CN207419676U - Rain water collecting system - Google Patents
Rain water collecting system Download PDFInfo
- Publication number
- CN207419676U CN207419676U CN201721450918.1U CN201721450918U CN207419676U CN 207419676 U CN207419676 U CN 207419676U CN 201721450918 U CN201721450918 U CN 201721450918U CN 207419676 U CN207419676 U CN 207419676U
- Authority
- CN
- China
- Prior art keywords
- filtering ponds
- water
- filtering
- cryopreservation device
- conveying
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Filtration Of Liquid (AREA)
Abstract
The utility model discloses rain water collecting systems, it solves and recycles the drawbacks of of high cost, distribution is not reasonable to the collection of rainwater at present, its key points of the technical solution are that including collecting-tank, sedimentation basin, filtering ponds and conveying device for connecting and conveying water source, the first cryopreservation device for primary water storage is additionally provided between sedimentation basin and filtering ponds, the one side of first cryopreservation device is connected with to convey the irrigation device of water for irrigation;The one side of filtering ponds is fixedly provided with to carry out the water source after filtering the whole cryopreservation device of ultimate storage, and what whole cryopreservation device one side was connected with to provide domestic water uses water installations;Conveying device is equipped with the conveying check valve assembly for controlling water source from collecting-tank to whole cryopreservation device successively one-way flow, the rain water collecting system of the utility model, reasonably the rainwater of collection can be allocated, the loss for reducing device causes more economical and efficient.
Description
Technical field
The utility model is related to rain processing systems, more particularly to rain water collecting system.
Background technology
Rain water collecting system generally includes initial Split-flow, filtering, storage and reuse four-stage.
At present for the collection of rainwater after, mostly directly by carrying out reuse again to the water source of storage, but recycle-water
Use it is different according to the final purpose that uses, required clean level requirement is also different, such as collects that treated
Then clean requirement is then gradual harsh for the domestic water that rainwater compares used in household for meadow watering pours water, needed for similary processing
Cost also can gradually increase.Rain water collecting system is mostly using unified filtration treatment, and complete water will be handled at present
For body simultaneously for pouring and domestic water, it is serious as well as the consumption of Filters to cause the waste of source of clean water, makes
It obtains whole cost to remain high, distributes not reasonable, the space that could be improved.
Utility model content
The purpose of this utility model is to provide rain water collecting system, and reasonably the rainwater of collection can be allocated, subtracted
The loss of few device causes more economical and efficient.
The above-mentioned technical purpose of the utility model technical scheme is that:
A kind of rain water collecting system, including collecting-tank, sedimentation basin, filtering ponds and for connect and convey the conveying at water source dress
It puts, the first cryopreservation device for primary water storage is additionally provided between the sedimentation basin and filtering ponds, the one side of the just cryopreservation device is consolidated
It is connected to convey the irrigation device of water for irrigation;The one side of the filtering ponds is fixedly provided with to carry out the water source after filtering
The whole cryopreservation device of ultimate storage, what the end cryopreservation device one side was connected with to provide domestic water uses water installations;The conveying
Device is equipped with the conveying check valve assembly for controlling water source from collecting-tank to whole cryopreservation device successively one-way flow.
Using the above program, the setting of the first cryopreservation device connected between sedimentation basin and filtering ponds enables to complete preliminary
The water source of precipitation can be realized by irrigation device carries out pouring operation to vegetation such as lawns, without carrying out further high-precision
Filter operation, efficiently can reduce waste to filtering material simultaneously using water source;Whole cryopreservation device setting is connected to filtering ponds
Water source after filtering can be stored, so that part domestic water can be supplemented, after increasing rainwater-collecting
Utilization rate, it is more environmentally-friendly, energy saving, and the setting of whole cryopreservation device can be convenient for directly storage, need to complete using preceding
Filter operation can directly carry out transferring use, without waiting for the slow progress of filtering, use enhanced convenience;Conveying device is pacified
The conveying check valve assembly of dress enables to the unidirectional circulation step by step in water source, avoids the water adverse current of subsequent processing, reduces operation
The loss of process equipment and the energy, use is more economical, whole using efficient, energy saving.
Preferably, the input port of the collecting-tank is connected with one for collecting Drinage of house, road drainage and underground
The collecting pipe of the multi input of ponding.
Using the above program, collecting-tank input port connection collecting pipe by multi input pipeline realize to Drinage of house,
Collection utilization while road drainage and underground ponding adds the source at water source, so that more discarded water source energy
Access circulating repetition utilization, use is more environmentally friendly, while without excessive processing equipment, only by the collection of pipeline with into
The processing of row simultaneously reduces the input of equipment, more economical and energy saving.
Preferably, the conveying device is set diagonally downward from first cryopreservation device to filtering ponds one side, the filtering ponds in
Grid is installed with below the entrance of conveying device to prevent slipping through the net, the filtering ponds prevent that the lower section slipped through the net is filled with to filter in grid
Fiber filtering.
Using the above program, conveyance conduit is set diagonally downward from first cryopreservation device to filtering ponds one side so that first cryopreservation device
Interior water source can smoothly circulate after completing precipitation positioned at the water source of eminence into filtering ponds, the fiber filter of filling in filtering ponds
Material can be filtered operation, and prevent slipping through the net can be to the fibre in filtering ponds for the filtering ponds grid fixed in the lower section of conveying device
It ties up filtrate and carries out barrier, avoid causing the loss of fiber filtering with the entrance at water source.
Preferably, the filtering ponds be provided with along its length successively interval be fixed in top and the bottom of filtering ponds with
Filtering ponds inner space is split to the baffle of serpentine-like circulation, the baffle close to the conveyance conduit one side is fixedly arranged on filtering ponds
Top.
Using the above program, filtering ponds are spaced inner space segmentation of the fixed baffle by filtering ponds in snake along its length
Shape so that the water source flowed through in filtering ponds serpentine-like can circulate, is realized using the confined space of filtering ponds to water source
Abundant filtering so that filter effect is more preferably excellent, improves the utilization rate of space and equipment, the baffle of conveyance conduit one side
The top of filtering ponds is fixedly arranged on, so that can smoothly circulate in filtering ponds from the water source that first cryopreservation device enters, avoids making
Into the accumulation at part water source, improve the effect of filtering.
Preferably, the conveying device in filtering ponds close to whole cryopreservation device one side side wall to whole cryopreservation device diagonally downward
Connection.
Using the above program, conveying device is connected to the water source that the setting of whole cryopreservation device enables completion to filter diagonally downward
It is enough smoothly to be conveyed to whole cryopreservation device, and the water source of whole cryopreservation device can be effectively avoided countercurrently to filtering ponds.
Preferably, the baffle is mutually connected in parallel to the side wall of filtering ponds, the grid, which is prevented slipping through the net, includes position
In the lower section of conveying device and the water inlet plate and water outlet plate that are divided between the water inlet of filtering ponds and water outlet side wall and adjacent screen.
Using the above program, baffle be arranged in parallel so that in filtering ponds divided space also relatively it is parallel in order, and grid
Lattice prevent the water inlet plate and water outlet plate included at water inlet and at water outlet of slipping through the net, and good barrier effect is played at both ends and is kept away
Exempt from the loss of fiber filtering, the space inside filtering ponds can smoothly be filtered operation while barrier is carried out so that
Filtering is more abundant.
Preferably, the side ports that are arranged at conveying device close to filtering ponds are further included with by the water in first cryopreservation device
Driving source is pumped to the suction pump that processing is filtered in filtering ponds.
Using the above program, conveying device can be by the water in filtering ponds in the suction pump that a side ports of filtering ponds are set
Source is pumped to processing is filtered in filtering ponds, is matched with the automatic of water source and is spilled over to filtering ponds, more easily-controllable easy to operation.
Preferably, the side wall of the sedimentation basin offers to permeate water source to the permeable hole of soil.
Using the above program, the permeable hole that the side wall of sedimentation basin opens up enable complete in sedimentation basin the water source of precipitation through
The supply that osmosis carries out water source into soil is crossed, water source supplement, energy conservation and environmental protection automatically are carried out to soil.
In conclusion the utility model has the advantages that:
By connecting just cryopreservation device between sedimentation basin and filtering ponds and the setting of whole cryopreservation device being connected after filtering ponds, make
It obtains water source and realizes that multistage storage and processing are used, high-precision filtering need not be carried out by, which being operated for the pouring of the plants such as lawn, grasps
Make, can efficiently reduce the waste to filtering material simultaneously using water source;Whole cryopreservation device can then enable part domestic water
It is supplemented, increases the utilization rate after rainwater-collecting, more environmentally-friendly, energy saving, the setting of whole cryopreservation device can be convenient for directly depositing
Storage is being needed to be to complete filter operation can directly carry out transferring use before, without waiting for the slow progress of filtering, made
Use enhanced convenience;And the conveying check valve assembly of conveying device installation enables to the unidirectional circulation step by step in water source, avoids
The water adverse current of subsequent processing, reduces the loss of operating process equipment and the energy, and use is more economical, it is whole using efficiently,
It is energy saving.
Description of the drawings
Fig. 1 is the schematic diagram of rain water collecting system.
In figure:1st, collecting-tank;11st, collecting pipe;2nd, sedimentation basin;21st, permeable hole;3rd, filtering ponds;31st, baffle;32nd, grid is prevented
It slips through the net;321st, water inlet plate;322nd, water outlet plate;4th, first cryopreservation device;41st, suction pump;5th, whole cryopreservation device;61st, irrigation device;62nd, use
Water installations;7th, conveying device;71st, check valve assembly is conveyed.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Rain water collecting system disclosed in the present embodiment, as shown in Figure 1, including the collecting pit for being sequentially communicated connection, precipitation
Pond 2 and filtering ponds 3 are additionally provided between sedimentation basin 2 and filtering ponds 3 and are kept in for the water source purified to preliminary sedimentation
First cryopreservation device 4, and just cryopreservation device 4 be also connected be directly used in conveying irrigate irrigation device 61;Simultaneously in the defeated of filtering ponds 3
Outlet be also associated with storing the water source after filtering with whole cryopreservation device 5, be then connected in the one side of whole cryopreservation device 5
For providing the use water installations 62 of domestic water, the classification to water for irrigation and domestic water is realized.It is additionally provided with to connect
It connects and conveys the conveying device 7 at water source, and conveying device 7 is equipped with to control water source from collecting-tank 1 to whole 5 one side of cryopreservation device
The conveying check valve assembly 71 of one-way flow.
As shown in Figure 1, the water source collected in collecting pit is carried out preliminary being settled out by sedimentation basin 2 is processed so that completion is heavy
The water source of shallow lake preliminary purification processing can be carried out preliminary utilization, and carry out storage use by first cryopreservation device 4.Sedimentation basin 2
Side wall then equally offer permeable hole 21, pass through permeable hole 21 and realize that supply of the water source into soil in sedimentation basin 2 balances.
The inside of filtering ponds 3 is arranged at intervals with the baffle 31 being connected between two side, is mutually parallel between baffle 31, and
31 3 side side wall of baffle forms the stream for realizing water source in gap with being connected inside filtering ponds 3, between opposite side side wall and filtering ponds 3
It is logical, according to setting of a side along the top and bottom for being fixedly arranged on filtering ponds 3 successively between baffle 31 so that baffle 31 will filter
Serpentine-like flow cycle is split in the inner space in pond 3, realizes that water source sufficiently circulates filter operation in filtering ponds 3.Filtering
The fiber filtering for filtration treatment is filled in pond 3.The delivery outlet of filtering ponds 3 is disposed relative to the one side side of input port
Wall, and delivery outlet is also disposed on close to the one side on top sides edge so that filtering water source that is more abundant and completing filtering can
Conveying is realized by overflowing.It is being to be fixed in the baffle 31 at 3 top of filtering ponds close to input and the side wall exported, in filtering ponds 3
Be additionally provided with to carry out fiber filtering the grid of barrier Anti-lost and prevent slipping through the net 32, and grid prevent slipping through the net 32 include positioned at
The water inlet plate 321 and water outlet plate 322 below water outlet below the water inlet in filter tank prevents slipping through the net 32 by fiber by grid
Filtrate collection avoids being lost in filtering ponds 3 and the blocking to conveying device 7.Conveying device 7 is from first cryopreservation device 4 to filtering ponds 3
One side is set diagonally downward so that the water source in first cryopreservation device 4 smoothly phase filtering ponds 3 can circulate and avoid in filtering ponds 3
Water source adverse current.Conveying device 7 connects diagonally downward also along the delivery outlet of filtering ponds 3 to whole 5 one side of cryopreservation device so that mistake
Filtering the water source finished can smoothly store to whole cryopreservation device 5.
The suction pump 41 for water source to be pumped into action edge is just additionally provided between cryopreservation device 4 and filtering ponds 3, and is poured
Device 61 can also realize the power water intaking out of first cryopreservation device 4, can by the water source in suction pump 41 just cryopreservation device 4
Rational circulation distribution is realized as needed.
The input port of collecting-tank 1 is connected with the collecting pipe 11 of a multi input, by collecting pipe 11 be connected to house, road with
And underground, it realizes to many collected boths such as Drinage of house, road drainage and underground ponding.
Operating procedure and operating mode:
The multi-party collection of rainwater is realized by the collecting pipe 11 of collecting pit, and passes through conveying device 7 and is delivered in sedimentation basin 2
Preliminary purified treatment is completed, just cryopreservation device 4 is then delivered to for the water source of precipitation process, directly to provide for greening irrigation
Required water source reduces the waste of source of clean water in urban water system;
First cryopreservation device 4 can be pumped the water source part of storage by the automatic flowing of water level or the power of suction pump 41
It is delivered in filtering ponds 3, processing is filtered by filtering ponds 3;The water source for completing to filter by whole cryopreservation device 5 store standby
With so that household daily life is provided with water, avoiding the deficiency used in filtering.
This specific embodiment is only explanation to the utility model, is not the limitation to the utility model, ability
Field technique personnel can as needed make the present embodiment the modification of no creative contribution after this specification is read, but
As long as it is all protected in the right of the utility model be subject to Patent Law.
Claims (8)
1. a kind of rain water collecting system, including collecting-tank (1), sedimentation basin (2), filtering ponds (3) and for connecting and conveying water source
Conveying device (7), it is characterized in that:It is additionally provided between the sedimentation basin (2) and filtering ponds (3) and is deposited for the first of primary water storage
Device (4), the one side of the just cryopreservation device (4) are connected with to convey the irrigation device (61) of water for irrigation;The filtering ponds
(3) one side is fixedly provided with to carry out the water source after filtering the whole cryopreservation device (5) of ultimate storage, the end cryopreservation device (5)
One side is connected with to provide the use water installations (62) of domestic water;The conveying device (7) be equipped with to control water source by
Collecting-tank (1) is to the conveying check valve assembly (71) of whole cryopreservation device (5) successively one-way flow.
2. rain water collecting system according to claim 1, it is characterized in that:The input port of the collecting-tank (1) is connected with one
For collecting the collecting pipe of the multi input of Drinage of house, road drainage and underground ponding (11).
3. rain water collecting system according to claim 2, it is characterized in that:The conveying device (7) from first cryopreservation device (4) to
Filtering ponds (3) one side is set diagonally downward, and the filtering ponds (3) are installed with grid leakproof below the entrance of conveying device (7)
Net (32), the filtering ponds (3) are filled with fiber filtering for filtering in grid prevent the slipping through the net lower section of (32).
4. rain water collecting system according to claim 3, it is characterized in that:The filtering ponds (3) are provided with along its length
Interval is fixed in top and the bottom of filtering ponds (3) so that filtering ponds (3) inner space to be split to the baffle of serpentine-like circulation successively
(31), the baffle (31) close to the conveying device (7) one side is fixedly arranged on the top of filtering ponds (3).
5. rain water collecting system according to claim 4, it is characterized in that:The conveying device (7) is close in filtering ponds (3)
The one side side wall of whole cryopreservation device (5) connects diagonally downward to whole cryopreservation device (5).
6. rain water collecting system according to claim 5, it is characterized in that:The baffle (31) was mutually connected in parallel to
The side wall in filter tank (3), the grid prevent slipping through the net (32) include positioned at the lower section of conveying device (7) and be divided into filtering ponds (3)
Water inlet and water outlet side wall and adjacent screen (31) between water inlet plate (321) and water outlet plate (322).
7. rain water collecting system according to claim 1, it is characterized in that:Further include that be arranged at conveying device (7) close
One side ports of filtering ponds (3) are filtered processing pumping the head water power in first cryopreservation device (4) to filtering ponds (3) are interior
Suction pump (41).
8. rain water collecting system according to claim 7, it is characterized in that:The side wall of the sedimentation basin (2), which offers, to be used for
Water source is permeated to the permeable hole (21) of soil.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721450918.1U CN207419676U (en) | 2017-11-02 | 2017-11-02 | Rain water collecting system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721450918.1U CN207419676U (en) | 2017-11-02 | 2017-11-02 | Rain water collecting system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207419676U true CN207419676U (en) | 2018-05-29 |
Family
ID=62307044
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721450918.1U Active CN207419676U (en) | 2017-11-02 | 2017-11-02 | Rain water collecting system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207419676U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109673476A (en) * | 2018-12-27 | 2019-04-26 | 深圳康雅生态环境有限公司 | A kind of treegarden irrigation system catchmented based on pond |
CN111501901A (en) * | 2020-04-20 | 2020-08-07 | 常州市市政工程设计研究院有限公司 | Rainwater collection system and method |
-
2017
- 2017-11-02 CN CN201721450918.1U patent/CN207419676U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109673476A (en) * | 2018-12-27 | 2019-04-26 | 深圳康雅生态环境有限公司 | A kind of treegarden irrigation system catchmented based on pond |
CN109673476B (en) * | 2018-12-27 | 2021-02-05 | 深圳康雅生态环境有限公司 | Gardens irrigation system based on pond catchments |
CN111501901A (en) * | 2020-04-20 | 2020-08-07 | 常州市市政工程设计研究院有限公司 | Rainwater collection system and method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN205088050U (en) | Device is used multipurposely in saline and alkaline land bitter circulation | |
CN207419676U (en) | Rain water collecting system | |
CN218941940U (en) | Irrigation system for planting box | |
CN206267268U (en) | A kind of rainwater collecting and treating system | |
CN206189504U (en) | Multi -functional disjunctor big -arch shelter rainwater cyclic utilization system | |
CN215683634U (en) | Green water circulating device that plants of town road | |
CN208286081U (en) | A kind of treegarden irrigation system that can be water-saving | |
CN205222834U (en) | A device for hot house rainwater purifies | |
CN205776490U (en) | A kind of system for reclaiming rainwater | |
CN109275617A (en) | A kind of aquaculture water dirt separation and water circulation utilization system | |
CN203403502U (en) | Water system ecology water resource recycling system | |
CN206256509U (en) | Ecological villa Rainwater collection system | |
CN204653423U (en) | Household balcony supports kind of a cogeneration system | |
CN204475419U (en) | A kind of livestock house rain water collecting system | |
CN207775977U (en) | Novel garden landscape rain collector and water recycling system | |
CN208056383U (en) | A kind of assembled wall body structure carrying out rainwater-collecting | |
CN205756098U (en) | Stem system is irrigated in a kind of microcomputer frequency-variable formula rich water integration | |
CN205875367U (en) | Family is with ecological regulation pond of collecting of rainwater | |
CN202850096U (en) | Recycle system for surface water recycling and reusing | |
CN211111611U (en) | Farmland irrigation drainage purifier based on microbial community | |
CN202226699U (en) | Water purifier | |
CN209677125U (en) | A kind of aquaculture water dirt separation and water circulation utilization system | |
CN208747857U (en) | A kind of construction site waste water, rainwater cyclic utilization system | |
CN113060861A (en) | Gardens sewage purification circulation system | |
KR102118948B1 (en) | Multifunctional storage tank for securing field irrigation water |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |