CN106400885A

CN106400885A - Rainwater collecting and recycling method and system

Info

Publication number: CN106400885A
Application number: CN201610793462.2A
Authority: CN
Inventors: 郑丽莉; 杨晓勇; 章响红; 沈志国; 郑向勇; 赵敏; 孔海南; 郑祺南; 童兰兰; 郭晓君
Original assignee: ZHEJIANG WEIDA GARDEN ENGINEERING Co Ltd
Current assignee: ZHEJIANG WEIDA GARDEN ENGINEERING Co Ltd
Priority date: 2016-08-31
Filing date: 2016-08-31
Publication date: 2017-02-15

Abstract

The invention discloses a rainwater collecting and recycling method. The method comprises the following steps: collecting rainwater into a buried sedimentation tank by virtue of a roof rainwater collection system and a surface runoff rainwater collection system, so as to form primary stored water; introducing 50-60% of the primary stored water in the upper layer of the sedimentation tank into a primary reservoir by virtue of a water pump, so as to form secondary stored water; introducing 50-60% of the secondary stored water in the upper layer of the primary reservoir into a secondary reservoir by virtue of a water pump, so as to form tertiary stored water; and introducing 80-90% of the tertiary stored water in the upper layer of the secondary water reservoir into a tertiary reservoir by virtue of a water pump, so as to form quaternary stored water. The method provided by the invention has functions of 'intercepting', 'absorbing', 'maintaining', 'purifying' and 'releasing' the rainwater, and the like, so that novel urbanized municipal facilities have excellent 'elasticity' in such aspects as adapting to environmental change, responding to natural disasters and the like. The method is energy-saving and environment-friendly.

Description

A kind of rainwater-collecting circulation utilization method and system

Technical field

The present invention relates to rainwater-collecting recycle utilization technology field, a kind of rainwater-collecting circulation utilization method and system.

Background technology

Sponge city, is new generation of city storm water man- agement concept, refers to that city is adapting to environmental change and reply rainwater band The aspects such as the natural disaster come have good " elastic ", also referred to as " water elasticity city ".

Actually this theory corresponds to rainwater-collecting cyclic utilization system of the prior art, rainwater collection of the prior art Collection circulation utilization method and system, are more simply simply related to output after stormwater tank is collected and utilize, do not have excessive process, Also cannot be utilized by more field.

Therefore, this area need to be improved.

Content of the invention

A kind of in view of in place of above-mentioned the deficiencies in the prior art, it is an object of the invention to provide rainwater-collecting side of recycling Method and its system are it is intended to solve in prior art.

In order to achieve the above object, this invention takes technical scheme below：

A kind of rainwater-collecting circulation utilization method, wherein, comprises the following steps：

S1, using roof rain water collecting system and surface runoff rain water collecting system by rainwater-collecting to buried sedimentation tank In, precipitation is no less than 24 hours, forms one-level water storage；

S2, with water pump, the one-level water storage of the upper strata 50%-60% in above-mentioned sedimentation tank is caused one-level cistern, carry out again Secondary precipitation, the sedimentation time is no less than 12 hours, forms two grades of water storages；

S3, with water pump, two grades of water storages of the upper strata 50%-60% of above-mentioned one-level cistern are caused two grades of cisterns, carry out Precipitate again, the sedimentation time is no less than 6 hours, form three-level water storage；

Wherein, it is provided with high speed sand filtration structure between one-level cistern and two grades of cisterns, water pump is first by two grades of water storages Cause high speed sand filtration structure, after to two grades of cisterns；

S4, with water pump, the three-level water storage of the 80%-90% on above-mentioned two grades of cistern upper stratas is caused three-level cistern, carry out Storage, forms level Four water storage；

Wherein, it is provided with film filter between two grades of cisterns and three-level cistern, three-level water storage is first drawn by water pump To film filter, the cistern of falling three-level afterwards.

Described roof rain water collecting system includes roof greening, the interception gaseous-waste holdup system being arranged under greening and roof water-retention Pond, also includes step in described S1：

S11, roof greening drink up the rain and the filtration through soil, slowly penetrate into and intercept gaseous-waste holdup system；

S12, interception gaseous-waste holdup system carry out net filtration to rainwater, filter out silt further；

Rainwater after S13, S12 enters roof cistern, carries out water storage.

Described roof cistern is provided with roof runoff and is connected with described buried sedimentation tank.

Described surface runoff rain water collecting system include slow sewer system, permeability road surface, pervious ecological parking lot and under Recessed Rain Garden.

A kind of rainwater-collecting cyclic utilization system, including rain water collecting system, buried sedimentation tank, one-level cistern, two Level cistern and three-level cistern, described rain water collecting system, buried sedimentation tank, one-level cistern, two grades of cisterns and three Level cistern is sequentially connected, and is provided with high speed sand filtration structure, described two grades of storages between described one-level cistern and two grades of cisterns It is provided with film filter between pond and three-level cistern.

Described rain water collecting system includes roof greening, the interception gaseous-waste holdup system being arranged under greening and roof cistern, It is provided with connecting pipe, described roof greening includes the vegetation stacking gradually between described interception gaseous-waste holdup system and roof cistern Layer, plantation layer, filter layer, haydite drainage blanket, moisturizing layer, every root layer, anti-leakage layer and original building layer, described interception gaseous-waste holdup system Described in being arranged between root layer and anti-leakage layer.

Described rain water collecting system also includes slow sewer system, permeability road surface, pervious ecological parking lot and recessed rainwater Garden.

Described recessed Rain Garden includes multiple recessed gardens unit, and described recessed garden unit includes groove type pond, institute State groove type at the bottom of pond portion and be coated with one layer of uncompacted natural soil layer, the center of described natural soil layer is provided with ruckle, institute State setting rain delivery pipe in ruckle, described natural soil layer overlying is stamped the soil filter layer of 5-15 centimetre, described soil Plant on filter layer and be implanted with plant.

The depth of water of described recessed garden unit is less than or equal to 15 centimeters, and described soil filter layer includes 50% stacking gradually The topsoil of sandy soil layer, 20% humus layer and 30%, described plant includes planting in along recessed garden cell edges Water plant and the water-fast wet plant planting the center in recessed garden unit.

Described pervious ecological parking lot includes parking area and carwashing area, and the ground of described parking area is that bituminous concrete is permeable Property ground, described carwashing area includes recirculated water adapter, infiltration plant ground and circulating line, and described recirculated water is taken over for connecting Water after described rainwater cyclic utilization system process, described infiltration plant ground is connected with described circulating line, for rainwater again Circulation.

Beneficial effect：The present invention provide a kind of rainwater-collecting circulation utilization method and system, possess rainwater " interception ", " absorption ", " holding ", " purification ", " release " etc. function, make new urbanization urban operating mechanism adapt to environmental change and reply from So the aspect such as disaster has good " elastic ".Energy-conserving and environment-protective.

Brief description

Fig. 1 is the method flow diagram of the rainwater-collecting circulation utilization method of the specific embodiment of the invention.

Fig. 2 is the schematic diagram of the recessed Rain Garden of rainwater-collecting cyclic utilization system of the specific embodiment of the invention.

Shown in figure：1st, natural soil layer；2nd, ruckle；3rd, rainwater delivery pipe；4th, soil filter layer；5th, water plant；6、 Water-fast wet vegetation water.

Specific embodiment

The present invention provides a kind of rainwater-collecting circulation utilization method and system.For make the purpose of the present invention, technical scheme and Effect is clearer, clear and definite, and the present invention is described in more detail for the embodiment that develops simultaneously referring to the drawings.It should be appreciated that herein Described specific embodiment only in order to explain the present invention, is not intended to limit the present invention.

As illustrated in fig. 1 and 2, be the specific embodiment of the invention a kind of rainwater-collecting circulation utilization method and system.

Rainwater after S13, S12 enters roof cistern, carries out water storage.

Embodiment one：

S1, using roof rain water collecting system and surface runoff rain water collecting system by rainwater-collecting to buried sedimentation tank In, precipitate 24 hours, form one-level water storage；

Rainwater after S13, S12 enters roof cistern, carries out water storage.

S2, with water pump, the one-level water storage on the upper strata 60% in above-mentioned sedimentation tank is caused one-level cistern, sunk again Form sediment, 12 hours sedimentation times, form two grades of water storages；

S3, with water pump, two grades of water storages on the upper strata 60% of above-mentioned one-level cistern are caused two grades of cisterns, carry out again Precipitation, 6 hours sedimentation times, forms three-level water storage；

S4, with water pump, the 90% of above-mentioned two grades of cistern upper stratas three-level water storage is caused three-level cistern, is stored, Form level Four water storage；

Wherein, it is provided with film filter between two grades of cisterns and three-level cistern, three-level water storage is first drawn by water pump To film filter, arrive three-level cistern afterwards.

Embodiment two：

S1, using roof rain water collecting system and surface runoff rain water collecting system by rainwater-collecting to buried sedimentation tank In, precipitate 30 hours, form one-level water storage；

Rainwater after S13, S12 enters roof cistern, carries out water storage.

S2, with water pump, the one-level water storage on the upper strata 50% in above-mentioned sedimentation tank is caused one-level cistern, sunk again Form sediment, 15 hours sedimentation times, form two grades of water storages；

S3, with water pump, two grades of water storages on the upper strata 50% of above-mentioned one-level cistern are caused two grades of cisterns, carry out again Precipitation, 6 hours sedimentation times, forms three-level water storage；

S4, with water pump, the 80% of above-mentioned two grades of cistern upper stratas three-level water storage is caused three-level cistern, is stored, Form level Four water storage；

It is understood that for those of ordinary skills, can with technology according to the present invention scheme and this Bright design in addition equivalent or change, and all these change or replace the guarantor that all should belong to appended claims of the invention Shield scope.

Claims

1. a kind of rainwater-collecting circulation utilization method is it is characterised in that comprise the following steps：

S1, using roof rain water collecting system and surface runoff rain water collecting system by rainwater-collecting in buried sedimentation tank, Precipitation is no less than 24 hours, forms one-level water storage；

S2, with water pump, the one-level water storage of the upper strata 50%-60% in above-mentioned sedimentation tank is caused one-level cistern, sunk again Form sediment, the sedimentation time is no less than 12 hours, form two grades of water storages；

S3, with water pump, two grades of water storages of the upper strata 50%-60% of above-mentioned one-level cistern are caused two grades of cisterns, carry out again Precipitation, the sedimentation time is no less than 6 hours, forms three-level water storage；

Wherein, it is provided with high speed sand filtration structure between one-level cistern and two grades of cisterns, two grades of water storages are first caused by water pump High speed sand filtration structure, after to two grades of cisterns；

S4, with water pump, the three-level water storage of the 80%-90% on above-mentioned two grades of cistern upper stratas is caused three-level cistern, stored up Deposit, form level Four water storage；

Wherein, it is provided with film filter between two grades of cisterns and three-level cistern, three-level water storage is first caused film by water pump Defecator, the cistern of falling three-level afterwards.

2. a kind of rainwater-collecting circulation utilization method according to claim 1 is it is characterised in that described roof rain water collecting System includes roof greening, the interception gaseous-waste holdup system being arranged under greening and roof cistern, also includes step in described S1：

Rainwater after S13, S12 enters roof cistern, carries out water storage.

3. a kind of rainwater-collecting circulation utilization method according to claim 2 is it is characterised in that described roof cistern sets It is equipped with roof runoff to be connected with described buried sedimentation tank.

4. a kind of rainwater-collecting circulation utilization method according to claim 1 is it is characterised in that described surface runoff rainwater Collection system includes slow sewer system, permeability road surface, pervious ecological parking lot and recessed Rain Garden.

5. a kind of rainwater-collecting cyclic utilization system is it is characterised in that include rain water collecting system, buried sedimentation tank, one-level Cistern, two grades of cisterns and three-level cistern, described rain water collecting system, buried sedimentation tank, one-level cistern, two grades of storages Pond and three-level cistern are sequentially connected, and are provided with high speed sand filtration structure, institute between described one-level cistern and two grades of cisterns State and be provided with film filter between two grades of cisterns and three-level cistern.

6. a kind of rainwater-collecting cyclic utilization system according to claim 5 is it is characterised in that described rain water collecting system The interception gaseous-waste holdup system including roof greening, being arranged under greening and roof cistern, described interception gaseous-waste holdup system and roof store It is provided with connecting pipe, vegetable layer that described roof greening includes stacking gradually, plantation layer, filter layer, haydite row between pond Water layer, moisturizing layer, every root layer, anti-leakage layer and original building layer, described interception gaseous-waste holdup system be arranged at described every root layer and antiseepage Between drop ply.

7. a kind of rainwater-collecting cyclic utilization system according to claim 6 is it is characterised in that described rain water collecting system Also include slow sewer system, permeability road surface, pervious ecological parking lot and recessed Rain Garden.

8. a kind of rainwater-collecting cyclic utilization system according to claim 7 is it is characterised in that described recessed Rain Garden Including multiple recessed gardens unit, described recessed garden unit includes groove type pond, and described groove type at the bottom of pond portion is coated with one layer Uncompacted natural soil layer, the center of described natural soil layer is provided with ruckle, setting rain discharge in described ruckle Pipe, described natural soil layer overlying is stamped the soil filter layer of 5-15 centimetre, described soil filter layer is planted and is implanted with plant.

9. a kind of rainwater-collecting cyclic utilization system according to claim 8 is it is characterised in that described recessed garden unit The depth of water be less than or equal to 15 centimeters, 50% sandy soil layer that described soil filter layer includes stacking gradually, 20% humus layer and 30% topsoil, described plant includes planting in along the water plant of recessed garden cell edges with plant in recessed garden The water-fast wet plant of the center of unit.

10. a kind of rainwater-collecting cyclic utilization system according to claim 7 is it is characterised in that described pervious ecological stops Parking lot includes parking area and carwashing area, and the ground of described parking area is bituminous concrete water penetration ground, and described carwashing area includes Recirculated water adapter, infiltration plant ground and circulating line, described recirculated water is taken over for connecting described rainwater cyclic utilization system Water after process, described infiltration plant ground is connected with described circulating line, for rainwater recirculation.