KR101128069B1 - A structure for gathereing rainwater on road - Google Patents

Abstract

PURPOSE: An environmentally-friendly structure for rainwater drainage of a road is provided to guide and drain a small amount of rainwater through a main collecting box and increase the amount of drainage by providing an extra water channel beside the main colleting box. CONSTITUTION: An environmentally-friendly structure for rainwater drainage of a road comprises a main collecting box, a main grating, an auxiliary collecting duct, and an auxiliary grating. The main collecting box is an open-top concrete structure for collecting rainwater and draining the rainwater to a sewage system. The main grating, having a plurality of grill bars and a plurality of inlet holes that are arranged at regular intervals, is installed on the top of the main collecting box. The auxiliary collecting duct is installed to be communicated with the main collecting box in order to guide rainwater to the main collecting box. The auxiliary grating opens and closes the auxiliary collecting duct, and the auxiliary grating comprises a square frame which is coupled to the upper side of the auxiliary collecting duct to reinforce the auxiliary inlet part of the auxiliary collecting duct, a plurality of opening and closing bars(42) which are coupled to the square frame through a rotary shaft(42a), and an opening and closing bar driving unit(50) which rotates the opening and closing bars.

Description

Eco-friendly structure for road drainage {A STRUCTURE FOR GATHEREING RAINWATER ON ROAD}

The present invention relates to an environment-friendly structure for storm drainage, and more particularly, an eco-friendly structure for storm drainage that can drain the rainwater quickly by expanding the initial drainage area of rainwater if the amount of rainwater flowing along the road surface is large. It is about.

Generally, roads are equipped with home / drainage equipment. For example, the road is paved inclined downward toward both sides from the center to drain the rainwater, and the rainwater is led to an edge near the sidewalk.

Here, the house / drainage structure as a facility for the house / drainage of the road as follows.

At the edge of the road, a sump is provided to collect the induced water. The sump is made of concrete poured in the installation space formed by the road surface is deeply excavated.

On the other hand, the grating is seated on the top of the sump to prevent water and the wheels of people and vehicles from falling out while preventing water from flowing into the sump.

According to the prior art road drainage structure, rainwater is a structure that flows into the sump well only through the inlet hole of the grating, when the amount of rainwater is large, such as flooding because the inlet hole of the grating is a fixed type does not change the water flow area The phenomenon of stagnant rain in grating occurs.

In fact, the sump or sewage treatment system is designed for flooding, so that even if a large amount of rainwater flows in, it can be sufficiently sewage treated, but the grating is exposed to the outside of the road and becomes unsightly when it is enlarged. Due to these factors, drainage is not smooth when draining rainwater through the grating and the road surface is locked by rainwater.

Republic of Korea Patent No. 10-0778154

The present invention is to solve the problems as described above, when the amount of rainwater is small induction drainage through the main water collecting box that always maintains the open state, if the amount of rainwater is large due to flooding, etc. Its purpose is to provide an eco-friendly structure for rainwater drainage that can increase the drainage of rainwater by expanding the water supply area of rainwater.

Environmentally friendly structure for storm water drainage according to the present invention, the top is an open concrete structure and the main collection box for induction drainage of the road surface water to the sewage and sewage system; A plurality of grill bars are arranged at regular intervals and have a frame shape having a plurality of inflow holes, the main grating being installed on an upper portion of the main collection box; An auxiliary collecting duct connected to the circumference of the main collecting box in fluid communication with the main collecting box and collecting rainwater to guide the inside of the main collecting box; And an auxiliary grating installed in an auxiliary inlet formed in an upper portion of the auxiliary collecting duct to open and close the auxiliary inlet. And a plurality of opening and closing bars arranged in a line in the square frame and rotatably installed in the square frame through rotation shafts, respectively, for opening and closing the auxiliary inlet of the square frame, and opening and closing bar driving means for rotating the plurality of opening and closing bars. The opening and closing bar driving means is coupled to the rotating shafts of the plurality of opening and closing bars and the pinion to rotate together with the rotating shaft, arranged on both sides of the plurality of opening and closing bars along the plurality of opening and closing bars to be engaged with the pinion. It characterized in that it comprises an opening and closing rod, forward and backward means for advancing the opening and closing rod.

According to the eco-friendly structure for rainwater drainage according to the present invention, when the amount of rainwater is small, the rainwater is drained through the main collection box which is always open, and when the amount of rainwater flowing along the road due to flooding increases, By opening the auxiliary grating on the periphery of the box to increase the water flow area of the rainwater, the road surface can be induced and drained quickly so that the road surface can be kept environmentally friendly.

In addition, the opening and closing bar of the auxiliary grating does not use electricity as a driving source, and opens and closes based on the amount of rain on the road surface, thereby reducing initial investment and maintenance costs and preventing malfunctions due to rain.

1 is an overall configuration diagram of an environment-friendly structure for storm drainage according to the present invention.
Figure 2 is a perspective view of a part of the auxiliary grating applied to the environment-friendly structure for storm drainage according to the present invention.
3 and 4 is an operational state diagram of the auxiliary grating applied to the environment-friendly structure for storm drainage according to the present invention,
3 is the closing of the auxiliary grating,
4 is the opening of the auxiliary grating.

As shown in FIG. 1, the environment-friendly structure for rainwater drainage according to the present invention is a concrete structure connected to a sewage system with an open top and a main collecting box 10 for draining rainwater to a sewage system and a sewage system. The main grating 20 is installed in the upper portion of the 10, the main water collecting box 10 is installed in fluid communication with the auxiliary collecting duct 30 to guide rainwater to the main collecting box 10, the auxiliary collecting duct 30 Auxiliary grating 40 for opening and closing a), and will be described in detail each component below.

The main water collection box 10 is a concrete structure having a storage portion 11 therein and a main inflow portion at an upper portion thereof so that rainwater flowing along the road surface can be induced and drained into the sewage system, and is embedded in the ground.

The main grating 20 has a frame shape in which a plurality of grill bars 21 are arranged at regular intervals and provided with a plurality of inflow holes 22. The main grating 20 is installed at a main inlet of the main water collecting box 10.

The auxiliary collecting duct 30 has a tubular shape in which an auxiliary inlet portion communicating with the road surface is connected to the main collecting box 10 in a fluid communication manner, and is buried in the ground around the main collecting box 10.

The auxiliary grating 40 is composed of a rectangular frame 41, a plurality of opening and closing bar 42, the opening and closing bar driving means 50.

The rectangular frame 41 is coupled to the upper side of the auxiliary collecting duct 30 to firmly support the auxiliary inlet of the auxiliary collecting duct 30 and to support the opening and closing bar 42.

As shown in Figures 1 to 4, the plurality of opening and closing bar 42 is a flat plate shape and is rotatably coupled to the rectangular frame 41 through the rotating shaft 42a, respectively.

The plurality of opening and closing bars 42 are formed in a symmetrical concave-convex shape of both ends so that rainwater and foreign matter do not penetrate through the other opening and closing bars 42 that are adjacent to each other.

The plurality of opening and closing bars 42 may be installed to be inclined along one side so that the rainwater does not stagnate on the upper surface when the amount of rainwater is small.

The opening and closing bar driving means 50 is coupled to the rotating shaft 42a of the plurality of opening and closing bars 42 and the pinion 42b rotating together with the rotating shaft 42a, and a plurality of opening and closing on both sides of the plurality of opening and closing bars 42. Arranged so as to be able to move forward and backward along the bar 42, the rack is provided on one side is composed of the opening and closing rod 51 to be engaged with the pinion (42b), and the forward and backward means for advancing the opening and closing rod 51.

The forward and backward means may include any configuration capable of moving the opening and closing rod 51 forward and backward (right and left based on the drawing), a hydraulic / pneumatic cylinder, a motor (with a drive gear engaged with the rack of the opening and closing rod 51), a solenoid, and the like. It is possible, but is configured as follows to open and close the opening and closing bar 42 according to the amount of rain without using a separate electricity as power.

The forward and backward means is formed on one side of the opening and closing rod 51 and slidably connected to the opening and closing guide plate 52 having an inclined opening and closing guide hole 52a and the opening and closing guide hole 52a of the opening and closing guide plate 52. The elevating bar (53), which is buried in the ground, the elevating guide frame (54), the elevating guide frame (54) while being mounted to the elevating bar (53) is fixed and elevating according to the amount of the elevating bar (53) Lift cylinder 55 for advancing the opening and closing rod 51 back and forth through, the elastic member 56 for supporting the lifting cylinder 55 at the bottom.

Opening and closing guide plate 52 is installed so that only forward and backward through a separate frame or rail 56.

The elevating bar 53 is fixed on one side of the elevating tube 55 and the other side is slidably connected to the opening and closing guide hole 52a of the opening and closing guide plate 52.

The lifting guide frame 54 is open so that rainwater flows into the elevator 55 and rainwater discharged into the elevator 55 is discharged into the ground or sewage treatment system (which may be connected to the sewage treatment system and the pipe). It is a cylindrical structure in which the drain hole 54a is formed in the bottom part, and it is embedded in the ground.

The lifting guide frame 54 is formed with a guide hole 54b for lifting the lifting bar 53.

The elevator 55 has a tubular structure having a space in which rainwater is stored, and an inflow hole is provided at an upper portion thereof and a drain hole 55a is disposed at a lower portion thereof. At this time, the drain hole 55a should be smaller than the inlet hole so that the lifting hole 55 can be lowered by rain.

The upper inlet hole of the elevator 55 is equipped with a filter net (55b) to block the inflow of foreign matter.

The elastic member 56 elastically supports the elevator 55 to the upper portion so that the auxiliary inlet is closed by the opening and closing bar 42 when the amount of rain is small or absent.

The opening and closing rod 51 and the opening and closing guide plate 52 are installed at both sides of the opening and closing bar 42, so that the opening and closing bar 42 moves forward and backward without twisting when the lifting barrel 55 is elevated.

Eco-friendly structure for storm water drainage according to the present invention is as follows.

Rainwater flowing along the road surface is introduced through the main water collecting box 10 and the auxiliary water collecting duct 30, and then treated as sewage system. In this case, the main grating 20 of the main water collecting box 10 is an inflow hole 22. ) Is always open, so a certain amount of rainwater always flows in, regardless of the amount of rainwater.

However, the opening and closing bar 42 of the auxiliary grating 40 is opened or closed according to the amount of rainwater so that the rainwater is drained as follows.

When there is no rain, since there is no rain inside the elevator 55, the elevator 55 is kept up by the elastic force of the elastic member 56 (see FIG. 3).

Even if rainwater is introduced into the elevator 55, if the amount introduced through the inlet hole of the elevator 55 and the amount drained through the drain hole 55a are the same, the elevator 55 maintains an elevated state to support auxiliary grating ( 40) remains closed.

When the auxiliary grating 40 is closed, the plurality of opening and closing bars 42 overlap each other so as to overlap each other to block the penetration of rainwater and foreign matter.

Rainwater flowing along the road surface is introduced into the elevator 55 in a state in which foreign matters are removed via the filter net 55b of the elevator 55.

Rainwater introduced into the elevator 55 is drained through the drain hole 55a, but since the inflow hole of the elevator 55 is formed with a larger water flow area than the drain hole 55a, when the amount of rainwater increases, the elevator 55 There is an excellent store.

As rainwater flows in, the weight of the elevator 55 becomes heavy, and as the weight of the elevator 55 exceeds the modulus of elasticity of the elastic member 56, the elevator 55 becomes the elastic force of the elastic member 56. Win and descend.

When the elevator 55 descends, the elevator bar 53 fixed to the elevator 55 descends together.

Upon opening and lowering of the elevating bar 53, the opening and closing guide plate 52 is moved to the left side as shown in FIG. 4 in the state of FIG. 3 by receiving the guide of the opening and closing guide 52a, and thus, the opening and closing rod 51 moves to the left side. Move.

When the opening and closing rod 51 moves, the pinion 42b rotates counterclockwise, and the opening and closing bar 42 rotates counterclockwise through the rotation shaft 42a which rotates together with the pinion 42b. As a result, the inlet hole of the auxiliary grating 40 is opened.

Rainwater flowing along the road surface is introduced into the auxiliary water collecting duct 30 through the inlet hole of the auxiliary grating 40 and the sewage treatment with the rainwater introduced through the main grating 20 from the main water collecting box 10. do.

The rainwater drained from the drain hole 55a of the elevator 55 is drained through the drain hole 54a of the lift guide frame 54.

On the other hand, the rainwater stored in the elevator 55 is drained through the drainage holes 55a and 54a, and the weight of the elevator 55 becomes light when there is little or no inflow of rainwater, and thus, the elastic member 56 The lifting cylinder 55 rises by the elastic force of the.

The opening and closing guide plate 52 is moved to the right of the reference of FIG. 4 by the elevation of the elevator 55, and the opening and closing rod 51 is moved to the right to rotate the opening and closing bar 42 to the closed position.

When the inlet hole of the auxiliary grating 40 is closed by the opening and closing bar 42, the rainwater is not drained through the auxiliary grating 40 but only through the main grating 20.

10: main collection box, 20: main grating
30: auxiliary catch duct, 40: auxiliary grating
50: opening and closing bar driving means, 51: opening and closing rod
52: opening and closing information board, 53: lifting bar
54: lifting guide frame, 55: lifting barrel

Claims (2)

A main collection box 10 having a concrete structure with an open top and inducing drainage of road surface water into sewage and sewage systems;
A plurality of grill bars 21 arranged at regular intervals to form a frame having a plurality of inflow holes 22, the main grating 20 installed on an upper portion of the main collecting box;
An auxiliary collecting duct 30 connected to a circumference of the main collecting box in fluid communication with the main collecting box and collecting rainwater to guide the inside of the main collecting box;
It is installed in the auxiliary inlet formed in the upper portion of the auxiliary water collecting duct includes an auxiliary grating 40 for opening and closing the auxiliary inlet,
The auxiliary grating may be installed to be rotatable in the rectangular frame through the rotary shaft 42a while being arranged in line with the rectangular frame 41 and the rectangular frame installed in communication with the auxiliary inlet formed on the upper portion of the auxiliary collecting duct. A plurality of opening and closing bars 42 for opening and closing the auxiliary inlet of the rectangular frame, opening and closing bar driving means 50 for rotating the plurality of opening and closing bars,
The opening and closing bar driving means is coupled to the rotating shaft of the plurality of opening and closing bar pinion (42b) to rotate together with the rotating shaft, arranged on both sides of the plurality of opening and closing bars to be moved forward and backward along the plurality of opening and closing bar It includes an opening and closing rod 51 to be engaged with, forward and backward means for advancing the opening and closing rod,
The forward and backward means is formed on one side of the opening and closing rod, the opening and closing guide plate 52 having a sloped opening and closing guide hole 52a, the lifting bar 53 slidably connected to the opening and closing guide hole of the opening and closing guide plate, Elevated guide frame 54 buried in the ground, the elevating guide frame is mounted to the elevating hole in the upper portion of the tubular structure is provided with a drain hole of the communication area smaller than the inlet hole in the lower portion is fixed to the elevating bar flows into the inside Elevator shaft 55 to elevate according to the amount of rain to be advanced back and forth the opening and closing guide plate through the elevating bar, an elastic member 56 for elastically supporting the elevating cylinder to the upper portion at the bottom of the elevating cylinder, Eco-friendly structure for rainwater drainage, characterized in that it comprises a filter net (55b) coupled to the upper inlet hole to block the inflow of foreign matter. The method of claim 1, wherein the plurality of opening and closing bar is an eco-friendly drainage for the road surface, characterized in that the concave-convex portions are formed symmetrically at both ends so that rain and foreign matters are not introduced through the joints between each other when closing the auxiliary inlet of the auxiliary grating. structure.

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