JPH1136345A - Installation structure of vertical pipe - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an installation structure of a vertical pipe in which the vertical pipe attenuating the energy of the stream from horizontal inflow pipes introducing fluid into a manhole, can be easily installed in the manhole and a sufficient working space can be obtained in the manhole. SOLUTION: This installation structure of a vertical pipe is provided the vertical pipe 10 vertically arranged in a manhole 30 to attenuate the energy of the stream flowing down by guide passages 12c, 14b provided in the inside. And the vertical pipe is provided with an introducing tool 20 having a funnel- shaped form opened at the upper end face, attached to the upper end of the vertical pipe 10 so that the fluid flowing down from the ends of horizontal inflow pipes 41, 42 horizontally inserted in the manhole flows therein.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to, for example, a natural flow type vertical drain for sewage which is disposed vertically inside a manhole and attenuates sewage flowing naturally by a guideway provided inside the manhole. The present invention relates to a vertical pipe installation structure such as a pipe.

[0002]

2. Description of the Related Art In order to attenuate sewage flowing down naturally in a manhole when the sewage flows into the manhole by gravity, for example, as disclosed in Japanese Patent Application Laid-Open No. Hei 8-41915, a vertical sewage is introduced into a manhole. A method of arranging tubes (drop shafts) has been implemented. A guide path is provided inside the vertical pipe for sewage so as to bend so that the sewage does not flow down linearly. When the sewage flows down along the guide path, the sewage is in an attenuated state. The attenuated sewage flows into the manhole from the lower end of the vertical sewage pipe. Therefore, there is no possibility that the sewage flowing down will strongly collide with the bottom of the manhole, and the wear of the bottom of the manhole will be suppressed.

[0003] A vertical pipe for sewage disposed vertically in a manhole is connected to an end of a horizontal inflow pipe which has entered the manhole in a horizontal state. Also in the publication, a vertical pipe for sewage disposed in a manhole is connected to one horizontal inflow pipe by a pipe joint.

[0004]

Generally, sewage flows into one manhole from a plurality of horizontal inflow pipes, and the bottom of the manhole is formed by sewage flowing down through the manhole from each of the horizontal inflow pipes. In order to prevent excavation, it is necessary to make the sewage flowing down from each horizontal inflow pipe into a damped state. In this case, the sewage vertical pipes connected to the respective horizontal inflow pipes are arranged in the manhole, and the respective sewage vertical pipes are connected to the respective horizontal inflow pipes. Sewage flowing into the manhole flows down into the manhole in an attenuated state.

However, when a plurality of sewage vertical pipes are arranged in the manhole as described above, a sufficient space necessary for operations such as maintenance and management of each sewage vertical pipe is secured in the manhole. It may not be possible. In addition, there is also a problem that economic efficiency is impaired because a plurality of vertical sewage pipes are used. Furthermore, each horizontal inflow pipe and each sewage vertical pipe must be connected by a pipe joint, and there is a problem that the operation is troublesome.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide a vertical pipe for attenuating a fluid easily in a manhole with respect to a horizontal inflow pipe for flowing a fluid into the manhole. It is another object of the present invention to provide a vertical pipe installation structure that can secure a sufficient working space in a manhole.

[0007]

The invention according to claim 1 of the present application (invention 1) is arranged vertically in a manhole, and the flowing fluid is attenuated by a guideway provided inside. And a top end of the vertical pipe so that the fluid flowing down from the end of the horizontal inflow pipe that has entered the manhole horizontally has a funnel shape with the upper end face opened. And an introduction tool attached to the vertical pipe.

The invention described in claim 2 of the present application (Invention 2)
The installation structure of the vertical pipe according to the first aspect of the present invention, wherein the vertical pipe and the introducing tool are mounted concentrically.

The invention described in claim 3 of the present application (the present invention 3)
The installation structure of the vertical pipe according to the first aspect of the present invention, wherein the vertical pipe and the introduction tool are mounted in an eccentric state.

[0010] The invention described in claim 4 of the present application (Invention 4)
The vertical pipe installation structure according to claim 1, wherein a cylindrical protective body is continuously provided concentrically on the upper side of the introduction tool.

The invention described in claim 5 of the present application (the present invention 5)
Is arranged vertically in the manhole, through a vertical pipe in which the fluid flowing down by the guideway provided inside is attenuated, and through a horizontal part that enters the manhole horizontally, An inflow pipe having a vertical portion adapted to attenuate the fluid flowing down by the provided guideway;
A vertical pipe installation structure including an introduction tool or an introduction path attached to an upper end of the vertical pipe so as to have a reservoir for a fluid flowing out from a lower end of the inflow pipe.

The invention described in claim 6 of the present application (the present invention 6)
Is arranged vertically in the manhole, through a vertical pipe in which the fluid flowing down is attenuated by a guideway provided inside, and through a horizontal portion which enters horizontally into the manhole, An inflow pipe having a vertical portion adapted to attenuate the fluid flowing down by the guide path provided in the pipe, and an introduction tool attached to the upper end of the vertical pipe so that the fluid flowing down from the inflow pipe flows into the inflow pipe or An installation structure of a vertical pipe, comprising an introduction path, wherein a lower end of the introduction pipe is supported by the introduction tool or an invert placed on the introduction path.

[0013]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a longitudinal sectional view showing an example of an embodiment of a vertical pipe installation structure of the present invention, and FIG.
It is the top view. In this vertical tube installation structure, for example,
The sewage flows into the cylindrical manhole 30 by the pair of horizontal inflow pipes 41 and 42, and one vertical sewage pipe 10 is vertically arranged in the manhole 30.

One horizontal inflow pipe 41 for supplying sewage into the cylindrical manhole 30 is located above the other horizontal inflow pipe 42, and an end of the upper horizontal inflow pipe 41 is a manhole. 30 penetrates through the wall surface 31 of the manhole 30 and extends substantially horizontally to the vicinity of the axial center of the manhole 30. The lower horizontal inflow pipe 42 is connected to the upper horizontal inflow pipe 41.
Are arranged symmetrically with respect to the axial center of the manhole 30, and the ends thereof penetrate the wall surface 31 of the manhole 30 and enter the manhole 30 horizontally. This horizontal inflow pipe 42
Has a larger diameter than the upper horizontal inflow pipe 41.

At the bottom of the manhole 30, an end of a horizontal outflow pipe 43 for discharging the sewage flowing into the manhole is horizontally mounted. The vertical sewage pipes 10 vertically arranged in the manhole 30 are arranged in order from the upper side to the attenuation pipes 1.
2. The connecting pipe 13 and the outflow pipe 14 are joined, and a funnel-shaped introduction tool 20 is attached to the upper end of the attenuation pipe 12 provided at the uppermost part of the vertical pipe 10 for sewage.

The introducer 20 is sequentially moved downward as it goes down.
It has the shape of a truncated cone with a reduced diameter, and its upper end surface and lower end surface are each open. The upper end surface and the lower end surface are concentric.

The damping pipe 12 of the vertical pipe for sewage 10 provided below the introducing tool 20 is a straight cylindrical damping pipe main body 12.
a, a hollow shaft 12b disposed along an axis in the damping tube main body 12a, and a spiral shaft provided between an outer peripheral surface of the hollow shaft 12b and an inner peripheral surface of the damping tube main body 12a. And a spiral guide path 12c. Spiral guideway 12c
Is provided over the entire length in the attenuation pipe main body 12a.

The upper end surface of the attenuation pipe main body 12a is
0 is concentrically joined to the open lower end face. The hollow shaft 12b is inserted through the entire length of the attenuation pipe main body 12a, protrudes upward from the upper end surface of the attenuation pipe main body 12a, and is inserted through the axial center of the introduction tool 20 disposed on the upper side. It extends above the introducer 20.

A connecting pipe 13 provided below the attenuation pipe 12
Is formed in a straight cylindrical shape, and is concentrically joined to the lower side of the attenuation pipe main body 12a in the attenuation pipe 12.
The outflow pipe 14 disposed below the connecting pipe 13 has a straight cylindrical outflow pipe main body 14a and a spiral guide path 14b provided in a spiral shape on the inner peripheral surface of the outflow pipe main body 14a. doing. The spiral guide path 14b is provided over the entire length of the outflow pipe main body 14a, and its axial center is hollow. The outflow pipe main body 14a is joined concentrically with the upper connection pipe 13. An outflow portion 14c is provided at the lower portion of the outflow pipe main portion 14a so as to protrude horizontally to the side. It is discharged into 30.

The introduction tool 20 constituting the vertical sewage pipe 10, the attenuation pipe main body 12a of the attenuation pipe 12, the connecting pipe 13, and the outflow pipe 1
The outflow pipe body 14a of No. 4 is not particularly limited in material, but preferably has high strength, and is made of metal, synthetic resin, concrete or the like.

The spiral guide path 12c of the attenuation pipe 12 and the spiral guide path 14b of the outflow pipe 14 are made of metal, synthetic resin, or the like. As the synthetic resin, any of a thermoplastic resin and a thermosetting resin may be used. As the thermoplastic resin, a vinyl chloride resin, an olefin resin (eg, polyethylene, polypropylene), a methacryl resin, or the like is used. As the thermosetting resin, unsaturated polyester resin, vinyl ester resin, epoxy resin, polyurethane, dicyclopentadiene, and the like are used. Further, these resins may be used as inorganic fibers, glass fibers, organic fibers, carbon fibers, and aramid fibers. And those reinforced with fibers such as vinylon fibers can also be used.

The spiral guide paths 12c and 14b include:
Considering the workability at the time of production, a light-weight resin is preferable, and a fiber-reinforced resin using a vinyl chloride resin, a polyethylene resin, or an unsaturated polyester resin having excellent abrasion resistance is particularly preferable.

The vertical pipe 10 for sewage is provided with a damping pipe 1
2. In a state where the connection pipe 13 and the outflow pipe 14 are connected in the up-down direction, the introduction tool 20 is joined to the upper end of the attenuation pipe 12 provided at the top. In this case, the length of the vertical pipe 10 for sewage is set such that each end of each of the horizontal inflow pipes 41 and 42 is located above the upper end surface of the introduction tool 20. Then, the vertical sewage pipe 10 in the manhole 30 is positioned so that the sewage flowing down from the respective ends of the horizontal inflow pipes 41 and 42 located in the manhole 30 flows into the introduction tool 20.
In the present embodiment, the amount of entry of the end of the lower horizontal inflow pipe 42 into the manhole 30 is small, and conversely, the end of the upper horizontal inflow pipe 42 has the smaller manhole 30.
The vertical pipe for sewage 1
0 is the manhole 30 through which the lower horizontal inflow pipe 42 penetrates.
Are arranged along the wall surface 31 portion of the.

The lowest inflow pipe 1 in the vertical sewage pipe 10
The lower end of 4 is vertically supported by being embedded in an invert 33 made of concrete cast at the bottom of the manhole 30.

In the vertical pipe installation structure having such a configuration, the sewage flowing into the manhole from each of the horizontal inflow pipes 41 and 42 flows down into the introduction tool 20 and is guided by the inner peripheral surface of the introduction tool 20. , And flows into the vertical pipe 10 for sewage. The sewage flowing into the vertical pipe 10 for sewage is supplied to the spiral guide path 12 of the attenuation pipe 12.
c and is attenuated by flowing down spirally along the spiral guide path 1 b of the outflow pipe 14, and is discharged into the manhole 30 from the outflow pipe portion 14 c of the outflow pipe 14. The sewage discharged into the manhole 30 is discharged into a horizontal outflow pipe 43 attached to the bottom of the manhole 30.

In the present embodiment, for example, a diameter of 200 m
In the manhole 30 having an inner diameter of 2000 mm provided with horizontal inlet pipes 41 and 42 of m and 500 mm, an inner diameter of 6 mm is provided.
An introduction tool 20 having an inner diameter of an upper end surface of 1000 mm is attached to an upper end portion of the vertical pipe 10 for sewage of 00 mm. Caliber 50
The 0 mm horizontal inflow pipe 42 is connected to the bottom surface 32 of the manhole 30.
Is installed at a height of 6.5m from
The horizontal inflow pipe 41 having a diameter of 200 mm is attached at a position at a height of 10 m from the bottom surface 32 of the manhole 30.

The introducer 20 is formed by fixing a 20 mm thick polyethylene plate with bolts to the surface of a fiber reinforced resin having a thickness of 8 mm by a hand lay-up method. The vertical pipe 10 for sewage is provided with a damping pipe 12.
The attenuation pipe main body 12a and the outflow pipe main body 14a of the outflow pipe 14 are each constituted by a 12 mm thick FRPM (fiber reinforced resin mortar) pipe, and the spiral guide paths 12c and 14b are formed by chopped strands. The thickness is 8 mm by a fiber reinforced resin having glass fibers of a mat (# 450 g / m ² ) and a roving cloth (# 580 g / m ² ). The pitch of the spiral guide path 12c of the attenuation pipe 12 is 490 mm, and the pitch of the spiral guide path 14b of the outflow pipe 14 is 290 mm.

In the manhole 30, first, the outflow pipe 1
4, the connecting pipe 13 and the damping pipe 12 are joined in this order from the lower side to construct the vertical pipe 10 for sewage. Then, the introducing tool 20 is attached to the upper end of the vertical pipe 10 for sewage.
Is located below the horizontal inflow pipe 42 having a diameter of 500 mm, and it is confirmed that the sewage flowing down from each of the horizontal inflow pipes 41 and 42 flows down onto the introduction tool 20.

As described above, in the installation structure of the vertical sewage pipe according to the present embodiment, one vertical sewage pipe 1 is provided in the manhole 30.
Since only 0 is disposed, a sufficient working space is secured inside the manhole 30 around the vertical pipe 10 for sewage, and the vertical pipe for sewage can be easily installed. Maintenance can be easily performed. Furthermore,
It is economical because only one vertical pipe for sewage is used.

FIG. 3 is a longitudinal sectional view showing another embodiment of the installation structure of the vertical pipe according to the present invention, and FIG. 4 is a plan view thereof. In this vertical tube installation structure, the introduction tool 20 ′ has a truncated conical shape whose diameter is gradually reduced toward the lower side, and the upper end face and the lower end face are open, respectively. Is in an eccentric state. Introducer 20 '
The open lower end surface is concentrically joined to the upper end surface of the attenuation pipe main body 12a. Therefore, the open upper end surface of the introducing tool 20 'is eccentrically attached to the vertical pipe 10 requiring sewage.

The end of the upper horizontal inflow pipe 41 is
It enters into a portion on the end of 0 'and away from the vertical pipe 10 requiring sewage. The lower horizontal inflow pipe 42 is connected to the introduction tool 20 '.
On the end near the vertical pipe 10 for sewage. Other configurations are the same as those described with reference to FIGS.

In the vertical pipe installation structure of this configuration, the sewage flowing into the manhole 30 from the horizontal inflow pipe 41 flows down to a portion distant from the vertical pipe 10 for sewage of the introducing tool 20 ′, and from the horizontal inflow pipe 42. The sewage flowing into the manhole 30 flows down to a portion near the vertical pipe 10 for sewage of the introducing tool 20 ′, and each is guided to the inner peripheral surface of the introducing tool 20 ′, and the vertical pipe 1 for sewage.
It flows in smoothly without concentrating the flow in 0.

FIG. 5 is a longitudinal sectional view showing another example of the installation structure of the vertical pipe for sewage. In the installation structure of the vertical pipe for sewage shown in FIG. 5, each end of each of the horizontal inflow pipes 41 and 42 projects into the manhole 30 by an equal length.
The vertical pipe 10 for sewage is arranged vertically along the axis of the manhole 30, and the outer peripheral surface of the introducer 20 is provided by a plurality of columns 22 arranged at equal intervals in the circumferential direction. The inner peripheral surface of the manhole 30 is supported concentrically with the manhole 30. In addition, a cylindrical protective body 21 for preventing the inner peripheral surface of the manhole 30 from being soiled is attached to the upper end surface of the introduction tool 20 in a vertical state. The horizontal inflow pipes 41 and 42 provided in the manhole 30 respectively enter the inside of the protection body 21 in a state where they are fitted into the grooves 21 a and 21 b provided on the peripheral surface of the protection body 21, respectively. I have. Each of the grooves 21 a and 21 b is open upward from the upper end surface of the protection body 21.

The end faces of the horizontal inlet pipes 41 and 42 are diametrically equal from the axial center of the truncated conical introducer 20, and therefore flow down from the horizontal inlet pipes 41 and 42. The sewage flows down in a similar state along the inner peripheral surface of the introducing tool 20, and flows smoothly from the introducing tool 20 into the vertical pipe 10 for sewage. In addition, the protection body 21 prevents the inner peripheral surface of the manhole 30 from being stained with sewage.

FIG. 6 is a plan view showing still another example of the installation structure of the vertical pipe for sewage. In the installation structure of the vertical pipe for sewage shown in FIG. 6, a plurality of steps 34 are provided on the inner peripheral surface of the wall surface 31 of the manhole 30 along the vertical direction at equal intervals to each other. Is provided with a groove 23 having a semicircular cross section over the entire vertical direction. In this case, for example, in the manhole 30 having a diameter of 2000 mm, the groove 23 is formed so that the worker can pass through the inside of the groove 23.
Has a semicircular cross-section such that a circle having a diameter of about 600 mm is formed. The horizontal inflow pipes 41 and 42 penetrate the peripheral surface of the cylindrical protection body 21 and enter the protection body 21.

With this configuration, the manhole 30
When a worker enters the inside to perform work, even if the sewage flows down from the horizontal inflow pipes 41 and 42, the worker is not likely to be contaminated by the sewage. Therefore, even when the worker works in the manhole 30, it is not necessary to prevent the sewage from flowing into the manhole 30 from each of the horizontal inflow pipes 41 and 42.

FIG. 7 is a plan view showing still another example of the installation structure of the vertical pipe for sewage. In the installation structure of the vertical sewage pipe shown in FIG. 7, the first inflow pipe 51 has a vertical portion 511 through which a flowing fluid flows down through a horizontal portion which horizontally enters the upper portion of the manhole 30. I have. A hollow shaft 511a and guide paths 511b and 511c are provided in the vertical portion 511, and the fluid flowing down by the guide paths 511b and 511c is attenuated. The lower end of the vertical portion 511 is opened downward, and the fluid flows out from the opening 511d.

The second inflow pipe 52 has a vertical portion 521 through which a flowing fluid flows down through a horizontal portion which horizontally enters the upper portion of the manhole 30. A hollow shaft 521a and guide paths 521b and 521c are provided in the vertical portion 521, and the fluid flowing down by the guide paths 521b and 521c is attenuated. The lower end of the vertical portion 521 is opened downward, and the fluid flows out from the opening 521d.

The third inflow pipe 53 is provided so as to horizontally enter the side of the lower ends of the first inflow pipe 51 and the second inflow pipe in the manhole 30. Third inflow pipe 5
The inflow fluid is transferred to a vertical pipe for sewage 1
An introduction path 60 leading to the upper end of the zero is provided. The introduction path 60 is provided with a reservoir 61 for the fluid flowing out of the first inflow pipe 51 and the second inflow pipe 52. The same vertical pipe 10 for sewage as described with reference to FIG. 1 is used. In addition, in this installation structure of the vertical pipe for sewage, at least one of the first inflow pipe 51 and the second inflow pipe 52 may be provided, and the third inflow pipe 53 is not essential. Absent. Further, instead of the introduction path 60, an introduction tool for guiding the outflowing fluid to the vertical sewage pipe 10 may be provided.

In the vertical pipe installation structure having this configuration, the sewage flowing into the manhole 30 from the first inflow pipe 51 and the second inflow pipe 52 flows through the vertical sections 511 and 521 in the guide paths 511b and 521b, respectively. After flowing down in an attenuated state along the path, the water flows out from the openings 511 d and 521 d at the lower end into the pool 61 of the introduction path 6. First inflow pipe 51
And openings 511d, 52 at the lower end of the second inflow pipe 52.
Since the sewage flowing from 1d softly lands in the water accumulated in the accumulation portion 61, the sewage does not scatter in the manhole and flows smoothly into the sewage vertical pipe 10.

FIG. 8 is a plan view showing still another example of the installation structure of the vertical pipe for sewage. In the installation structure of the vertical pipe for sewage shown in FIG. 8, the first inflow pipe 71 has a vertical section 711 through which a flowing fluid flows down through a horizontal section which horizontally enters the upper portion of the manhole 30, and a vertical section. An outflow pipe 712 that travels horizontally from the lower end of the 711 through a bent portion is provided. Inside the vertical portion 711, the hollow shaft 711a and the guide paths 711b, 7
11c is provided, and the fluid flowing down by the guide paths 711b and 711c is attenuated.

The second inflow pipe 72 is provided in a lower portion of the manhole 30 than the inflow portion of the first inflow pipe 71 so as to open downward through a bent portion from a horizontal portion which enters horizontally. Have been. Note that the second inflow pipe 72 is not essential.

A dish-shaped introducer 80 is attached to the upper end of the attenuation pipe 12 provided on the uppermost part of the vertical pipe 10 for sewage. The introduction tool 80 is provided at the center of the
Are provided, and the end face of the outlet 82 is joined to the upper end face of the attenuation pipe 12. Invert 9 on the introducer 80
The lower end of the first inflow pipe 71 is supported by the invert 90.

In the vertical pipe installation structure having this configuration, the sewage flowing into the manhole 30 from the first inflow pipe 71 flows down in the vertical portion 711 along the guide path 711b while being attenuated. Flows out from the outflow pipe 711d into the introduction tool 80, but since the introduction tool 80 is protected by the invert 90, it is not scoured by the sewage and the sewage does not scatter into the manhole 30. , Merges with the sewage flowing from the second inflow pipe 72 and smoothly flows into the sewage vertical pipe 10.

FIG. 9 is a plan view showing still another example of the installation structure of the vertical pipe for sewage. In the installation structure of the vertical pipe for sewage shown in FIG. 9, the first inflow pipe 71 ′ has a vertical part 711 ′ through which the flowing fluid flows down through a horizontal part which horizontally enters the upper part of the manhole 30, An outflow pipe 712 ′ that travels horizontally from the lower end of the vertical portion 711 ′ via the bent portion is provided.

The second inflow pipe 72 'is provided in the manhole 30.
The first inflow pipe 71 ′ is provided so as to enter horizontally at a side portion of a lower end portion of the first inflow pipe 71 ′. At the upper end of the attenuation pipe 12 provided at the uppermost part of the vertical pipe 10 for sewage, an introduction tool 80 'is provided.
Is attached. The receiving portion 81 'of the introduction tool 80' is disposed so as to be located below the first inflow pipe 71 'and the second inflow pipe 72'. An invert 90 'is placed on the introducer 80', and the invert 90 'supports the lower end of the first inflow pipe 71'.

In the vertical pipe installation structure of this configuration, the sewage flowing into the manhole 30 from the first inflow pipe 71 'flows down in the vertical portion 711' along the guideway after being attenuated. The liquid flows out from the outlet pipe 712 'at the lower end onto the introducing tool 80'. However, since the introducing tool 80 'is protected by the invert 90', it is not scoured by sewage and scatters into the manhole 30. Without being mixed with the sewage flowing from the second inflow pipe 72 ′, the water smoothly flows into the vertical sewage pipe 10.

[0048]

As described above, the vertical pipe installation structure of the present invention has a plurality of horizontal inflow pipes because the funnel-shaped introduction tool is provided at the upper end of the vertical pipe installed in the manhole. Even when the fluid flows into the manhole from the ground, it is economical because it does not require multiple vertical pipes, and a large work space is secured in the manhole, and the vertical pipe installation work Becomes easier. Further, since there is no need to connect the vertical pipe and the horizontal inflow pipe, the installation work of the vertical pipe becomes easy. Furthermore, even when a new horizontal inflow pipe is installed in the manhole, the connection operation with the vertical pipe is not required, and the installation work is facilitated.

The installation structure of the vertical pipe according to the present invention is as follows.
At the upper end of the vertical pipe installed in the manhole, an introduction path having a reservoir for the fluid flowing out from the lower end of the inflow pipe having the vertical portion is attached, so that the sewage flowing from the inflow pipe is in the pool. Because soft landing in the accumulated water,
It flows smoothly into the vertical pipe without being scattered in the manhole.

The installation structure of the vertical pipe according to the present invention is as follows.
An introducer attached to the upper end of the vertical pipe is attached to the upper end of the vertical pipe installed in the manhole so that the fluid flowing down from the inflow pipe having the vertical portion flows in, and placed on the introducer. Since the lower end of the introduction pipe is supported by the invert, the introduction tool is protected by the invert and is not scoured by the sewage flowing from the inflow pipe, and the sewage scatters into the manhole. Flows smoothly into the vertical pipe without any

[0051]

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing an example of an embodiment of a vertical pipe installation structure of the present invention.

FIG. 2 is a plan view of the example shown in FIG.

FIG. 3 is a longitudinal sectional view showing another example of the embodiment of the vertical pipe installation structure of the present invention.

FIG. 4 is a plan view of the example shown in FIG. 3;

FIG. 5 is a longitudinal sectional view showing still another example of the embodiment of the vertical pipe installation structure of the present invention.

FIG. 6 is a plan view showing still another example of the embodiment of the vertical pipe installation structure of the present invention.

FIG. 7 is a longitudinal sectional view showing still another example of the embodiment of the vertical pipe installation structure of the present invention.

FIG. 8 is a longitudinal sectional view showing still another example of the embodiment of the installation structure of the vertical pipe of the present invention.

FIG. 9 is a plan view showing still another example of the embodiment of the vertical pipe installation structure of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 Vertical pipe for sewage 12 Attenuation pipe 12a Attenuation pipe main body part 12b Hollow shaft 12c Spiral guideway 13 Connecting pipe 14 Outflow pipe 14a Outflow pipe main body part 14b Spiral guideway 14c Outflow part 20, 20 ', 80, 80' Introduction tool 21 Protective body 22 Prop 23 Groove 30 Manhole 31 Wall 32 Bottom 33,90,90 'Invert 41 Horizontal inflow pipe 42 Horizontal inflow pipe 51,51,53,71,71', 72,72 ', 7
3,73 'inflow pipe 60 introduction path 61 pool

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Keiichi Ishida 2-2 Sekisui Kagaku Kogyo Co., Ltd.

Claims (6)

[Claims] 1. A vertical pipe which is arranged vertically in a manhole and in which a fluid flowing down by a guide passage provided therein is attenuated, and a funnel having an open upper end face. And an introduction tool attached to the upper end of the vertical pipe so that fluid flowing down from the end of the horizontal inflow pipe that has entered the manhole horizontally is provided. 2. The installation structure for a vertical pipe according to claim 1, wherein the vertical pipe and the introducing tool are mounted concentrically. 3. The vertical pipe installation structure according to claim 1, wherein the vertical pipe and the introducing tool are mounted in an eccentric state. 4. The installation structure for a vertical pipe according to claim 1, wherein a cylindrical protective body is continuously provided concentrically above the introducing tool. 5. A vertical pipe which is disposed vertically in a manhole and in which a fluid flowing down by a guide passage provided therein is attenuated, and a horizontal portion which horizontally enters the manhole. An inflow pipe having a vertical portion configured to attenuate a fluid flowing down by a guide passage provided therein, and a reservoir portion for a fluid flowing out from a lower end of the inflow pipe at an upper end portion of the vertical pipe. An installation structure for a vertical pipe, comprising: an installed introduction tool or introduction path. 6. A vertical pipe which is vertically arranged in a manhole and in which a flowing fluid is attenuated by a guideway provided therein, and a horizontal portion which horizontally enters the manhole. An inflow pipe having a vertical portion through which a fluid flowing down by a guide passage provided therein is attenuated, and a vertical pipe is attached to an upper end of the vertical pipe so that the fluid flowing down from the inflow pipe flows in. An installation structure for a vertical pipe, comprising: an introduction tool or an introduction path, wherein a lower end of the introduction pipe is supported by an invert placed on the introduction tool or the introduction path.