CN204570883U - A kind of early-stage rainwater stream abandoning system - Google Patents
A kind of early-stage rainwater stream abandoning system Download PDFInfo
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- CN204570883U CN204570883U CN201520216996.XU CN201520216996U CN204570883U CN 204570883 U CN204570883 U CN 204570883U CN 201520216996 U CN201520216996 U CN 201520216996U CN 204570883 U CN204570883 U CN 204570883U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A10/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE at coastal zones; at river basins
- Y02A10/30—Flood prevention; Flood or storm water management, e.g. using flood barriers
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Abstract
The utility model discloses a kind of early-stage rainwater stream abandoning system, comprise water inlet pipe, the first isocon, the first fluid level control device, the second isocon, blow-down pipe, the second fluid level control device, outlet pipe, the first tube connector, the second tube connector, the first collecting-tank, the second collecting-tank.The utility model passes through the first collecting-tank, the second collecting-tank, the first fluid level control device and the second fluid level control device synergy, early rainwater automatic flow abandoning, and operating mode switches reliable, without the need to driven by power; By regulating the first control valve and the second control valve aperture, the first collecting-tank and the second collecting-tank rainwater emptying time can be controlled, reduce twice rainfall interval less time early-stage rainwater abandon the water yield; Early-stage rainwater after rainfall terminates in the first collecting-tank enters sewage network gradually by blow-down pipe, reduce Wastewater Treatment Plant between flush period because incoming flow is too high the pressure of overburden.
Description
Technical field
The utility model relates to a kind of water pollution control system, particularly relates to a kind of early-stage rainwater stream abandoning system.
Background technology
Along with developing rapidly of urbanization, the waterproof regional percentage in city continues to increase, and the runoff pollution formed by Urban Rain has become one of main source of current city water environment pollution.The rainfall initial stage, rainwater has dissolved the pollution gas such as a large amount of sour gas, vehicle exhaust, plant gas in air, and it is general containing a certain amount of toxin affecting plant growth, these toxin may comprise sulfide, salinity, TDS (total dissolved solidss) etc., even unsuitable pH value.Behind landing ground, again owing to washing away asphalt felt roofing, asphalt concrete road, building site etc., make in early-stage rainwater containing a large amount of pollutants such as organic matter, pathogen, heavy metal, grease, suspended solid, therefore, the degree of contamination of early-stage rainwater is higher, usually exceed the degree of contamination of common municipal sewage, if early-stage rainwater is directly entered nature receiving waters, very serious pollution will be caused to water body.Domestic and international the experimental results shows, early-stage rainwater and later stage Rainwater Quality widely different, in the process of Rainfall-runoff, each pollutant levels decline along with the increase of rainfall duration, and be tending towards a stationary value gradually, and difference when each pollutant levels of different underlying surface condition reach stable is little.Therefore, abandoned stream process must be carried out to early-stage rainwater.By arranging early-stage rainwater stream abandoning device, rainfall early-stage rainwater is branched to sewage collecting basin or sewage network, the rainwater that rainfall Final pollution degree is lighter enters rainwater collecting-tank or Storm Sewer Network.
Existing early-stage rainwater stream abandoning device mainly contains abandoned stream stormwater tank, suitching type or tubule abandoned stream well, just rain eliminator and jump weir formula rainwater shunting well etc. are multi-form for automatic turnover type.
Abandoned stream stormwater tank be early-stage rainwater is first flowed into corresponding volume pond body in and store, after the early-stage rainwater stored reaches certain volume, rainwater starts to flow into and reclaims rain water collecting system.Need valve open emptying after every the rainfall of this abandoned stream stormwater tank, emptying adopts Valve controlling mostly, needs manual operation.
Suitching type or tubule abandoned stream well are in rainwater inspection well, bury two gutters connecting downstream catch-basin and downstream wastewater well underground simultaneously, and the switching between two gutters need arrange manual simplified gate valve or Automatic slucie valve completes.This device need control early-stage rainwater stream abandoning amount by by-pass valve control, needs manual operation or electrical control.
Automatic turnover type just rain eliminator utilizes the turnover panel of automatic turning to carry out abandoned stream.When not having rainwater, turnover panel is in abandoned stream pipe position, and after rainfall starts, first rain is drained along turnover panel through abandoned stream pipe.Along with increasing of rainfall, turnover panel dependence gravity can be auto-reverse, and rainwater enters reservoir along turnover panel through rainwater collection collector.When stopping rainfall certain hour end blocking relies on Action of Gravity Field automatically to set back, wait for rainfall next time.The just rain eliminator operation maintenance of this automatic turnover type is complicated, equipment is fragile and not easy-maintaining.
Jump weir formula rainwater shunting well is the device relying on weir plate to be separated by early-stage rainwater.At the rainfall initial stage, the parabola jet that rainwater is flowed out by gutter is intercepted by weir plate, flows out from abandoned stream pipe; Along with the increasing of rainfall run-off, parabola jet crosses weir plate, is collected from outlet pipe stream, thus reaches the object of early-stage rainwater stream abandoning.Jump weir formula rainwater shunting well can not collect the rainwater of rainfall later stage little rainfall, and when the rainfall initial stage, rainfall was larger, early-stage rainwater will cross weir plate and cannot abandoned stream.
Generally speaking, existing early-stage rainwater stream abandoning device can not realize early rainwater automatic flow abandoning mostly, adopts Valve controlling, need manual operation to the emptying of early-stage rainwater.Although some devices utilizing electrical control to realize early rainwater automatic flow abandoning achieve automatic flow abandoning, decrease manual operation, mostly adopt electronic equipment, technical sophistication, economy and durability poor, and not easily Maintenance and Repair.Some do not need manual operation or need although achieve automatic flow abandoning, abandoned stream reliability is not poor by the flow abandoning apparatus of electrical control (as jump weir formula rainwater shunting well), and the effect of abandoned stream is difficult to ensure.
Utility model content
The utility model exists for prior art and runs complicated, economy and the poor problem of reliability, provides that a kind of abandoned stream is respond well, structure is simple, cost is low, Maintenance and Repair early-stage rainwater stream abandoning system easily.
The technical scheme that the utility model early-stage rainwater stream abandoning system is taked is: it comprises water inlet pipe, the first isocon, the first fluid level control device, the second isocon, blow-down pipe, the second fluid level control device, outlet pipe, the first tube connector, the second tube connector, the first collecting-tank, the second collecting-tank; The tail end bifurcated of described water inlet pipe is communicated with the head end of described second isocon with the head end of described first isocon respectively; The tail end of described first isocon passes in described first collecting-tank, rainwater can be branched to described first collecting-tank; The tail end of described second isocon passes in described second collecting-tank, rainwater can be branched to described second collecting-tank; Described first fluid level control device is arranged on described first isocon; Described second fluid level control device is arranged at the bottom in described second collecting-tank; The head end of described blow-down pipe passes into the bottom in described first collecting-tank, the tail end of described blow-down pipe is communicated with one end of described second fluid level control device, the other end of described second fluid level control device is communicated with the head end of described first tube connector, and the tail end of described first tube connector is communicated with sewage reservoir or sewage network; The head end of described second tube connector passes into the bottom in described second collecting-tank, and tail end is communicated with rain water reservoir or Storm Sewer Network; The head end of described outlet pipe passes in described second collecting-tank, and tail end is communicated with rain water reservoir or Storm Sewer Network; Described first fluid level control device working water level is higher than the position of described blow-down pipe head end; Described second fluid level control device working water level is higher than the position of described second tube connector head end; The position of described outlet pipe head end is higher than described second fluid level control device working water level.
Further, the utility model system is provided with the first control valve on described first tube connector.
Further, the utility model system is provided with the second control valve on described second tube connector.
Further, the bottom of the utility model system in described first collecting-tank is provided with the first filter, and the first filter is arranged on the head end of described blow-down pipe.
Further, the bottom of the utility model system in described second collecting-tank is provided with the second filter, and the second filter is arranged on the head end of described second tube connector.
The utility model system can be provided with any one in the first described control valve, the second control valve, the first filter, the second filter, also can be provided with wherein any two, wantonly three or whole four.
Described first fluid level control device and the second fluid level control device can select float valve, also can select hydraulic water level control valve.
Described first control valve, the second control valve can select copper ball valve, also can select gate valve.
Described first filter, the second filter can select stainless steel cloth, also can select filtering net cylinder.
The beneficial effects of the utility model are:
(1) by the first collecting-tank, the second collecting-tank, the first fluid level control device and the second fluid level control device synergy, early rainwater automatic flow abandoning, operating mode switches reliable, without the need to driven by power;
(2) by adjustment first control valve and the second control valve aperture, the first collecting-tank and the second collecting-tank rainwater emptying time can be controlled, can reduce twice rainfall interval less time early-stage rainwater abandon the water yield;
(3) rainfall terminate after early-stage rainwater in the first collecting-tank enter sewage network gradually by blow-down pipe, reduce Wastewater Treatment Plant between flush period because incoming flow is too high the pressure of overburden;
(4) structure is simple, cost is low, easy for installation, reliability is high, Maintenance and Repair are convenient.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model system;
Fig. 2 is the top view of Fig. 1;
Fig. 3 is the utility model initial shift schematic diagram;
Fig. 4 is the top view of Fig. 3;
Fig. 5 is the utility model second working stage schematic diagram;
Fig. 6 is the top view of Fig. 5;
Fig. 7 is the utility model the 3rd working stage schematic diagram;
Fig. 8 is the top view of Fig. 7;
Fig. 9 is the utility model the 4th working stage schematic diagram;
Figure 10 is the top view of Fig. 9;
Figure 11 is the utility model the 5th working stage schematic diagram;
Figure 12 is the top view of Figure 11;
Figure 13 is the floating ball valve structure schematic diagram of the utility model embodiment;
Figure 14 is the filtering net cylinder structural representation of the utility model embodiment;
Figure 15 is the sectional drawing of Figure 14.
In figure: 1-water inlet pipe; 2-first isocon; 3-first fluid level control device; 4-first collecting-tank; 5-first filter; 6-second isocon; 7-blow-down pipe; 8-second fluid level control device; 9-second filter; 10-outlet pipe; 11-first tube connector; 12-second tube connector; 13-first control valve; 14-second collecting-tank; 15-second control valve; 16-first fluid level control device working water level; 17-second fluid level control device working water level; 18-blow-down pipe emptying water level; 19-rain water reservoir or Storm Sewer Network; 20-sewage reservoir or sewage network; 31-valve seat; 32-valve body; 33-flap; 34-turning cylinder; 35-floating ball rod; 36-ball float; 51-screen pack; 52-bound edge.
Detailed description of the invention:
Embodiment 1: as shown in Figures 1 to 12, a kind of early-stage rainwater stream abandoning system of the utility model comprises water inlet pipe 1, first isocon 2, first fluid level control device 3, second isocon 6, blow-down pipe 7, second fluid level control device 8, outlet pipe 10, first tube connector 11, second tube connector 12, first collecting-tank 4, second collecting-tank 14; The tail end bifurcated of water inlet pipe 1 is communicated with the head end of the first isocon 2 with the second isocon 6 respectively; The tail end of the first isocon 2 passes in described first collecting-tank 4, rainwater can be branched to the first collecting-tank 4; The tail end of the second isocon 6 passes in described second collecting-tank 14, rainwater can be branched to the second collecting-tank 14; First fluid level control device 3 is arranged on the first isocon 2; Second fluid level control device 8 is arranged at the bottom in the second collecting-tank 14, the head end of blow-down pipe 7 passes into bottom the first collecting-tank 4, the tail end of blow-down pipe 7 is communicated with one end of the second fluid level control device 8, the other end of the second fluid level control device 8 is communicated with the head end of the first tube connector 11, and the tail end of the first tube connector 11 is communicated with sewage reservoir or sewage network 20; The head end of the second tube connector 12 passes into the bottom in the second collecting-tank 14, and tail end is communicated with rain water reservoir or Storm Sewer Network 19; The head end of outlet pipe 10 passes into the second collecting-tank 14, and tail end is communicated with rain water reservoir or Storm Sewer Network 19; First fluid level control device working water level 16 is higher than the position of blow-down pipe 7 head end; Second fluid level control device working water level 17 is higher than the position of the second tube connector 12 head end; The position of outlet pipe 10 head end is higher than the second fluid level control device working water level 17; First fluid level control device 3 and the second fluid level control device 8 can be according to the water level in the first collecting-tank 4 and the second collecting-tank 14 state of opening or closing respectively, when the water level in the first collecting-tank 4 is lower than the first fluid level control device working water level 16, first fluid level control device 3 is in open mode, when the water level in the first collecting-tank 4 reaches the first fluid level control device working water level 16, the first fluid level control device 3 is in closed condition; Similarly, when the water level in the second collecting-tank 14 is lower than the second fluid level control device working water level 17, second fluid level control device 8 is in open mode, and when the water level in the second collecting-tank 14 reaches the second fluid level control device working water level 17, the second fluid level control device 8 is in closed condition.First fluid level control device 3 and the second fluid level control device 8 can select float valve, as the H724X type float valve that Jiade, optional Shanghai valve manufacture Co., Ltd produces.First fluid level control device 3 and the second fluid level control device 8 also can select hydraulic water level control valve, as the H142X type hydraulic water level control valve that optional Shanghai Hua Tong group Ming Jing valve manufacture Co., Ltd produces.Figure 13 is the structural representation of wherein a kind of float valve, this float valve mainly comprises the parts such as valve seat 31, valve body 32, flap 33, turning cylinder 34, floating ball rod 35 and ball float 36, when the water level of the first collecting-tank 4 reach the designated water level i.e. water level of the first fluid level control device working water level 16 or the second collecting-tank 14 reach designated water level that is the second fluid level control device working water level 17 time, drive floating ball rod 35 and turning cylinder 34 to control flap 33 by ball float 36 to close, thus water inlet cannot pass through float valve; When after water level decreasing, ball float 36 drives floating ball rod 35 and turning cylinder 34 to control flap 33 and opens, thus water inlet can pass through float valve 36.
Embodiment 2: as shown in Figures 1 to 12, as preferred embodiment of the present utility model, on the basis of embodiment 1, the utility model system is also provided with the first control valve 13, first control valve 13 and is arranged on the first tube connector 11.By regulating the first control valve 13 aperture, the first collecting-tank 4 rainwater emptying time can be controlled.First control valve 13 can select copper ball valve, as the Q11F-16T type brass ball valve that Shanghai Neng En valve Co., Ltd produces, also can select gate valve, as the Z40H type GB gate valve that Shanghai Hua Tong valve Co., Ltd produces.
Embodiment 3: as shown in Figures 1 to 12, as preferred embodiment of the present utility model, on the basis of embodiment 1, the utility model system is also provided with the second control valve 15, second control valve 15 and is arranged on the second tube connector 12.By regulating the second control valve 15 aperture, the second collecting-tank 14 rainwater emptying time can be controlled.Second control valve 15 can select copper ball valve, as the Q11F-16T type brass ball valve that Shanghai Neng En valve Co., Ltd produces, also can select gate valve, as the Z40H type GB gate valve that Shanghai Hua Tong valve Co., Ltd produces.
Embodiment 4: as shown in Figures 1 to 12, as preferred embodiment of the present utility model, on the basis of embodiment 1, the bottom of the utility model system in the first collecting-tank 4 is provided with the head end that the first filter 5, first filter 5 is arranged on blow-down pipe 7.First filter 5 can filter bulky grain solid in the first collecting-tank 4, prevents blow-down pipe 7, second fluid level control device 8 and the first tube connector 11 from blocking.First filter 5 can select stainless steel cloth, the stainless steel cloth that prompt spun gold net products factory as prosperous in Anping County is produced, and also can select filtering net cylinder, as the metal filter screen cylinder sent out five metals silk screen factory and produce is risen in Anping County.Figure 14 to Figure 15 is the structural representation of wherein a kind of filtering net cylinder, and this filtering net cylinder mainly comprises screen pack 51 and bound edge 52, can filter the solid particle that particle diameter is greater than aperture of filter screen.
Embodiment 5: as shown in Figures 1 to 12, as preferred embodiment of the present utility model, on the basis of embodiment 1, the bottom of the utility model system in the second collecting-tank 14 is provided with the head end that the second filter 9, second filter 9 is arranged on the second tube connector 12.Second filter 9 can filter bulky grain solid in the first collecting-tank 14, prevents the second tube connector 12 from blocking.Second filter 9 can select stainless steel cloth, the stainless steel cloth that prompt spun gold net products factory as prosperous in Anping County is produced, and also can select filtering net cylinder, as the metal filter screen cylinder sent out five metals silk screen factory and produce is risen in Anping County.
It is emphasized that: on the basis of embodiment 1, the utility model system can be provided with any one in the first described control valve 13, second control valve 15, first filter 5, second filter 9, also can be provided with wherein any two, wantonly three or whole four.First control valve 13 is arranged on the first tube connector 11; Second control valve 15 is arranged on the second tube connector 12; Bottom in the first collecting-tank 4 is provided with the head end that the first filter 5, first filter 5 is arranged on blow-down pipe 7; Bottom in the second collecting-tank 14 is provided with the head end that the second filter 9, second filter 9 is arranged on the second tube connector 12.
The most preferred embodiment of the utility model system is: on the basis of embodiment 1, and the utility model system is provided with the first control valve 13, second control valve 15, first filter 5 and the second filter 9 simultaneously; First control valve 13 is arranged on the first tube connector 11; Second control valve 15 is arranged on the second tube connector 12; Bottom in the first collecting-tank 4 is provided with the head end that the first filter 5, first filter 5 is arranged on blow-down pipe 7; Bottom in the second collecting-tank 14 is provided with the head end that the second filter 9, second filter 9 is arranged on the second tube connector 12.
The utility model utilizes the abandoned stream method of early-stage rainwater stream abandoning system to be divided into five working stages: the rainfall initial stage, and the rainwater pollution substrate concentration entering water inlet pipe 1 is comparatively large, and system enters initial shift, as shown in Figure 3 to Figure 4.Initial shift first fluid level control device 3 and the second fluid level control device 8 are in open mode, rainwater enters the first collecting-tank 4 through water inlet pipe 1, first isocon 2, first fluid level control device 3, part rainwater enters sewage reservoir or sewage network 20 through blow-down pipe 7, second fluid level control device 8, first tube connector 11, along with continuing of rainfall, the first collecting-tank 4 water level goes up gradually.When the first collecting-tank 4 water level reaches the first fluid level control device working water level 16, the first fluid level control device 3 is closed, and system enters the second working stage, as shown in Figure 5 to Figure 6.Second working stage first fluid level control device 3 is in closed condition, second fluid level control device 8 is in open mode, rainwater enters the second collecting-tank 14 through the second isocon 6, part rainwater enters rain water reservoir or Storm Sewer Network 19 through the second tube connector 12, along with continuing of rainfall, the second collecting-tank 14 water level goes up gradually.When the second collecting-tank 14 water level reaches the second fluid level control device working water level 17, the second fluid level control device 8 is closed, and system enters the 3rd working stage, as shown in Fig. 7 to Fig. 8.3rd working stage first fluid level control device 3 and the second fluid level control device 8 are in closed condition, rainwater enters the second collecting-tank 14 through the second isocon 6, part rainwater enters rain water reservoir or Storm Sewer Network 19 through the second tube connector 12, and other rainwater enters rain water reservoir or Storm Sewer Network 19 through outlet pipe 10.When rainfall stops, the second tube connector 12 continues by the storm-water drainage in the second collecting-tank 14 to rain water reservoir or Storm Sewer Network 19, and system enters the 4th working stage, as shown in Fig. 9 to Figure 10.In 4th working stage second collecting-tank 14, the water yield reduces gradually, and water level reduces gradually.When the second collecting-tank 14 middle water level is lower than the second fluid level control device working water level 17, second fluid level control device 8 is opened, rainwater in first collecting-tank 4 is disposed to sewage reservoir or sewage network 20 through blow-down pipe 7, second fluid level control device 8 and the first tube connector 11, system enters the 5th working stage, as shown in Figure 11 to Figure 12.5th working stage first fluid level control device 3 is opened, and in the first collecting-tank 4, the water yield reduces gradually, and water level reduces gradually, and when the first collecting-tank 4 water level decreasing is to blow-down pipe emptying water level 18, this early-stage rainwater stream abandoning process completes.
Claims (7)
1. an early-stage rainwater stream abandoning system, is characterized in that: comprise water inlet pipe (1), the first isocon (2), the first fluid level control device (3), the second isocon (6), blow-down pipe (7), the second fluid level control device (8), outlet pipe (10), the first tube connector (11), the second tube connector (12), the first collecting-tank (4), the second collecting-tank (14); The tail end bifurcated of described water inlet pipe (1) is communicated with the head end of described second isocon (6) with the head end of described first isocon (2) respectively; The tail end of described first isocon (2) passes in described first collecting-tank (4); The tail end of described second isocon (6) passes in described second collecting-tank (14); Described first fluid level control device (3) is arranged on described first isocon (2); Described second fluid level control device (8) is arranged at the bottom in described second collecting-tank (14); The head end of described blow-down pipe (7) passes into the bottom in described first collecting-tank (4), the tail end of described blow-down pipe (7) is communicated with one end of described second fluid level control device (8), the other end of described second fluid level control device (8) is communicated with the head end of described first tube connector (11), and the tail end of described first tube connector (11) is communicated with sewage reservoir or sewage network (20); The head end of described second tube connector (12) passes into the bottom in described second collecting-tank (14), and tail end is communicated with rain water reservoir or Storm Sewer Network (19); The head end of described outlet pipe (10) passes in described second collecting-tank (14), and tail end is communicated with rain water reservoir or Storm Sewer Network (19); Described first fluid level control device working water level (16) is higher than the position of described blow-down pipe (7) head end; Described second fluid level control device working water level (17) is higher than the position of described second tube connector (12) head end; The position of described outlet pipe (10) head end is higher than described second fluid level control device working water level (17).
2. a kind of early-stage rainwater stream abandoning system according to claim 1, is characterized in that: on described first tube connector (11), be provided with the first control valve (13).
3. a kind of early-stage rainwater stream abandoning system according to claim 1, is characterized in that: on described second tube connector (12), be provided with the second control valve (15).
4. a kind of early-stage rainwater stream abandoning system according to claim 1, it is characterized in that: on described first tube connector (11), be provided with the first control valve (13), described second tube connector (12) is provided with the second control valve (15).
5. a kind of early-stage rainwater stream abandoning system according to any one of Claims 1-4, it is characterized in that: in described first collecting-tank (4), be provided with the first filter (5), the first filter (5) is arranged on the head end of described blow-down pipe (7).
6. a kind of early-stage rainwater stream abandoning system according to any one of Claims 1-4, it is characterized in that: the bottom in described second collecting-tank (14) is provided with the second filter (9), the second filter (9) is arranged on the head end of described second tube connector (12).
7. a kind of early-stage rainwater stream abandoning system according to claim 5, it is characterized in that: the bottom in described second collecting-tank (14) is provided with the second filter (9), the second filter (9) is arranged on the head end of described second tube connector (12).
Priority Applications (1)
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CN201520216996.XU CN204570883U (en) | 2015-04-10 | 2015-04-10 | A kind of early-stage rainwater stream abandoning system |
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CN201520216996.XU CN204570883U (en) | 2015-04-10 | 2015-04-10 | A kind of early-stage rainwater stream abandoning system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104763038A (en) * | 2015-04-10 | 2015-07-08 | 浙江省水利水电勘测设计院 | Initial rainwater discarding system and discarding method thereof |
CN112830592A (en) * | 2021-02-05 | 2021-05-25 | 四川清和科技有限公司 | Courtyard rainwater collecting and utilizing system and method |
-
2015
- 2015-04-10 CN CN201520216996.XU patent/CN204570883U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104763038A (en) * | 2015-04-10 | 2015-07-08 | 浙江省水利水电勘测设计院 | Initial rainwater discarding system and discarding method thereof |
CN104763038B (en) * | 2015-04-10 | 2016-04-13 | 浙江省水利水电勘测设计院 | A kind of early-stage rainwater stream abandoning system and abandoned stream method thereof |
CN112830592A (en) * | 2021-02-05 | 2021-05-25 | 四川清和科技有限公司 | Courtyard rainwater collecting and utilizing system and method |
CN112830592B (en) * | 2021-02-05 | 2022-12-16 | 四川清和科技有限公司 | Courtyard rainwater collecting and utilizing system and method |
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GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150819 Effective date of abandoning: 20160413 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |