solid foundation,
A small-diameter pipe smaller in diameter than the pipe is inserted into this pipe so that it can be inserted and removed,
A method of forming a drainage channel, comprising connecting a downstream end of the small-diameter pipe to a drainage channel and connecting a drainage facility of the building to an upstream end of the small-diameter pipe. The method for forming a drainage channel according to claim 1, wherein the pipe is curved so that a small-diameter pipe can be inserted and removed. The method for forming a drainage channel according to claim 1, wherein the pipe is bent so that a small-diameter pipe can be inserted and removed. 4. The method according to claim 1, wherein the small diameter pipe is a bendable pipe. The method for forming a drainage channel according to any one of claims 1 to 4, wherein the pipe is buried in a solid foundation with the upstream end inclined at 30 to 45 degrees . The method for forming a drainage channel according to any one of claims 1 to 5, wherein an upstream end of the pipe is formed along an upper end surface of the solid foundation . A drainage device for connecting a drainage facility in a building to a drainage channel outside the building,
In a state where the downstream end penetrates horizontally below the ground surface at an external position of the building, and the upstream end penetrates above the ground surface inside the building at an angle to the downstream end , the solid foundation of the building A pipe buried in the
A drainage device, comprising: a small-diameter pipe that is inserted into and removable from the pipe body and is smaller in diameter than the pipe body and can be bent. The drainage channel device according to claim 7 , wherein the pipe is buried in the solid foundation with the upstream end of the pipe being inclined by 30 to 45 degrees . The upstream end of the tube is formed along the top surface of the solid foundation
The drainage device according to claim 7 or 8, wherein:

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