CN219059638U - Rainwater collection system for mountain-like municipal road - Google Patents

Abstract

The utility model discloses a rainwater collection system for a mountain-like municipal road, which comprises a mountain, wherein a highway pavement is paved on the left side of the top of the mountain, a highway separator is piled up in the center of the top of the highway pavement, a rainwater ditch is arranged on the left side of the top of the highway pavement, a grout stone side ditch is arranged on the right side of the top of the highway pavement, and a grout stone drainage ditch and a grout stone intercepting ditch are respectively arranged on the right side of the top of the mountain. Through mountain body, highway separator, highway road surface, water conduit, rainwater ditch, rainwater house steward, serous masonry side ditch, serous masonry escape canal, serous masonry intercepting ditch and the cooperation of digging the side slope, can collect the rainwater on highway road surface, effectively avoid the rainwater to accumulate on the road surface and lead to the condition of process driving difficulty, can collect the domatic overflow and the road surface rainwater of highway road surface bottom, improved the rainwater collection rate, solved the rainwater collection problem of the municipal road of mountain form effectively.

Description

Rainwater collection system for mountain-like municipal road

Technical Field

The utility model relates to the technical field of municipal road rainwater collection, in particular to a rainwater collection system for a mountain-like municipal road.

Background

The mountain-surrounding municipal road has the characteristics of municipal road and mountain-surrounding highway, and the rainwater engineering mainly collects two parts of road surface rainwater and hillside slope surface rainwater.

If the rainwater is collected by adopting a rainwater grate purely according to municipal roads, slope rainwater can form slope overflow to enter the roads; if the side ditch is adopted for collecting water according to the road, the size and depth of the water collecting side ditch are increased along with the increase of the mileage of the water collecting side ditch, and rainwater at the low point of the road cannot be removed in time, so that the use area of the road is seriously compressed, the road surface is influenced, and the design is too rough.

Accordingly, it is necessary to invent a rainwater collecting system for mountain-around municipal roads to solve the above problems.

Disclosure of Invention

The utility model aims to provide a rainwater collection system for a mountain-around municipal road, which has the advantage of high-efficiency rainwater collection, and solves the problem that rainwater can form slope overflow to enter the road when collected by a rainwater grate; with the ditch for receiving water, along with the increase of the mileage of the ditch for receiving water, the size and depth of the ditch for receiving water are increased, and the rainwater at the low point of the road can not be removed in time.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a rainwater collecting system for mountain-like town road, includes the mountain, highway road surface has been laid in the left side at mountain top, highway separator has been piled up in the center department at highway road surface top, the left side at highway road surface top is provided with the rainwater ditch, the right side at highway road surface top is provided with the grout stone side ditch, the right side at mountain top is provided with grout stone escape canal and grout stone intercepting ditch respectively.

Preferably, the grout rubble escape canal is located the left side of grout rubble intercepting ditch, grout rubble side ditch, grout rubble escape canal and grout rubble intercepting ditch are the rising setting in proper order.

Preferably, a digging side slope is arranged between the grout rubble side ditch and the grout rubble drainage ditch and between the grout rubble drainage ditch and the grout rubble intercepting ditch, and the proportion of the digging side slope is 1:1.

Preferably, a water diversion pipeline is communicated between the serositic rubble side ditch and the rainwater main pipe, and the water diversion pipeline is buried below the ground.

Preferably, the grout stone intercepting ditches are arranged at intervals of-meter along the line or at low points of the road.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, through the use of the rainwater ditch, the rainwater main pipe and the slurry rubble side ditch, rainwater on a highway pavement can be collected, and the condition that the process is difficult to drive due to the accumulation of the rainwater on the pavement is effectively avoided.

2. By using the slurry rubble side ditch, the utility model can collect slope overflow at the bottom of the road surface and road surface rainwater, and improves the rainwater collection rate.

Drawings

FIG. 1 is a schematic cross-sectional view of the present utility model.

In the figure: 1 mountain, 2 highway separators, 3 highway pavements, 4 water pipelines, 5 rain gutters, 6 rain main pipes, 7 grout rubble side gutters, 8 grout rubble drainage gutters, 9 grout rubble intercepting gutters and 10 excavation side slopes.

Detailed Description

Referring to fig. 1, a rainwater collection system for a mountain-like municipal road comprises a mountain 1, a highway pavement 3 is paved on the left side of the top of the mountain 1, a highway separator 2 is piled up in the center of the top of the highway pavement 3, a rainwater ditch 5 is arranged on the left side of the top of the highway pavement 3, the rainwater ditch 5 is communicated with a rainwater main pipe 6 through a pipeline, a grout stone side ditch 7 is arranged on the right side of the top of the highway pavement 3, and a grout stone drainage ditch 8 and a grout stone intercepting ditch 9 are respectively arranged on the right side of the top of the mountain 1.

The grout rubble drainage ditch 8 is positioned at the left side of the grout rubble intercepting ditch 9, and the grout rubble side ditch 7, the grout rubble drainage ditch 8 and the grout rubble intercepting ditch 9 are arranged in a sequentially lifting mode.

A square excavation side slope 10 is arranged between the grout rubble side ditch 7 and the grout rubble drainage ditch 8 and between the grout rubble drainage ditch 8 and the grout rubble intercepting ditch 9, and the proportion of the square excavation side slope 10 is 1:1.

The water diversion pipeline 4 is communicated between the slurry rubble side ditch 7 and the rainwater header pipe 6, the water diversion pipeline 4 is buried below the ground, and rainwater collected in the slurry rubble side ditch 7 can be conveniently guided into the rainwater header pipe 6 through the use of the water diversion pipeline 4, so that rainwater is prevented from overflowing the road surface.

The grout stone intercepting ditches 9 are arranged at every 80-100 meters along the line or at the low points of the road.

When the rain water collecting device is used, a rain water pipeline is arranged on a road according to local conditions, the rain water is collected in three parts, and the first part is: a sidewalk is arranged on one side of the non-mountain, and rainwater on the highway pavement 3 is mainly collected through a rainwater ditch 5; a second part: the bottommost part of one side of the ring mountain is provided with a slurry rubble side ditch 7 for collecting slope overflow at the bottom and road surface rainwater; third section: the slope rainwater on the top is mainly collected through a grout stone intercepting ditch 9 on the top of the slope, is discharged to a water collecting side ditch arranged at the bottom through a water diversion pipeline 4, is transversely arranged at intervals of 80-100 m along the line or at the low point of the road, and is collected to a rainwater main pipe 6, and finally is discharged into a downstream water body, so that the rainwater collection problem of the mountain-like municipal road is effectively solved.

To sum up: according to the rainwater collection system for the mountain-like municipal road, through the cooperation of the mountain body 1, the highway separator 2, the highway pavement 3, the water diversion pipeline 4, the rainwater ditch 5, the rainwater main pipe 6, the grout sheet stone side ditch 7, the grout sheet stone drainage ditch 8, the grout sheet stone intercepting ditch 9 and the excavation slope 10, the problem that slope surface rainwater can form slope surface overflow to enter the road due to rainwater grid collection is solved; with the ditch for receiving water, along with the increase of the mileage of the ditch for receiving water, the size and depth of the ditch for receiving water are increased, and the rainwater at the low point of the road can not be removed in time.

Claims (5)

1. Rainwater collection system for mountain-like municipal roads, comprising mountain (1), characterized in that: highway road surface (3) have been laid in the left side at mountain body (1) top, highway separator (2) have been piled up in the center department at highway road surface (3) top, the left side at highway road surface (3) top is provided with rain gutter (5), the right side at highway road surface (3) top is provided with serous lamella stone side ditch (7), the right side at mountain body (1) top is provided with serous lamella stone escape canal (8) and serous lamella stone intercepting ditch (9) respectively.

2. A rainwater collection system for mountain-type municipal roads according to claim 1, wherein: the grout rubble drainage ditch (8) is located on the left side of the grout rubble intercepting ditch (9), and the grout rubble side ditch (7), the grout rubble drainage ditch (8) and the grout rubble intercepting ditch (9) are arranged in a sequentially lifting mode.

3. A rainwater collection system for mountain-type municipal roads according to claim 1, wherein: the side ditches (10) are arranged between the grout rubble side ditches (7) and the grout rubble drainage ditches (8) and between the grout rubble drainage ditches (8) and the grout rubble intercepting ditches (9), and the ratio of the side ditches (10) is 1:1.

4. A rainwater collection system for mountain-type municipal roads according to claim 1, wherein: a water diversion pipeline (4) is communicated between the grout rubble side ditch (7) and the rainwater main pipe (6), and the water diversion pipeline (4) is buried below the ground.

5. A rainwater collection system for mountain-type municipal roads according to claim 1, wherein: the grout rubble intercepting ditches (9) are arranged at intervals of 80-100 meters along the line or at the low points of the road.

Images