JP7385250B2 - drainage basin - Google Patents

Description

The present invention relates to a drainage basin, and particularly to a drainage basin buried in a concrete bridge section on the underside of asphalt of a road.

Drainage basins are buried under the asphalt of roads (particularly expressways) to collect rainwater and drain it to the concrete bridge section. A drainage pipe is connected below the drainage basin, and in the case of an elevated bridge, the drainage pipe is installed outside the bridge. When using FRP drainage basins, because the degree of expansion and contraction is greater than that of concrete, slight separation may occur between the concrete bridge part and the drainage basin during times of large temperature changes in summer and winter. However, there was a problem in that rainwater leaked (infiltrated) from this peeled part.
Therefore, technological development is being carried out to solve this problem (Patent Documents 1 and 2).

Japanese Patent Application Publication No. 2015-105486 JP 2019-162592 Publication

However, in the technique disclosed in Patent Document 1, a gutter part must be formed to cover the outer periphery of a rectangular main body part made of FRP, which takes time and effort to manufacture. Further, the technique disclosed in Patent Document 2 also has a large number of members constituting the main body, making it difficult to manufacture in large quantities.
The present invention was made in view of the above-mentioned circumstances, and its purpose is to provide a drainage basin in which water can be returned again when water leaks due to separation between the concrete and the drainage basin. The objective is to provide products that can be manufactured efficiently.

The drainage basin according to the invention for achieving the above object is buried in a concrete bridge part, and includes an upper opening through which drainage flows, a lower opening connected to a drainage pipe, and a main body. The upper opening is formed larger than the lower opening, and the lower opening is a cylindrical part having a smaller diameter than the drain pipe below the main body. When the drain pipe is assembled from below the cylindrical part, a portion of the cylindrical part located above the upper edge of the drain pipe extends outwardly along the entire outer periphery of the cylindrical part. A gutter portion projecting from the cylindrical portion is provided, and a part of the cylindrical portion is opened with an inflow port communicating with the gutter portion.

According to the above configuration, even if separation occurs at the joint with the concrete and water leaks from this separation, the water that has traveled along the outer wall of the drainage basin will flow through the gutter and from the inlet. It is returned to the inside of the drainage basin and discharged to the outside through the drainage pipe. Since the gutter portion is provided in the cylindrical portion, the structure is simpler and the manufacturing characteristics can be improved compared to the case where the gutter portion is provided in the upper opening.
In the above invention, the cylindrical part has a substantially same circular shape along the vertical direction, and the gutter part has a cylindrical pipe having an inner diameter larger than an outer diameter of the cylindrical part. It is preferable to have a side wall portion cut to a height of , and a bottom portion provided with a mounting hole in the center of the disk that can be fitted into the outer edge of the cylindrical portion.
According to the above configuration, the gutter portion is formed by passing the side wall portion and the bottom portion from the lower end side of the cylindrical portion and then fixing them.

According to the present invention, it is possible to efficiently manufacture a product having a structure that returns water to the drainage basin when water leaks from the peeled part due to peeling at the joint with concrete. can.

It is a side view of the drainage basin in this embodiment. It is a front view of a drainage basin. It is a top view of a drainage basin. It is a top view (A) and a front view (B) of a grating. It is a side sectional view when a drainage basin and a drainage pipe are assembled. It is a front sectional view when a drainage basin and a drainage pipe are assembled.

Next, embodiments of the present invention will be described with reference to charts. The technical scope of the present invention is not limited by these embodiments, and can be implemented in various forms without changing the gist of the invention.
1 to 3 show the structure of the drainage basin 1 before being fixed to the drainage pipe P. This drainage basin 1 is buried in a concrete bridge portion of a road (for example, an expressway, a road provided on a bridge, a general national highway/prefectural highway, etc.) (not shown). More specifically, after the concrete is buried so that the imaginary line XX shown in FIG. , a water permeable member of asphalt is placed. For this reason, even if the gutter section is extended around the outer periphery of the square section 4A, water flowing around the concrete and the outer periphery of the drainage basin 1 cannot be introduced into the inflow space 9. Note that the imaginary line XX changes between the middle of the square part 4A and the position of the anchor bolt hole 14 depending on the location where the drainage basin 1 is buried, but the imaginary line XX changes between this point. Even if it does, the drainage basin 1 can still produce certain effects.

The drainage basin 1 is provided with a main body 4 made of resin (for example, FRP) and a grating 12 attached to the upper side of the main body 4. Above the drainage basin 1, there are provided an upper opening 2 through which wastewater flows, and a lower opening 3 connected to the inside of a cylindrical drainage pipe P. The upper side of the main body part 4 is formed as a large square part 4A having a substantially rectangular shape, while the lower side is formed as a cylindrical part 4C smaller than the square part 4A. The cylindrical portion 4C has substantially the same shape in the vertical direction. In this way, the upper opening 2 has a substantially rectangular shape and is largely open, and the lower opening 3 is smaller than the upper opening 2 and is open in a circular shape having an outer diameter smaller than the inner diameter of the drain pipe P. An intermediate portion between the square portion 4A and the cylindrical portion 4C is an inclined portion 4B that has an inclined surface on the right side in FIG. 1 and has a diameter reduced from the square portion 4A to the cylindrical portion 4C. In this manner, an inflow space 9 is provided inside the drainage basin 1, which communicates from the upper opening 2 to the lower opening 3 and allows rainwater to flow therein.

The inclined portion 4B is provided with a pair of front and rear anchor bolt holes 14 (four in total). Anchor bolts (not shown) are assembled here, and the stability of the drainage basin 1 is improved by embedding the anchor bolts in the concrete with the anchor bolts protruding left and right.
Further, on the lower surface of the square portion 4A, four bolt fixing nuts 16 are provided near the left and right side edges. A mounting hole passing through the square tube portion 4A is provided above the bolt fixing nut 16.
FIG. 4 shows the structure of the grating 12. Bolt holes 12A are provided at the four corners of the grating 12. By inserting and turning a bolt (not shown) while aligning the bolt hole 12A and the bolt fixing nut 16, the bolt is fixed to the bolt fixing nut 16 and the grating 12 is fixed to the drainage basin. 1 can be assembled.

Near the lower edge of the cylindrical portion 4C, four assembly holes 15 are provided at equal positions along the circumferential direction. On the other hand, the drain pipe P is provided with an attachment hole P1 at a position aligned with the attachment hole 15. The cylindrical portion 4C is assembled to the drain pipe P, and both members 4C and P are positioned and fixed with bolts (not shown) at a position where both holes P1 and 15 are aligned.
The gutter portion 6 is provided so as to project outward along the entire outer periphery of the cylindrical portion 4C. More specifically, the gutter portion 6 includes a side wall portion 6A formed by cutting a cylindrical pipe having an inner diameter larger than the outer diameter of the cylindrical portion 4C to a predetermined height (length), and a circular side wall portion 6A. The bottom part 6B is provided in the center of the plate with a central hole into which the outer edge of the cylindrical part 4C can be fitted. The hole edge of the central hole of the bottom part 6B is fixed to the outer wall 5 of the cylindrical part 4C with an adhesive so as to be watertight.

In this way, the gutter portion 6 protrudes outward by a predetermined amount from the outer wall 5 and is fixed to the cylindrical portion 4C in an upwardly open state. At this time, the bottom part 6B is provided with an inclined surface that goes downward from the radially outer side to the inner side (cylindrical part 4C), so that the water that has passed along the outer wall 5 can be smoothly flowed inside the cylindrical part 4C. I can put it in. Inside the gutter part 6, on the outer periphery of the cylindrical part 4C, inflow ports 7 communicating from the gutter part 6 to the inflow space 9 inside the cylindrical part 4C are provided at four equal positions along the circumference. It's open. By locating the lower end of the inlet 7 at or below the upper end surface of the bottom portion 6B, it is possible to more effectively flow water into the inside of the cylindrical portion 4C.

Further, in the gutter section 6, a cylindrical space securing member 10 is provided in the space that opens upward. This space securing material 10 is composed of, for example, a heat-resistant polymer water pipe made of resin (Kuradren PV (manufactured by Kuraray Plastics Co., Ltd.)), and is slightly smaller than the inner space of the gutter section 6. It has a small cross-sectional shape. The length of the space securing member 10 is approximately equal to the entire circumference length of the outer wall 5, and is inserted exactly along the entire circumference of the gutter portion 6. The space securing material 10 prevents concrete from closing the front surface of the inlet 7, and also serves as a flow path for water that has traveled along the outer wall 5 of the drainage basin 1 to pass through the gutter 6 and be guided to the inlet 7. used to ensure.
In this way, water flowing from above the gutter section 6 along the outer wall 5 enters the inside of the gutter section 6 and flows into the inflow space 9 from the inlet port 7.

When the drain pipe P is assembled from below the cylindrical part 4C, the gutter part 6 is fixed below the drain pipe P at a position above the upper edge P2 of the drain pipe P in the cylindrical part 4C. It is supposed to be done. More specifically, as shown in FIGS. 5 and 6, a predetermined distance L is provided between the bottom 6B of the gutter 6 and the upper edge P2, and both members 4C and P are Even when they are fixed with bolts, contact between the gutter portion 6 and the drain pipe P is avoided. In this embodiment, the distance L is considerably long for illustration purposes, but if it is possible to avoid contact between the two members 4C and P and secure an appropriate work space during the fixing work, it will be even longer. Can be shortened.

Next, the operation and effect of this embodiment configured as described above will be explained.
When the drainage basin 1 is buried in a concrete bridge, the upper end of the concrete will be located between the middle of the square part 4A and the anchor bolt hole 14 (imaginary line XX), and a permeable member will be placed on the upper surface. It will be placed. After a considerable period of time, peeling may occur at the joint between the outer wall 5 and the concrete, and water may leak from the groove formed in this peeled portion. In such a case, water that has passed through the outer wall 5 of the drainage basin 1 is received by the gutter section 6, returned to the interior of the drainage basin 1 through the inlet 7, and discharged to the outside from the drainage pipe P. Therefore, a situation in which water flows on the outer surface of the drain pipe P is avoided.
At this time, the gutter portion 6 is provided in the cylindrical portion 4C. Since the cylindrical part 4C has substantially the same shape in the vertical direction, when forming the gutter part 6, it can be manufactured more easily than in the case of forming the trough part 6 in the large rectangular part 4A. Furthermore, since the tubular portion 4C is smaller than the square tubular portion 4A, less material is required to form the gutter portion 6. Further, since the circumferential diameter of the inner circumferential groove of the gutter portion 6 is smaller than the circumferential diameter of the rectangular tube portion 4A, the number of space securing members 10 may be reduced.

Next, a construction method for burying the drainage basin 1 having the above structure in a concrete bridge section will be explained.
Before burying the drainage basin 1 with concrete, a space securing material 10 is installed in the groove of the gutter part 6. In this state, concrete is poured around the drainage basin 1 and hardened. According to this construction method, even after the drainage basin 1 is buried in the concrete bridge part, a certain amount of space is secured inside the gutter part 6 and the inlet 7, so that water that has passed through the outer wall 5 of the drainage ditch 1 can be removed. The water can pass through the gutter section 6 and the inlet 7 and flow into the drainage basin 1.
In the above embodiment, the drainage basin 1 is buried in concrete with the space securing material 10 placed around the entire circumference of the gutter 6. However, according to the present invention, the space securing material 10 is placed around the entire circumference of the gutter 6. It is sufficient to restrict the concrete from closing the front surface of the inflow port 7 by placing it only on the front surface. In this way, the amount of space securing material used can be reduced, and the work of installing the space securing material can be facilitated.

In the above embodiment, the drainage pipe P is provided with the mounting hole P1, the drainage basin 1 is provided with the assembly hole 15, and the structure is fixed with bolts, but according to the present invention, the drainage pipe and/or the drainage basin are fixed with bolts. There is no need to provide a hole for fixing the bolt, and the cylindrical part can remain inserted into the drain pipe. In this case, a structure may be adopted in which the position near the upper end of the drain pipe is fixed and the cylindrical tube is inserted from above. Also, in this case, the upper edge of the drain pipe will be located below the gutter, but if the gutter is located above the upper edge of the drain pipe, the upper edge of the drain pipe will be located below the gutter. It may come into contact with the lower surface side of the bottom.
As described above, according to the present embodiment, even if separation occurs at the joint with the concrete and water leaks from this separation, the water is returned to the inside of the drainage basin 1 and returned to the drainage pipe P. It became possible.

1...Drainage basin, 2...Upper opening, 3...Lower opening, 4...Body part, 5...Outer wall, 6...Gutter part, 7...Inlet, 9...Space for running water, 10...Space securing material

Claims (1)

It is buried in a concrete bridge section and has an upper opening through which drainage flows, a lower opening connected to a drainage pipe, and a main body.The upper side of the main body has a rectangular shape. While it is formed as a large square part, the lower side is a cylindrical part smaller than the square part, and this cylindrical part has the same shape in the vertical direction. The intermediate portion between the square part and the cylindrical part is a slanted part having a sloping surface to reduce the diameter, and the upper opening is formed larger than the lower opening , and the lower opening is The cylindrical part has a cylindrical shape and has an outer diameter smaller than the inner diameter of the drain pipe below the main body, and when the drain pipe is assembled from below the cylindrical part, In the shaped part, a gutter part is provided at a position above the upper end edge of the drain pipe and extends outward along the entire outer periphery of the tubular part. The inflow port communicating with the gutter part is open, and the gutter part is formed by cutting a cylindrical pipe having an inner diameter larger than the outer diameter of the cylindrical part to a predetermined height. 1. A drainage basin comprising: a side wall portion having a circular shape, and a bottom portion provided with a mounting hole in the center of a disc that can be fitted into the outer edge of the cylindrical portion.

Images