CN219862190U

CN219862190U - Sponge road seepage and drainage circulation system

Info

Publication number: CN219862190U
Application number: CN202321218865.6U
Authority: CN
Inventors: 张连燚; 许庆凯; 李德鹏; 刘萌; 李涛; 赵露; 刘健
Original assignee: Jinan Tongda Highway Engineering Co ltd
Current assignee: Jinan Tongda Highway Engineering Co ltd
Priority date: 2023-05-18
Filing date: 2023-05-18
Publication date: 2023-10-20
Anticipated expiration: 2033-05-18

Abstract

The utility model discloses a sponge road seepage and drainage circulating system, and relates to the technical field of road drainage. The water-permeable brick comprises a water-permeable brick layer, wherein a non-woven fabric layer is arranged at the bottom of the water-permeable brick layer, a gravel layer is arranged at the bottom of the non-woven fabric layer, a foundation is arranged at the bottom of the gravel layer, a water collecting tank is arranged in the foundation, a plurality of water inlets are formed in one side of the water collecting tank, the bottom of the gravel layer is arranged as an inclined plane and is guided to the direction of the water inlets, a water suction pump is arranged at the top of the foundation, and the input end of the water suction pump is fixedly connected with the output end of the water collecting tank through a pipeline. According to the utility model, the water inlet holes are arranged, so that rainwater flows into the water collection tank after passing through the water permeable brick layer, the non-woven fabric layer and the crushed stone layer for collection, and then when the rainwater is not abundant, the water source collected in the water collection tank can be discharged into the greening belt trough for irrigating green plants by starting the water suction pump, thereby realizing the recycling of water resources and improving the utilization rate of the water resources.

Description

Sponge road seepage and drainage circulation system

Technical Field

The utility model relates to the technical field of road drainage, in particular to a sponge road seepage drainage circulation system.

Background

The sponge city is a new generation city rain and flood management concept, and the city can be like a sponge, has good elasticity in the aspects of adapting to environmental changes, coping with natural disasters caused by rainwater and the like, and can be also called as a 'water elasticity city'. The sponge city construction is based on ecological priority, combines natural approach with artificial measures, and realizes the accumulation, permeation and purification of rainwater in city area to the maximum extent under the premise of ensuring the urban drainage waterlogging prevention safety, thereby promoting the utilization of rainwater resources and protecting ecological environment.

The sponge road is a novel road surface capable of absorbing water quickly, has good water seepage, water permeability and water drainage functions, can drain off road surface ponding quickly when raining, and reduces urban waterlogging.

Traditional sponge road generally adopts pervious concrete as the road surface layer, and pervious concrete's water permeability makes the rainwater that falls to the road surface permeate downwards, realizes that the rainwater is discharged away, however direct mode of discharging is difficult to reuse the rainwater, has reduced the utilization ratio of rainwater, has wasted the water resource.

Disclosure of Invention

The utility model aims at: the utility model provides a sponge road seepage and drainage circulating system, which aims to solve the problems that rainwater is difficult to reuse in a direct drainage mode, the utilization rate of rainwater is reduced, and water resources are wasted.

The utility model adopts the following technical scheme for realizing the purposes:

the utility model provides a sponge road infiltration drainage circulation system, includes the brick layer that permeates water, the bottom on brick layer permeates water is provided with the non-woven fabrics layer, the bottom on non-woven fabrics layer is provided with the rubble layer, the bottom on rubble layer is provided with the ground, the internally mounted of ground has the header tank, a plurality of inlet openings have been seted up to one side of header tank, the bottom of rubble layer sets up to the inclined plane, and the direction of direction inlet opening, the suction pump is installed at the top of ground, the input of suction pump passes through the output fixed connection of pipeline and header tank, the top of ground is provided with the afforestation trough of belt, the ware that waters is installed to one side of afforestation trough of belt, the output of suction pump passes through pipeline and ware fixed connection that waters.

Through adopting above-mentioned technical scheme, at first through setting up the inlet opening for the rainwater passes behind water permeable brick layer and non-woven fabrics layer, the rubble layer and flows into the inside of header tank and collect, then when the rainwater is not abundant, can be with the inside irrigation to green planting of the inside drainage groove of header tank collection's water source through starting the suction pump, with this cyclic utilization to the water resource that realizes, improved the utilization ratio of water resource.

Further, the watering device comprises a water distribution pipe fixed at the inner side of the greening belt groove, and a plurality of water distributing heads are uniformly distributed on one side of the water distribution pipe.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of water distribution pipe and water dividing head, be convenient for with the inside even import afforestation trough of water resource of header tank inside, improved the utilization efficiency of water resource.

Further, a plurality of waterlogging prevention holes are formed in one side, close to the water permeable brick layer, of the greening belt groove.

Through adopting above-mentioned technical scheme, be convenient for discharge the inside unnecessary water resource of afforestation trough of belt through setting up the waterlogging prevention hole, reduce the inside circumstances that appears waterlogging of afforestation trough of belt.

Further, the internally mounted of ground has the urban underground drain pipe, the top fixedly connected with urgent drain pipe of urban underground drain pipe, the one end fixedly connected with drain valve of urgent drain pipe, the output of drain valve passes the header tank to extend to the interior top of header tank.

Through adopting above-mentioned technical scheme, through setting up the cooperation of urgent drain pipe and drain valve and using, be convenient for discharge the inside rivers of urban underground drain pipe into the inside of header tank to this is favorable to alleviateing urban underground drain pipe's drainage pressure.

Further, the inside fixedly connected with main filter screen of header tank.

Through adopting above-mentioned technical scheme, be convenient for filter the rivers that urban underground drain was discharged into the header tank inside through setting up main filter screen.

Further, the main filter screen is obliquely arranged in the water collecting tank, and an arc filter screen matched with the main filter screen is arranged in the water collecting tank.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of main filter screen and arc filter screen, be convenient for collect the inside of leading-in arc filter screen of debris that filters out at main filter screen top.

Further, the inside symmetry of ground is provided with the slide rail, the one end of slide rail extends to the inside of header tank, just arc filter screen sliding connection is in the inside of slide rail, the top rotation of ground is connected with receives the material roller, the one end fixedly connected with stainless steel chain of receiving the material roller, the one end and the arc filter screen fixed connection of stainless steel chain.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of receipts material roller and stainless steel chain, through rotating receipts material roller, can drive the arc filter screen and remove to the outside of ground along the length direction of slide rail to the realization is to the discharge of the inside debris of arc filter screen.

Further, the surfaces of the main filter screen, the arc filter screen and the sliding rail are coated with organosilicon waterproof paint.

Through adopting above-mentioned technical scheme, through setting up organosilicon waterproof coating, effectively improved the rust-resistant resistance of main filter screen and arc filter screen, slide rail.

In summary, the present utility model includes at least one of the following beneficial effects:

1. firstly through setting up the inlet opening for the rainwater passes behind water permeable brick layer and non-woven fabrics layer, the rubble layer and flows into the inside of header tank and collect, then when the rainwater is not abundant, can be with the inside irrigation to green planting of the inside water source of collecting of header tank drainage greening groove of water tank through starting the suction pump, with this cyclic utilization to the water resource that realizes, improved the utilization ratio of water resource.

2. Through setting up the cooperation of urgent drain pipe and drain valve and using, be convenient for discharge the inside rivers of urban underground drain pipe into the inside of header tank to this is favorable to alleviating urban underground drain pipe's drainage pressure.

Drawings

Fig. 1 is a schematic perspective view of a device body according to the present utility model.

FIG. 2 is a schematic view of the structure of the water inlet in the present utility model.

FIG. 3 is a side cross-sectional view of a water permeable brick layer of the present utility model.

Fig. 4 is a schematic perspective view of a watering device according to the present utility model.

Fig. 5 is a schematic view of the structure of the emergency drain pipe of the present utility model.

Fig. 6 is a schematic view of the internal structure of the header tank of the present utility model.

Reference numerals illustrate:

1. a water permeable brick layer; 2. a non-woven fabric layer; 3. a crushed stone layer; 4. a foundation; 5. a water collection tank; 6. a water inlet hole; 7. a water pump; 8. a green belt groove; 9. a watering device; 10. waterlogging prevention holes; 11. urban underground drainage pipes; 12. an emergency drain pipe; 13. a drain valve; 14. a main filter screen; 15. arc filter screen; 16. a slide rail; 17. a receiving roller; 18. stainless steel chains; 91. a water distribution pipe; 92. and (3) a water dividing head.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-6.

The embodiment of the utility model discloses a sponge road seepage and drainage circulating system.

Referring to fig. 1-3, a sponge road infiltration and drainage circulation system comprises a water permeable brick layer 1, wherein a non-woven fabric layer 2 is arranged at the bottom of the water permeable brick layer 1, a stone layer 3 is arranged at the bottom of the non-woven fabric layer 2, a foundation 4 is arranged at the bottom of the stone layer 3, a water collecting tank 5 is arranged in the foundation 4, a plurality of water inlet holes 6 are formed in one side of the water collecting tank 5, the bottom of the stone layer 3 is arranged as an inclined plane and is led to the direction of the water inlet holes 6, a water suction pump 7 is arranged at the top of the foundation 4, the input end of the water suction pump 7 is fixedly connected with the output end of the water collecting tank 5 through a pipeline, a greening belt groove 8 is arranged at the top of the foundation 4, a watering device 9 is fixedly connected with one side of the greening belt groove 8 through a pipeline, and a plurality of waterlogging prevention holes 10 are formed in one side of the greening belt groove 8, which is close to the water permeable brick layer 1;

firstly, the permeable brick layer 1, the non-woven fabric layer 2 and the gravel layer 3 are matched for carrying out permeable filtration on rainwater, so that the rainwater enters the water collection tank 5 to be collected after passing through the water inlet holes 6, the collection of the rainwater on the surface of the permeable brick layer 1 is reduced, meanwhile, when more rainwater is collected in the greening belt groove 8, the rainwater can be discharged into one side of the permeable brick layer 1 through the waterlogging prevention holes 10 and flows into the water collection tank 5 to be collected, and the waterlogging condition in the greening belt groove 8 is reduced;

then when the weather is drought, the water source collected in the water collecting tank 5 can be discharged into the greening belt groove 8 through the watering device 9 by starting the water suction pump 7, and the water source is provided for the green plants in the greening belt groove 8, so that the collection and the utilization of rainwater are conveniently realized, and the water resource is saved.

Referring to fig. 2-4, the watering device 9 comprises a water distribution pipe 91 fixed at the inner side of the greening belt groove 8, and a plurality of water distributing heads 92 are uniformly distributed at one side of the water distribution pipe 91;

the water in the water collection tank 5 can be poured into the water distribution pipe 91 by starting the water suction pump 7, and is uniformly discharged into the greening belt groove 8 through the water distribution head 92, so that the utilization rate of water resources is further improved.

Referring to fig. 2 and 5, an urban underground drain pipe 11 is installed inside the foundation 4, an emergency drain pipe 12 is fixedly connected to the top of the urban underground drain pipe 11, a drain valve 13 is fixedly connected to one end of the emergency drain pipe 12, the output end of the drain valve 13 passes through the water collection tank 5 and extends to the inner top of the water collection tank 5, and the drain valve 13 is set as an electromagnetic valve;

when the urban drainage system runs under high load, the water flow in the urban underground drainage pipe 11 can be guided into the water collection tank 5 through the emergency drainage pipe 12 to be collected by opening the drainage valve 13, so that the pressure of the urban drainage system can be reduced.

Referring to fig. 2, 5 and 6, a main filter screen 14 is fixedly connected to the inside of the water collection tank 5, the main filter screen 14 is obliquely arranged in the water collection tank 5, and an arc-shaped filter screen 15 matched with the main filter screen 14 is installed in the water collection tank 5;

after the water in the urban underground drain pipe 11 is discharged into the water collection tank 5, the water is filtered by the main filter screen 14, and filtered impurities are guided into the arc-shaped filter screen 15 to be collected through the inclined surface of the main filter screen 14, so that the accumulation of the impurities in the water collection tank 5 is reduced.

Referring to fig. 2 and 6, sliding rails 16 are symmetrically arranged in the foundation 4, one end of each sliding rail 16 extends into the water collection tank 5, an arc-shaped filter screen 15 is slidably connected in each sliding rail 16, a material receiving roller 17 is rotatably connected to the top of the foundation 4, one end of each material receiving roller 17 is fixedly connected with a stainless steel chain 18, one end of each stainless steel chain 18 is fixedly connected with each arc-shaped filter screen 15, and the surfaces of each main filter screen 14, each arc-shaped filter screen 15 and each sliding rail 16 are coated with an organosilicon waterproof coating;

through rotating material receiving roller 17 for stainless steel chain 18 twines at the surface of material receiving roller 17, makes stainless steel chain 18 drive arc filter screen 15 simultaneously and removes along the length direction of slide rail 16, and makes arc filter screen 15 drive inside debris and remove to the top of ground 4, so that the realization is to the discharge of the inside collection debris of arc filter screen 15.

The implementation principle of the sponge road seepage and drainage circulating system in the embodiment is as follows: firstly, the permeable brick layer 1, the non-woven fabric layer 2 and the gravel layer 3 are matched for carrying out permeable filtration on rainwater, so that the rainwater enters the water collection tank 5 to be collected after passing through the water inlet holes 6, the collection of the rainwater on the surface of the permeable brick layer 1 is reduced, meanwhile, when more rainwater is collected in the greening belt groove 8, the rainwater can be discharged into one side of the permeable brick layer 1 through the waterlogging prevention holes 10 and flows into the water collection tank 5 to be collected, and the waterlogging condition in the greening belt groove 8 is reduced;

then when the climate is drought, the water source collected in the water collecting tank 5 can be discharged into the greening belt groove 8 through the watering device 9 by starting the water suction pump 7, so as to provide a water source for the green plants in the greening belt groove 8;

then, when the urban drainage system runs under high load, the water flow in the urban underground drainage pipe 11 can be guided into the water collection tank 5 through the emergency drainage pipe 12 for collection by opening the drainage valve 13, so that the pressure of the urban drainage system is favorably relieved.

Claims

1. The utility model provides a sponge road seepage drainage circulation system, includes water permeable brick layer (1), its characterized in that: the water permeable brick is characterized in that a non-woven fabric layer (2) is arranged at the bottom of the water permeable brick layer (1), a gravel layer (3) is arranged at the bottom of the non-woven fabric layer (2), a foundation (4) is arranged at the bottom of the gravel layer (3), a water collecting tank (5) is arranged in the foundation (4), a plurality of water inlet holes (6) are formed in one side of the water collecting tank (5), the bottom of the gravel layer (3) is arranged into an inclined plane and guides the direction of the water inlet holes (6), a water suction pump (7) is arranged at the top of the foundation (4), the input end of the water suction pump (7) is fixedly connected with the output end of the water collecting tank (5) through a pipeline, a greening groove (8) is formed in the top of the foundation (4), a watering device (9) is arranged on one side of the greening groove (8), and the output end of the water suction pump (7) is fixedly connected with the watering device (9) through a pipeline.

2. A spongy road drainage and circulation system according to claim 1, characterized in that: the watering device (9) comprises a water distribution pipe (91) fixed at the inner side of the greening belt groove (8), and a plurality of water distributing heads (92) are uniformly distributed at one side of the water distribution pipe (91).

3. A spongy road drainage and circulation system according to claim 1, characterized in that: a plurality of waterlogging prevention holes (10) are formed in one side, close to the water permeable brick layer (1), of the greening belt groove (8).

4. A spongy road drainage and circulation system according to claim 1, characterized in that: the novel water collecting device is characterized in that an urban underground drain pipe (11) is arranged in the foundation (4), an emergency drain pipe (12) is fixedly connected to the top of the urban underground drain pipe (11), a drain valve (13) is fixedly connected to one end of the emergency drain pipe (12), and the output end of the drain valve (13) penetrates through the water collecting tank (5) and extends to the inner top of the water collecting tank (5).

5. A spongy road drainage and circulation system according to claim 1, characterized in that: the inside of the water collection tank (5) is fixedly connected with a main filter screen (14).

6. The sponge road drainage circulation system as claimed in claim 5, wherein: the main filter screen (14) is obliquely arranged in the water collecting tank (5), and an arc-shaped filter screen (15) matched with the main filter screen (14) is mounted in the water collecting tank (5).

7. The sponge road drainage circulation system as claimed in claim 6, wherein: the inside symmetry of ground (4) is provided with slide rail (16), the inside of header tank (5) is extended to the one end of slide rail (16), just arc filter screen (15) sliding connection is in the inside of slide rail (16), the top rotation of ground (4) is connected with receipts material roller (17), the one end fixedly connected with stainless steel chain (18) of receipts material roller (17), the one end and the arc filter screen (15) fixed connection of stainless steel chain (18).

8. The sponge road drainage circulation system as claimed in claim 5, wherein: the surfaces of the main filter screen (14), the arc-shaped filter screen (15) and the sliding rail (16) are coated with organosilicon waterproof paint.