CN110725242B

CN110725242B - Energy-consuming type anti-collision wall with automatic water storage, water continuing and water discharging functions

Info

Publication number: CN110725242B
Application number: CN201911165468.5A
Authority: CN
Inventors: 南波; 张国滨; 马兆惠; 谢立群; 张峰; 吴红爽; 张艺严
Original assignee: Shenyang Agricultural University
Current assignee: Shenyang Agricultural University
Priority date: 2019-11-25
Filing date: 2019-11-25
Publication date: 2021-11-05
Anticipated expiration: 2039-11-25
Also published as: CN110725242A

Abstract

The invention provides an energy-consuming type anti-collision wall with automatic water storage, water charging and drainage functions, which belongs to the fields of greening beautification and anti-collision.A main body of the anti-collision wall is arranged above a road surface, a water storage and energy consumption assembly is arranged in the middle of the main body of the anti-collision wall, water charging and energy consumption assemblies are arranged on two sides of the water storage and energy consumption assembly, a transition cavity is arranged above the water storage and energy consumption assembly, a partition plate is arranged above the transition cavity, and a planting groove is arranged above the partition plate; the invention has the advantages that the structure can be used as anti-collision walls at two sides and the middle of an elevated road and bridge, has good greening and drainage effects, can collect and recycle urban rainwater, has good comprehensive use performance, can play a role in temperature regulation, can recover, store and discharge redundant rainwater, can continuously supplement water, and can realize automatic operation of whole-course autonomous water storage, water supplement and drainage by only depending on the structure.

Description

Energy-consuming type anti-collision wall with automatic water storage, water continuing and water discharging functions

Technical Field

The invention belongs to the field of greening beautification and collision prevention, and particularly relates to an energy-consuming type collision prevention wall with automatic water storage, water continuation and water drainage functions.

Background

The green plants not only can beautify the environment, purify the air, reduce the noise and reduce the heat island effect, but also release a large amount of oxygen which is closely related to the life of people; with the rapid development of cities, high-rise buildings and roads are increased continuously, green plants are reduced gradually, particularly in large cities, in order to relieve traffic pressure, a lot of three-dimensional traffic is built, but greening is usually only carried out below viaducts or roads, and greening is difficult to implement due to high-altitude bridge bodies. Some cities are provided with flowerpot racks on two sides of the elevated roads to increase greening area, beautify cities and improve urban environment. At present, flowerpots on two sides of the viaduct are hung outside the viaduct guardrails, the flowerpots are rarely arranged on the top of the viaduct guardrails, the arrangement mode is monotonous, the flowerpots are hung outside the viaduct guardrails, and plants planted on the flowerpots cannot easily enter the visual field of people. Because both sides of the road are not green or insufficient, noise and tail gas generated by vehicles cause many adverse effects on the surrounding environment, and simultaneously cause visual fatigue of drivers, and traffic accidents easily occur. The existing anti-collision wall in the current market does not have the sufficient buffering and damping effects when in use, after an automobile is collided, the automobile can only be damaged by self deformation to absorb energy, the deformation capacity and the energy absorption capacity are limited, the anti-collision wall is easy to break under the collision effect of the automobile, the anti-collision wall cannot be normally used, and secondary damage is easily caused to the safety of the automobile and crewmembers.

Disclosure of Invention

In order to solve the technical problems, the invention provides an energy-consuming type anti-collision wall with automatic water storage, water supply and water drainage functions, which can realize automatic operation of whole-course independent water storage, water supply and water drainage by a structure, effectively solves the defect that the existing viaduct is difficult to green, can greatly increase the anti-collision buffer effect of the anti-collision wall by arranging a water storage energy-consuming cavity and a water supply energy-consuming cavity, and can remarkably increase the anti-collision energy-consuming effect of the anti-collision wall when the water storage energy-consuming cavity and the water supply energy-consuming cavity contain water.

In order to achieve the purpose, the invention adopts the technical scheme that:

an energy-consuming type anti-collision wall with automatic water storage, water continuation and water drainage functions comprises a pavement, a road drainage pipe, an anti-collision wall main body, an anti-collision cushion, a high-damping rubber layer, high-damping concrete, a planting groove, a transition cavity, a partition plate, a water absorption and maintenance fiber rod, a clamping body, a light floating blocking piston, a communicating pipe, a drainage pipe, a supplementary water supply pipe, a water storage and energy consumption assembly and a water and energy consumption assembly; an anti-collision wall main body is arranged above the pavement, a water storage and energy consumption assembly is arranged in the middle of the anti-collision wall main body, water supply and energy consumption assemblies are arranged on two sides of the water storage and energy consumption assembly, a transition cavity is arranged above the water storage and energy consumption assembly, a partition plate is arranged above the transition cavity, and a planting groove is arranged above the partition plate; the water storage and energy consumption combination body is communicated with the water and energy consumption combination body through a supplementing and water supplying pipe, the transition cavity is communicated with the water and energy consumption combination body through a communicating pipe, and the transition cavity is communicated with a road drainage pipe below the road surface through a drainage pipe; a plurality of water absorbing and conserving fiber rods are arranged in the water storing and energy consuming assembly, the upper parts of the water absorbing and conserving fiber rods penetrate through the water storing and energy consuming assembly and the partition plate, light floating blocking pistons are sleeved at the lower parts of the water absorbing and conserving fiber rods on the two sides in the water storing and energy consuming assembly, and clamping bodies are arranged on the water absorbing and conserving fiber rods above the light floating blocking pistons; the outermost crashproof pad that sets up in both sides of crashproof wall main part, the inboard of crashproof pad sets up high damping rubber layer, and the inboard on high damping rubber layer sets up high damping concrete.

Furthermore, the side face of the water storage and energy dissipation assembly is surrounded by a large-drum-shaped energy dissipation steel plate, an upper sealing plate is arranged at the upper end of the water storage and energy dissipation assembly, a lower sealing plate is arranged at the lower end of the water storage and energy dissipation assembly, and a water storage and energy dissipation cavity is surrounded by the large-drum-shaped energy dissipation steel plate, the upper sealing plate and the lower sealing plate.

Furthermore, the side surface of the water replenishing and energy consuming assembly is surrounded by a plurality of small drum type energy consuming steel plates and transitional connecting steel plates, the small drum type energy consuming steel plates and the transitional connecting steel plates are arranged at intervals, the upper end of the water replenishing and energy consuming assembly is provided with an upper connecting steel plate, the upper end of the upper connecting steel plate is provided with an end plate, the lower end of the water replenishing and energy consuming assembly is provided with a lower connecting steel plate, the lower end of the lower connecting steel plate is provided with an end plate, and the small drum type energy consuming steel plates, the transitional connecting steel plates, the upper connecting steel plate, the lower connecting steel plate and the end plate form a water replenishing and energy consuming cavity.

Furthermore, the structure of the main body of the anti-collision wall is symmetrical left and right.

Further, the light floating plugging piston is made of a light material and can slide upwards along the water absorption and conservation fiber rod under the action of buoyancy.

Further, the position of the communication between the drain pipe and the transition cavity is higher than the position of the communication between the communication pipe and the transition cavity in the vertical height.

Furthermore, the communication position of the supplementary water filling pipe and the water storage and energy consumption assembly is slightly lower than the clamp body in vertical height.

Furthermore, the communicating pipe passes through the upper connecting steel plate and is communicated with the water-continuous energy consumption cavity, and the supplementary water-continuous pipe passes through the lower connecting steel plate and is communicated with the water-continuous energy consumption cavity.

Furthermore, the large-drum-shaped energy consumption steel plate, the upper sealing plate and the lower sealing plate are all made of low-yield-point energy consumption steel plates.

Furthermore, the small-drum-shaped energy consumption steel plate, the transition connection steel plate, the upper connection steel plate, the lower connection steel plate and the end plate are all made of low-yield-point energy consumption steel plates.

Compared with the prior art, the invention has the beneficial effects that: the invention can be used as the anti-collision walls at the two sides and the middle of the viaduct, has good greening effect, reduces noise, adsorbs tail gas dust, beautifies the environment, improves the life quality and urban image of people, has high drainage efficiency, can collect urban rainwater for cyclic utilization, adapts to the development of sponge cities, can effectively solve the problems of rainwater resource waste, urban waterlogging and the like, has good comprehensive use performance, can play a role in temperature regulation, can recover, store and discharge redundant rainwater, can continuously supplement continuous water, can realize automatic operation of whole-course autonomous water storage, water supplement and drainage by only depending on the structure, effectively solves the defect that the existing viaduct is difficult to be greened, has convenient maintenance and does not need frequent watering by manpower, and can greatly increase the anti-collision buffer effect of the anti-collision walls by the water storage energy consumption cavity and the water supplement energy consumption cavity, the anti-collision energy consumption effect of the anti-collision wall is increased remarkably.

Drawings

Fig. 1 is a schematic structural diagram of an energy-consuming anti-collision wall with automatic water storage, water supply and drainage functions.

Fig. 2 is a schematic structural diagram of the water storage and energy consumption assembly.

Fig. 3 is a schematic structural diagram of the water-replenishing energy-consuming assembly.

In the figure: 1 is a road surface; 2 is a road drainage pipe; 3 is an anti-collision wall main body; 4 is an anti-collision pad; 5 is a high damping rubber layer; 6 is high damping concrete; 7 is a planting groove; 8 is a transition cavity; 9 is a clapboard; 10 is a water-absorbing and conserving fiber rod; 11 is a card body; 12 is a light floating plug piston; 13 is a communicating pipe; 14 is a drain pipe; 15 is a supplementary water filling pipe; 16 is a water storage and energy consumption assembly; 17 is a water-continuous energy-consuming assembly; 18 is a big drum type energy consumption steel plate; 19 is an upper seal plate; 20 is a lower seal plate; 21 is a small drum type energy consumption steel plate; 22 is a transition connection steel plate; 23 is an upper connecting steel plate; 24 is a lower connecting steel plate; 25 is an end plate; 26 is a water storage energy consumption cavity; and 27 is a water-replenishing energy consumption cavity.

Detailed Description

In order to further illustrate the present invention, the following detailed description of the present invention is given with reference to the accompanying drawings and examples, which should not be construed as limiting the scope of the present invention.

Example (b): as shown in fig. 1 to 3, an energy-consuming type anti-collision wall with automatic water storage, continuous water drainage and drainage functions comprises a road surface 1, a road drainage pipe 2, an anti-collision wall main body 3, an anti-collision pad 4, a high-damping rubber layer 5, high-damping concrete 6, a planting groove 7, a transition cavity 8, a partition plate 9, a water absorption and maintenance fiber rod 10, a clamp body 11, a light floating blocking piston 12, a communicating pipe 13, a drainage pipe 14, a supplementary water-supply pipe 15, a water storage and energy consumption combination 16, a water storage and energy consumption combination 17, a large-drum type energy-consuming steel plate 18, an upper sealing plate 19, a lower sealing plate 20, a small-drum type energy-consuming steel plate 21, a transition connecting steel plate 22, an upper connecting steel plate 23, a lower connecting steel plate 24, an end plate 25, an energy-consuming cavity 26 and a water-supply and energy-consuming cavity 27;

in the structure of the energy-consuming type anti-collision wall with the functions of automatic storage, continuous drainage and drainage, an anti-collision wall main body 3 is arranged on a road surface 1, the structure of the anti-collision wall main body 3 is in a left and right symmetrical type, a water storage and energy consumption combination body 16 is arranged in the middle, continuous water and energy consumption combination bodies 17 are arranged on two sides of the water storage and energy consumption combination body 16, a transition cavity 8 is arranged above the water storage and energy consumption combination body 16, a partition plate 9 is arranged above the transition cavity 8, a planting groove 7 is arranged above the partition plate 9, a plurality of water absorption and maintenance fiber rods 10 are arranged, the water absorption and maintenance fiber rods 10 pass through the partition plate 9, an upper sealing plate 19 is arranged in the planting groove 7, the transition cavity 8 and the water storage and energy consumption cavity 26, a light floating blocking piston 12 is arranged at the bottom of the water storage and energy consumption cavity 26, the light floating blocking piston 12 is sleeved on the water absorption and maintenance fiber rods 10, blocking bodies 11 and a drainage pipe 14 are arranged at the middle lower parts of the water absorption and maintenance fiber rods 10 on the left and right sides, one end of the water storage and energy dissipation assembly 16 is communicated with a transitional cavity 8, the other end of the water storage and energy dissipation assembly is communicated with a road drainage pipe 2 under a road surface 1, a communicating pipe 13 is arranged, one end of the water storage and energy dissipation assembly is communicated with the transitional cavity 8, the other end of the water storage and energy dissipation assembly is communicated with the upper part of a water continuing and energy consumption cavity 27, a replenishing water pipe 15 is arranged, one end of the water storage and energy consumption assembly is communicated with the lower part of the water continuing and energy consumption cavity 27, anti-collision cushions 4 are arranged on the outermost layers of two sides in the structure of an anti-collision wall main body 3, a high-damping rubber layer 5 is arranged on the inner sides of the anti-collision cushions 4, high-damping concrete 6 is arranged in cavities outside a planting groove 7, the transitional cavity 8, the water storage and energy consumption cavity 26 and the water continuing and energy consumption cavity 27 in the structure of the anti-collision wall main body 3, the side surface of the water storage and energy consumption assembly is surrounded by a large drum-type energy consumption steel plate 18, an upper sealing plate 19 is arranged at the upper end, a lower sealing plate 20 is arranged at the lower end of the large drum type energy consumption steel plate 18 and an upper sealing plate 19, The lower sealing plate 20 is enclosed to form a water storage energy consumption cavity 26, in the structure of the water and energy replenishing assembly 17, the side surface of the water and energy replenishing assembly is enclosed by a plurality of small drum type energy consumption steel plates 21 and transition connection steel plates 22, the small drum type energy consumption steel plates 21 and the transition connection steel plates 22 are arranged at intervals, the upper end of each upper connection steel plate 23 is provided with an upper connection steel plate 23, the upper end of each upper connection steel plate 23 is provided with an end plate 25, the upper end of each lower connection steel plate 24 is provided with a lower connection steel plate 24, the lower end of each lower connection steel plate 24 is provided with an end plate 25, and the small drum type energy consumption steel plates 21, the transition connection steel plates 22, the upper connection steel plates 23, the lower connection steel plates 24 and the end plates 25 are enclosed to form a water and energy replenishing cavity 27.

The position where the drain pipe 14 communicates with the transition chamber 8 is higher in vertical height than the position where the communication pipe 13 communicates with the transition chamber 8. The communication position of the supplementary water filling pipe 15 and the water storage energy consumption cavity 26 is slightly lower than the card body 11 in vertical height. The communicating pipe 13 passes through the upper connecting steel plate 23 to communicate with the water-replenishing energy-consuming cavity 27, and the water-replenishing pipe 15 passes through the lower connecting steel plate 24 to communicate with the water-replenishing energy-consuming cavity 27.

The lightweight floating plugging piston 12 is made of lightweight material so that it can slide upwards along the water absorbent culvert fiber rod 10 under the action of buoyancy. After the light floating blocking piston 12 slides upwards along the water absorption self-sustaining fiber rod 10 under the action of buoyancy and is blocked by the blocking body 11, the light floating blocking piston 12 can just block the communication port of the supplementing water replenishing pipe 15 and the water storage energy consumption cavity 26.

The large drum type energy dissipation steel plate 18, the upper sealing plate 19, the lower sealing plate 20, the small drum type energy dissipation steel plate 21, the transition connection steel plate 22, the upper connection steel plate 23, the lower connection steel plate 24 and the end plate 25 are all made of low yield point energy dissipation steel plates.

The working steps of the energy-consuming type anti-collision wall with the automatic water storage, water continuing and water discharging functions are as follows: if the water in the planting groove 7 is a little less, the water can flow into the transition cavity 8 along with the water absorption self-maintenance fiber rod 10 and then flow into the water storage energy consumption cavity 26 for storage, if the water in the planting groove 7 is a little more, the water can flow into the water storage energy consumption cavity 26 along with the water absorption self-maintenance fiber rod 10 continuously, as the liquid level in the water storage energy consumption cavity 26 continuously rises, the light floating blocking piston 12 can slide upwards along the water absorption self-maintenance fiber rod 10 under the action of buoyancy until being blocked by the blocking body 11, the light floating blocking piston 12 can just block the communication port of the replenishing water-supply pipe 15 and the water storage energy consumption cavity 26, when the water storage energy consumption cavity 26 is filled with water, the liquid level rises to the transition cavity 8, the liquid level in the transition cavity 8 continuously rises until the water flows into the water replenishing energy consumption cavity 27 for storage through the communication pipe 13, if the water amount in the planting groove 7 is a little more, after the water in the water replenishing water energy consumption cavity 27 is full, the water in the transition cavity 8 can flow into the road drainage pipe 14 for drainage pipe 2, at the moment, redundant water can be automatically discharged to finish water storage and drainage in one period, then, the water in the water storage energy consumption cavity 26 can continuously keep the planting groove 7 through the water absorption keeping fiber rod 10, when the liquid level in the water storage energy consumption cavity 26 continuously drops to the height of the clamping body 11, the light floating blocking piston 12 can continuously drop along with the liquid level, at the moment, the water in the water replenishing energy consumption cavity 27 can continuously flow into the water storage energy consumption cavity 26 from the replenishing water supply pipe 15, so that sufficient water in the water storage energy consumption cavity 26 can continuously keep the planting groove 7, so that the water replenishing and replenishing work can be automatically finished, the maintenance is convenient, the manual frequent watering is not needed, the defect that the existing viaduct is difficult to erect and green can be solved through the operation of independent water storage, replenishing and draining, the collision-proof buffer function of the collision-proof wall can be greatly increased by the water storage energy consumption cavity 26 and the water replenishing energy consumption cavity 27, when the water in the water storage energy consumption cavity 26 and the water replenishing energy consumption cavity 27 contains water, the anti-collision energy consumption effect of the anti-collision wall is increased remarkably.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides an energy consumption formula anticollision wall with automatically, store up, continue, drainage function which characterized in that: the water-saving and energy-saving anti-collision device comprises a pavement (1), a road drainage pipe (2), an anti-collision wall main body (3), an anti-collision pad (4), a high-damping rubber layer (5), high-damping concrete (6), a planting groove (7), a transition cavity (8), a partition plate (9), a water-absorbing and conserving fiber rod (10), a clamp body (11), a light floating blocking piston (12), a communicating pipe (13), a drainage pipe (14), a supplementary water-replenishing pipe (15), a water-storing and energy-consuming combination body (16) and a water-replenishing and energy-consuming combination body (17); an anti-collision wall main body (3) is arranged above the pavement (1), a water storage and energy consumption combination body (16) is arranged in the middle of the anti-collision wall main body (3), water continuous and energy consumption combination bodies (17) are arranged on two sides of the water storage and energy consumption combination body (16), a transition cavity (8) is arranged above the water storage and energy consumption combination body (16), a partition plate (9) is arranged above the transition cavity (8), and a planting groove (7) is arranged above the partition plate (9); the water storage and energy consumption combination body (16) is communicated with the water and energy continuous consumption combination body (17) through a supplementary water replenishing pipe (15), the transition cavity (8) is communicated with the water and energy continuous consumption combination body (17) through a communicating pipe (13), and the transition cavity (8) is communicated with a road drainage pipe (2) below the road surface (1) through a drainage pipe (14); a plurality of water absorbing and conserving fiber rods (10) are arranged in the water storing and energy consuming assembly (16), the upper parts of the water absorbing and conserving fiber rods (10) penetrate through the water storing and energy consuming assembly (16) and the partition plate (9), light floating blocking pistons (12) are sleeved at the lower parts of the water absorbing and conserving fiber rods (10) on the two sides in the water storing and energy consuming assembly (16), and clamping bodies (11) are arranged on the water absorbing and conserving fiber rods (10) above the light floating blocking pistons (12); the outermost layers of the two sides of the anti-collision wall main body (3) are provided with anti-collision pads (4), the inner sides of the anti-collision pads (4) are provided with high-damping rubber layers (5), and the inner sides of the high-damping rubber layers (5) are provided with high-damping concrete (6);

the side surface of the water-continuous energy-consuming assembly (17) is surrounded by a plurality of small-drum-shaped energy-consuming steel plates (21) and transitional connecting steel plates (22), the small-drum-shaped energy-consuming steel plates (21) and the transitional connecting steel plates (22) are arranged at intervals, the upper end of the water-continuous energy-consuming assembly (17) is provided with an upper connecting steel plate (23), the upper end of the upper connecting steel plate (23) is provided with an end plate (25), the lower end of the water-continuous energy-consuming assembly (17) is provided with a lower connecting steel plate (24), the lower end of the lower connecting steel plate (24) is provided with the end plate (25), and the small-drum-shaped energy-consuming steel plates (21), the transitional connecting steel plates (22), the upper connecting steel plate (23), the lower connecting steel plate (24) and the end plate (25) surround a water-continuous energy-consuming cavity (27);

the structure of the anti-collision wall main body (3) is symmetrical left and right;

the position of the communication between the drain pipe (14) and the transition cavity (8) is higher than the position of the communication between the communication pipe (13) and the transition cavity (8) in the vertical height;

the communication position of the supplementary water filling pipe (15) and the water storage energy consumption assembly (16) is slightly lower than the card body (11) in the vertical height;

the communicating pipe (13) passes through the upper connecting steel plate (23) and is communicated with the water-replenishing energy-consuming cavity (27), and the supplementary water-replenishing pipe (15) passes through the lower connecting steel plate (24) and is communicated with the water-replenishing energy-consuming cavity (27).

2. The energy-consuming type anti-collision wall with the functions of automatic storage, water supply and water drainage as claimed in claim 1, is characterized in that: the side surface of the water storage and energy consumption assembly (16) is surrounded by a large-drum-shaped energy consumption steel plate (18), an upper sealing plate (19) is arranged at the upper end of the water storage and energy consumption assembly (16), a lower sealing plate (20) is arranged at the lower end of the water storage and energy consumption assembly (16), and a water storage and energy consumption cavity (26) is surrounded by the large-drum-shaped energy consumption steel plate (18), the upper sealing plate (19) and the lower sealing plate (20).

3. The energy-consuming type anti-collision wall with the functions of automatic storage, water supply and water drainage as claimed in claim 1, is characterized in that: the light floating plugging piston (12) is made of light materials, and the light floating plugging piston (12) can be used for floating under the action of buoyancy

Can slide upwards along the water absorption and conservation fiber rod (10).

4. The energy-consuming type anti-collision wall with the functions of automatic storage, water supply and water drainage as claimed in claim 2, wherein: the large-drum-shaped energy consumption steel plate (18), the upper sealing plate (19) and the lower sealing plate (20) are all made of low-yield-point energy consumption steel plates.

5. The energy-consuming type anti-collision wall with the functions of automatic storage, water supply and water drainage as claimed in claim 3, wherein: the small-drum-shaped energy consumption steel plate (21), the transition connecting steel plate (22), the upper connecting steel plate (23), the lower connecting steel plate (24) and the end plate (25) are all made of low-yield-point energy consumption steel plates.