CN218970275U - Modularized flower pond type water scattering structure - Google Patents

Abstract

The utility model discloses a modularized flower pond type water scattering structure, which relates to the technical field of water scattering structures and comprises a building outer wall and a flexible waterproof layer, wherein the flexible waterproof layer is arranged on the right side of the building outer wall, and a plurality of first planting ponds and a plurality of second planting ponds are arranged at the top of the flexible waterproof layer; a plurality of sleepers are arranged in the flexible waterproof layer at equal intervals, and water scattering side ditches are formed in the top of the flexible waterproof layer. The utility model designs a water-dispersing structure into a water guide strip fixed on a building, a first planting pool and a second planting pool which are arranged on the ground, solves the problem of water seepage caused by water dispersion and water splitting at the joint of the building due to inconsistent settlement of the building and a peripheral foundation, utilizes an energy-dissipation reservoir to store rainwater, collects roof rainwater by the water guide strip and a rainwater pipe, and uses a water pump to irrigate scenery plants by using the stored rainwater, so that the building design meets the related requirements of the current sponge city.

Description

Modularized flower pond type water scattering structure

Technical Field

The utility model relates to the technical field of water scattering structures, in particular to a modularized flower pool type water scattering structure.

Background

The scattered water refers to a hardened slope structure of the surrounding footing of the house outer wall for preventing rainwater from scouring and penetrating into the foundation.

The common engineering phenomenon is that the height difference between the newly built building and the surrounding terrace is changed due to natural sedimentation; in pipeline engineering, in order to prevent the influence of the phenomenon on the pipeline, hose switching and other measures are adopted.

Most of the existing water scattering designs at present do not effectively solve the problem that the height difference changes of a newly built building and a surrounding terrace are caused by natural sedimentation, so that the contact surface of the water scattering and a wall surface is cracked, and the wall surface rainwater permeates into a foundation through the crack to influence the safety of a building structure.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a modularized flower pool type water dispersing structure.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the modularized flower pond type water dispersing structure comprises a building outer wall and a flexible waterproof layer, wherein the flexible waterproof layer is arranged on the right side of the building outer wall, and a plurality of first planting ponds and a plurality of second planting ponds are arranged at the top of the flexible waterproof layer;

a plurality of sleepers are equidistantly arranged in the flexible waterproof layer, water scattering side ditches are formed in the top of the flexible waterproof layer, and the water scattering side ditches are positioned on the right side of the second planting pool;

the middle parts of the first planting ponds are provided with energy dissipation reservoirs, the first planting ponds and the energy dissipation reservoirs are higher than the second planting ponds, the second planting ponds are positioned on the right sides of the first planting ponds, and water guide tanks are fixedly arranged on one sides of the first planting ponds and the energy dissipation reservoirs;

the rainwater pipe is installed on the right side of building outer wall, just the bottom of rainwater pipe extends to the inside of energy dissipation cistern, the right side fixed mounting of building outer wall has the water guide strip, the top of water guide strip is the slope structure, the rainwater accessible of building outer wall right surface water guide strip inflow a plurality of planting pond one with the inside of energy dissipation cistern.

Further, a water pump is fixedly arranged on one side of the bottom of the inner side of the energy dissipation reservoir, the output end of the water pump is connected with a water delivery pipe, and one end of the water delivery pipe extends to the inside of the water guide groove.

Further, overflow ports with the same number as the first planting pools are formed in one side, close to the first planting pools, of the water guide groove;

one side of the water guide groove, which is close to the second planting pools, is provided with water outlets the same as the second planting pools in number.

Further, a plurality of planting pond one, a plurality of planting pond two inside below is all fixed mounting has separates a root drain board, a plurality of planting pond one with a plurality of planting pond two right side below has all been seted up the outlet, a plurality of planting pond one all through the right side the outlet with a plurality of planting pond two's inside intercommunication.

Further, two energy dissipation clapboards are installed in the energy dissipation reservoir, and the bottom end of the rainwater pipe is located between the two energy dissipation clapboards and the inner wall of the energy dissipation reservoir.

Further, a plurality of through holes are formed in the root isolating hydrophobic plates and the energy dissipation partition plates.

Further, a machine-made pebble for dissipating energy is filled between the two energy dissipating partition plates and the inner wall of the energy dissipating reservoir.

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

1. the utility model designs the water scattering structure into the water guide strip fixed on the building, and the first planting pool and the second planting pool which are placed on the ground, which are separated, thereby solving the problem of water seepage caused by water scattering and water drawing at the joint of the building due to inconsistent settlement of the building and the surrounding foundation.

2. The utility model uses the energy dissipation reservoir to store rainwater, the water guide strip and the rainwater pipe to collect roof rainwater, and uses the water pump to irrigate landscape plants by using the stored rainwater, so that the building design meets the requirements related to the current sponge city.

3. And when the flexible waterproof layer is paved, 5% of slope is needed to be found to the water scattering side ditch, soil is filled on the waterproof layer for tamping, and after the sleeper is paved and leveled, the first planting pool and the second planting pool can be directly placed.

4. The first planting pool and the second planting pool can be filled with planting matrixes and then can be used for planting ornamental plants, so that the building is decorated, and the attractiveness of the periphery of the building is improved.

5. When the building and the surrounding foundation generate inconsistent settlement, the water guide strip, the first planting pool, the second planting pool and the energy dissipation reservoir are not connected, so that the water guide effect of the utility model is not affected; and even the water guide strip is extruded and falls off by the first planting pool, the second planting pool and the energy dissipation reservoir due to sedimentation, the water guide strip is only required to be readjusted to be fixed in height, and the overhaul difficulty is greatly reduced compared with other water scattering structures.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

fig. 3 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.

In the figure: 1. building outer walls; 2. a water guide strip; 3. planting a first pond; 4. a second planting pool; 5. a water-spreading side ditch; 6. a rain pipe; 7. an energy dissipation reservoir; 8. an energy dissipation separator; 9. a water pipe; 10. a water guide groove; 11. a root-isolating hydrophobic plate; 12. a water pump; 13. a flexible waterproof layer; 14. a sleeper; 15. an overflow port; 16. and a water outlet.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model;

referring to fig. 1-3, a modularized flower pond type water dispersing structure comprises a building outer wall 1 and a flexible waterproof layer 13, wherein the flexible waterproof layer 13 is arranged on the right side of the building outer wall 1, and a plurality of planting ponds I3 and a plurality of planting ponds II 4 are arranged on the top of the flexible waterproof layer 13; a plurality of sleepers 14 are equidistantly arranged in the flexible waterproof layer 13, water scattering side ditches 5 are formed in the top of the flexible waterproof layer 13, and the water scattering side ditches 5 are located on the right side of the planting pool II 4.

The inside of the first planting pool 3 and the inside of the second planting pool 4 can be planted with some ornamental plants after being filled with planting matrixes, so that the building is decorated, and the attractiveness of the periphery of the building is improved;

when the flexible waterproof layer 13 is paved, 5% of slope is needed to be found to the water scattering side ditch, soil is filled on the waterproof layer for tamping, and after the sleeper 14 is paved and leveled, the planting pool I3 and the planting pool II 4 can be directly placed.

The middle parts of the first planting ponds 3 are provided with energy dissipation water reservoirs 7, the energy dissipation water reservoirs 7 are used for storing rainwater, the first planting ponds 3 and the energy dissipation water reservoirs 7 are higher than the second planting ponds 4, the second planting ponds 4 are positioned on the right sides of the first planting ponds 3, and water guide grooves 10 are fixedly arranged on one sides of the first planting ponds 3 and the energy dissipation water reservoirs 7;

the right side of the building outer wall 1 is provided with a rain pipe 6, the bottom end of the rain pipe 6 extends into the energy dissipation reservoir 7, the rain pipe can guide rainwater on the building into the energy dissipation reservoir 7, the right side of the building outer wall 1 is fixedly provided with a water guide strip 2, the top of the water guide strip 2 is of an inclined structure, and the rainwater on the right surface of the building outer wall 1 can flow into a plurality of planting ponds I3 and the energy dissipation reservoir 7 through the water guide strip 2;

after raining, rainwater on the surface of the building outer wall 1 flows into the planting pool I3 and the energy dissipation reservoir 7 through the water guide strips 2, so that the rainwater is prevented from penetrating into a foundation through gaps between the building outer wall 1 and scattered water;

when the building and the surrounding foundation generate inconsistent settlement, the water guide strip 2, the first planting pool 3, the second planting pool 4 and the energy dissipation reservoir 7 are not connected, so that the water guide effect of the utility model is not affected; and even because subside and lead to water guide bar 2 to be extruded by planting pond one 3, planting pond two 4, energy dissipation cistern 7 and drop, only need with water guide bar 2 readjust highly fixed can, the maintenance degree of difficulty is compared other water scattering structure greatly reduced.

A water pump 12 is fixedly arranged on one side of the bottom of the inner side of the energy dissipation reservoir 7, the output end of the water pump 12 is connected with a water delivery pipe 9, and one end of the water delivery pipe 9 extends to the inside of the water guide tank 10; two energy dissipation clapboards 8 are arranged in the energy dissipation reservoir 7, the bottom end of the rainwater pipe 6 is positioned between the two energy dissipation clapboards 8 and the inner wall of the energy dissipation reservoir 7, and overflow ports 15 with the same number as that of the first planting pools 3 are formed in one side, close to the first planting pools 3, of the water guide tank 10; one side of the water guide groove 10, which is close to the planting ponds II 4, is provided with water outlets 16 which are the same as the planting ponds II 4 in number.

The water pump 12 can pump the rainwater stored in the energy dissipation reservoir 7 into the water guide tank 10, and distributes the rainwater into the first planting pool 3 and the second planting pool 4 through the water guide tank 10, irrigates plants in the first planting pool 3 and the second planting pool 4, thereby realizing retention, storage and reuse of roof rainwater and exerting the urban sponge benefit.

The root-isolating hydrophobic plates 11 are fixedly arranged below the interiors of the first planting ponds 3 and the second planting ponds 4, water outlets are formed below the right sides of the first planting ponds 3 and the second planting ponds 4, the first planting ponds 3 are communicated with the interiors of the second planting ponds 4 through the water outlets on the right sides, and a plurality of through holes are formed in the root-isolating hydrophobic plates 11 and the interiors of the two energy dissipation clapboards 8;

after the rainwater enters the planting pool I3 and the planting pool II 4, the rainwater permeates into the planting matrix to provide water for plants, and redundant rainwater passes through the root-isolating hydrophobic plate 11 and is filtered by the root-isolating hydrophobic plate 11, the filtered rainwater flows into the water-dispersing side ditch 5 through the water outlet, and the rainwater is discharged to a sewer through the water-dispersing side ditch 5.

A machine-made pebble for dissipating energy is filled between the two energy dissipating partition plates 8 and the inner wall of the energy dissipating reservoir 7;

the machine-made pebbles can reduce the impact force of the rainwater discharged by the rainwater pipe 6 on the inner wall of the energy dissipation reservoir 7 and the energy dissipation baffle plate 8.

Claims (7)

1. The modularized flower pond type water scattering structure comprises a building outer wall (1) and a flexible waterproof layer (13), and is characterized in that the flexible waterproof layer (13) is arranged on the right side of the building outer wall (1), and a plurality of first planting ponds (3) and a plurality of second planting ponds (4) are arranged at the top of the flexible waterproof layer (13);

a plurality of sleepers (14) are equidistantly arranged in the flexible waterproof layer (13), water scattering side ditches (5) are formed in the top of the flexible waterproof layer (13), and the water scattering side ditches (5) are located on the right side of the second planting pool (4);

the middle parts of the first planting pools (3) are provided with energy dissipation reservoirs (7), the first planting pools (3) and the energy dissipation reservoirs (7) are higher than the second planting pools (4), the second planting pools (4) are positioned on the right sides of the first planting pools (3), and water guide tanks (10) are fixedly arranged on one sides of the first planting pools (3) and the energy dissipation reservoirs (7);

the rainwater pipe (6) is installed on the right side of building outer wall (1), just the bottom of rainwater pipe (6) extends to the inside of energy dissipation cistern (7), the right side fixed mounting of building outer wall (1) has water guide strip (2), the top of water guide strip (2) is the slope structure, the rainwater accessible of building outer wall (1) right surface water guide strip (2) inflow a plurality of planting pond one (3) and the inside of energy dissipation cistern (7).

2. The modularized flower pond type water dispersing structure according to claim 1, wherein a water pump (12) is fixedly installed on one side of the inner bottom of the energy dissipation reservoir (7), the output end of the water pump (12) is connected with a water pipe (9), and one end of the water pipe (9) extends to the inside of the water guide groove (10).

3. The modularized flower pond type water scattering structure according to claim 2, wherein overflow ports (15) with the same number as the first planting ponds (3) are formed on one side, close to the first planting ponds (3), of the water guide groove (10);

one side of the water guide groove (10) close to the second planting pools (4) is provided with water outlets (16) the number of which is the same as that of the second planting pools (4).

4. The modularized flower pond type water scattering structure according to claim 1, wherein root-isolating and water-draining plates (11) are fixedly installed below the inside of the first planting pond (3) and the inside of the second planting pond (4), water outlets are formed below the right sides of the first planting pond (3) and the second planting pond (4), and the first planting pond (3) is communicated with the inside of the second planting pond (4) through the water outlets on the right sides.

5. The modularized flower pond formula water dispersion structure according to claim 4, wherein two energy dissipation baffles (8) are installed in the energy dissipation reservoir (7), and the bottom end of the rainwater pipe (6) is located between the two energy dissipation baffles (8) and the inner wall of the energy dissipation reservoir (7).

6. The modularized flower pond type water dispersing structure according to claim 5, wherein a plurality of through holes are formed in the inner parts of the root isolating hydrophobic plates (11) and the two energy dissipation clapboards (8).

7. A modular flower-pond type water spreading structure according to claim 5, wherein a mechanism pebble for dissipating energy is filled between two energy dissipating baffles (8) and the inner wall of the energy dissipating reservoir (7).

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