CN203419821U - Fishpond filtering system - Google Patents
Fishpond filtering system Download PDFInfo
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- CN203419821U CN203419821U CN201320485755.6U CN201320485755U CN203419821U CN 203419821 U CN203419821 U CN 203419821U CN 201320485755 U CN201320485755 U CN 201320485755U CN 203419821 U CN203419821 U CN 203419821U
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Abstract
The utility model discloses a fishpond filtering system which comprises a pollution discharging subsystem, a dirt deposition subsystem, a physical filtering subsystem, a bio-chemical filtering subsystem, a mineral substance resolution subsystem, a clean water deposition subsystem, a water surface foreign matter accommodating subsystem, a sterilizing subsystem, and an oxygen enriched aeration subsystem, wherein the dirt deposition subsystem, the physical filtering subsystem, the bio-chemical filtering subsystem, the mineral substance resolution subsystem and the clean water deposition subsystem are sequentially arrayed and connected with a fishpond; the pollution discharging subsystem is respectively connected with the dirt deposition subsystem, the physical filtering subsystem, the bio-chemical filtering subsystem, the mineral substance resolution subsystem and the clean water deposition subsystem; the fishpond is connected with the dirt deposition subsystem. The fishpond filtering system provided by the utility model combines the technologies of physics and biology, can be used for circulating filtration, purification and oxygenation treatments to water inside the fishpond, and enables water to keep clear, bright and odourless for a long time, water replacement is not required for a long time, water quality can be effectively ensured, special caring is not required, and the system is economic and environment friendly.
Description
Technical field
The utility model relates to fishpond filtration art, is specifically related to a kind of fish pond filter system.
Background technology
Water is the environment of medium in which fish live, and water quality can reduce the generation of fish disease preferably, is more conducive to growth and the existence of fish.Especially the aquaculture of torridity summer fresh water is the peak period that fish disease is popular, must strengthen fish disease prevention work, keeps the water quality of aquaculture pond and the health of breeding environment.
Fishpond is after for some time of breeding fish, and along with the excremental increase of suspended substance, impurity and fish in water, it is muddy, opaque that fishpond water becomes, and the oxygen dissolving value of fishpond water reduces, potential of hydrogen imbalance, if often do not change water, fish is easy to death.Dead in order to prevent fish, traditional way is to change fishpond water, and auxiliaryly has an oxygenating device.So not only troublesome poeration, and waste water resource, uneconomical, not environmental protection.
Utility model content
For above-mentioned deficiency, the purpose of this utility model is, provides a kind of structure design ingenious, reasonable, and economy, environmental protection need not be changed for a long time water and effectively be guaranteed the fish pond filter system of water quality.
For achieving the above object, technical scheme provided by the utility model is: a kind of fish pond filter system, it comprises blowdown subsystem, deposition of dirt subsystem, physical filtering subsystem, biochemistry filtered subsystem, mineral substance is analysed and is separated subsystem and clear water precipitation subsystem, described deposition of dirt subsystem, physical filtering subsystem, biochemistry filtered subsystem, mineral substance is analysed solution subsystem, clear water precipitation subsystem is connected according to the sequencing of arranging successively with fishpond, described blowdown subsystem respectively with deposition of dirt subsystem, physical filtering subsystem, biochemistry filtered subsystem, mineral substance is analysed solution subsystem and is connected with clear water precipitation subsystem, fishpond is connected with described deposition of dirt subsystem.
As a kind of improvement of the present utility model, described blowdown subsystem comprises dirt discharging bin, and the bottom centre position of this dirt discharging bin is recessed to form the dirty portion of collection downwards, and this collects dirty portion and is provided with outer blow-off pipe.
As a kind of improvement of the present utility model, described deposition of dirt subsystem comprises settling banker, the bottom centre position of this settling banker is recessed to form the dirty portion of collection downwards, this collects the level height of dirty portion a little more than the bottom in described fishpond, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, and the top side wall that the nearly described physical filtering subsystem of this settling banker is unified side is provided with one can allow its interior water source flow to the breach of this physical filtering subsystem.
As a kind of improvement of the present utility model, described physical filtering subsystem comprises at least one physical filtering storehouse and is arranged on the filtration hairbrush in this physical filtering storehouse, the bottom centre position in this physical filtering storehouse is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this physical filtering storehouse, a side position of nearly described settling banker is provided with and allows the water source flowing through from this settling banker flow into the baffle plate in this physical filtering storehouse from the bottom in described physical filtering storehouse, the top side wall that the nearly described biochemistry filtered subsystem in this physical filtering storehouse is unified side is provided with one can allow its interior water source flow to the breach of this biochemistry filtered subsystem.
As a kind of improvement of the present utility model, described biochemistry filtered subsystem comprises the first biochemical bin, the second biochemical bin, biochemical cotton and bacterium room, described the first biochemical bin and the second biochemical bin are arranged in order setting, described biochemical cotton is arranged in the first biochemical bin, described bacterium room is arranged in the second biochemical bin, the bottom centre position of this second biochemical bin is recessed to form the second collection dirt portion downwards, this dirty portion of the second collection is provided with the blow-off line being connected with described dirt discharging bin bottom, the bottom centre position of this first biochemical bin is recessed to form the first collection dirt portion downwards, this dirty portion of the first collection is provided with the blow-off line being connected with described dirt discharging bin bottom, in described the first biochemical bin, a side position in nearly described physical filtering storehouse is provided with and allows the water source flowing through from this physical filtering storehouse flow into the baffle plate in this first biochemical bin from the bottom of described the first biochemical bin, the top side wall of nearly described the second biochemical bin one side of this first biochemical bin is provided with one can allow its interior water source flow to the breach of this second biochemical bin, in described the second biochemical bin, a side position of nearly described the first biochemical bin is provided with and allows the water source flowing through from this first biochemical bin flow into the baffle plate in this second biochemical bin from the bottom of described the second biochemical bin, the nearly described mineral substance of this second biochemical bin is analysed and is separated subsystem and unify the top side wall of side and be provided with one and can allow in it water source flow to this mineral substance to analyse the breach of separating subsystem.
As a kind of improvement of the present utility model, described mineral substance is analysed solution subsystem and is comprised mineral bin and be arranged on the ore in this mineral bin, the bottom centre position of this mineral bin is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this mineral bin, a side position of nearly described the second biochemical bin is provided with and allows the water source flowing through from this second biochemical bin flow into the baffle plate in this mineral bin from the bottom of described mineral bin, the top side wall of nearly described clear water precipitation subsystem one side of this mineral bin is provided with one can allow its interior water source flow to the breach of this clear water precipitation subsystem.
As a kind of improvement of the present utility model, described clear water precipitation subsystem comprises clear water storehouse and is arranged on the recycle pump in this clear water storehouse, the bottom centre position in this clear water storehouse is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this clear water storehouse, a side position of nearly described mineral bin is provided with and allows the water source flowing through from this mineral bin flow into the baffle plate in this clear water storehouse from the bottom in described clear water storehouse, and the output tube of described recycle pump is connected with described fishpond.
As a kind of improvement of the present utility model, described fishpond comprises pond body, the bottom centre position of this pond body is recessed to form the dirty portion of collection downwards, this zygomorphy that collects dirty portion is respectively provided with a blow-off line being connected with described dirt discharging bin, and the upper end of this blow-off line extends to the tip position of dirt discharging bin vertically upward.
As a kind of improvement of the present utility model, it also comprises that water surface foreign matter takes in subsystem, this water surface foreign matter is taken in subsystem and is comprised at least one water pipe, the fishpond end of this face water pipe is arranged on fishpond, and be positioned at least the horizontal plane 30cm position lower than this fishpond, the free blowdown end of this face water pipe inserts described dirt discharging bin, and the level height of this free blowdown end is a little less than described fishpond end.
As a kind of improvement of the present utility model, it also comprises sterilization subsystem and oxygenation aeration subsystem, described sterilization subsystem comprises at least one diving germicidal lamp, this diving germicidal lamp is arranged in described clear water storehouse, described oxygenation aeration subsystem comprises oxygenating machine and many air skirts, one end of many air skirts is connected with described oxygenating machine, and the other end inserts respectively the bottom of dirt discharging bin, settling banker, physical filtering storehouse, the first biochemical bin, the second biochemical bin and mineral bin corresponding thereto.
The beneficial effects of the utility model are: the utility model system design is ingenious, rational in infrastructure, physics is combined with biology techniques, can carry out circulating filtration to the water in fishpond, purify and oxygenation processing, make water quality long-term maintenance in fishpond limpid, bright, not muddy, odorless, for fish provides the ecotope of good " running water ", water need not be changed for a long time and also water quality can be effectively guaranteed, greatly improve fish surviving rate, and nurse without special messenger, long service life, operation, maintenance cost is low, economical, energy-conserving and environment-protective, in addition, one-piece construction is attractive in appearance, can be better and natural ecological environment combine together, saved greatly space, be beneficial to wide popularization and application.
Below in conjunction with accompanying drawing and embodiment, the utility model is further illustrated.
Accompanying drawing explanation
Fig. 1 is one-piece construction schematic diagram of the present utility model.
Embodiment
Referring to Fig. 1, a kind of fish pond filter system that the present embodiment provides, it comprises blowdown subsystem 1, deposition of dirt subsystem 2, physical filtering subsystem 3, biochemistry filtered subsystem 4, mineral substance is analysed and is separated subsystem 5 and clear water precipitation subsystem 6, described deposition of dirt subsystem 2, physical filtering subsystem 3, biochemistry filtered subsystem 4, mineral substance is analysed and is separated subsystem 5, clear water precipitation subsystem 6 is connected according to the sequencing of arranging successively with fishpond 7, described blowdown subsystem 1 respectively with deposition of dirt subsystem 2, physical filtering subsystem 3, biochemistry filtered subsystem 4, mineral substance is analysed solution subsystem 5 and is connected with clear water precipitation subsystem 6, fishpond 7 is connected with described deposition of dirt subsystem 2.
Described blowdown subsystem 1 comprises dirt discharging bin, and the bottom centre position of this dirt discharging bin is recessed to form the dirty portion of collection downwards, and this collects dirty portion and is provided with outer blow-off pipe 11.
Described deposition of dirt subsystem 2 comprises settling banker, and the bottom centre position of this settling banker is recessed to form the dirty portion of collection downwards, and this collects the level height of dirty portion a little more than the bottom in described fishpond 7, and the height preferentially exceeding is 10cm, makes water overflow up.This collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, and the top side wall of nearly described physical filtering subsystem 3 one sides of this settling banker is provided with one can allow its interior water source flow to the breach of this physical filtering subsystem 3.
Described physical filtering subsystem 3 comprises at least one physical filtering storehouse and is arranged on the filtration hairbrush 31 in this physical filtering storehouse, the bottom centre position in this physical filtering storehouse is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this physical filtering storehouse, a side position of nearly described settling banker is provided with and allows the water source flowing through from this settling banker flow into the baffle plate in this physical filtering storehouse from the bottom in described physical filtering storehouse, the top side wall of nearly described biochemistry filtered subsystem 4 one sides in this physical filtering storehouse is provided with one can allow its interior water source flow to the breach of this biochemistry filtered subsystem 4.Physical filtering subsystem 3 is mainly used for intercepting the coarse grain shape foreign matters such as fish dung, allows the coarse grain shape foreign matters such as fish dung organism naturally rest on and filters on hairbrush 31.
Described biochemistry filtered subsystem 4 comprises the first biochemical bin, the second biochemical bin, biochemical cotton 41 and bacterium room 42, described the first biochemical bin and the second biochemical bin are arranged in order setting, described biochemical cotton 41 are arranged in the first biochemical bin, described bacterium room 42 is arranged in the second biochemical bin, the bottom centre position of this second biochemical bin is recessed to form the second collection dirt portion downwards, this dirty portion of the second collection is provided with the blow-off line being connected with described dirt discharging bin bottom, the bottom centre position of this first biochemical bin is recessed to form the first collection dirt portion downwards, this dirty portion of the first collection is provided with the blow-off line being connected with described dirt discharging bin bottom, in described the first biochemical bin, a side position in nearly described physical filtering storehouse is provided with and allows the water source flowing through from this physical filtering storehouse flow into the baffle plate in this first biochemical bin from the bottom of described the first biochemical bin, the top side wall of nearly described the second biochemical bin one side of this first biochemical bin is provided with one can allow its interior water source flow to the breach of this second biochemical bin, in described the second biochemical bin, a side position of nearly described the first biochemical bin is provided with and allows the water source flowing through from this first biochemical bin flow into the baffle plate in this second biochemical bin from the bottom of described the second biochemical bin, the nearly described mineral substance of this second biochemical bin is analysed the top side wall of separating subsystem 5 one sides and is provided with one and can allows in it water source flow to this mineral substance to analyse the breach of separating subsystem 5.
Biochemistry filtered subsystem 4 was used for a step and intercepted the less foreign matters such as fish dung of surmising, subsequently the foreign matter such as fish dung filter hairbrush 31, biochemical cotton 41 and 42 top fermentations of bacterium room form microbial films, microbial film physically well develops, biological easily absorption and degraded, there is abundant coenosis, form mushroom, algae, protozoon, the isometric food chain of metazoan, in aquaculture water contained organism and nutrition etc. by with the contacting of numerous food chains of microbial film, there is migration and conversion, be degraded into final product CO
2, H
2o, NH
3-N, NOx-N, PO
4deng, by processes such as nitrated, denitrification, assimilations, be removed again, thereby reach very high purification efficiency simultaneously; Meanwhile, the long food chain of microbial film filtering on hairbrush 31 can consume bacterium, algae, protozoon efficiently, generation metazoan and biomass is significantly reduced, cause surplus sludge volume seldom, can sludge bulking, be only 1/20 of Activated Sludge Process, can within 1-2 month, discharge mud once, and mud comes off quantity seldom, only need simple process and recover to use, less investment, working cost is low, long service life, installation, easy to maintenance.
Described mineral substance is analysed solution subsystem 5 and is comprised mineral bin and be arranged on the ore 51 in this mineral bin, the bottom centre position of this mineral bin is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this mineral bin, a side position of nearly described the second biochemical bin is provided with and allows the water source flowing through from this second biochemical bin flow into the baffle plate in this mineral bin from the bottom of described mineral bin, and the top side wall of nearly described clear water precipitation subsystem 6 one sides of this mineral bin is provided with one can allow its interior water source flow to the breach of this clear water precipitation subsystem 6.
Containing the ore 51 that enriches mineral substance, be placed in mineral bin, not only have filtering function, and can allow in water and contain better mineral substance, make fish bright in colour beautiful in containing the water of mineral substance, more must be in viewing and admiring.
Described clear water precipitation subsystem 6 comprises clear water storehouse and is arranged on the recycle pump 61 in this clear water storehouse, the bottom centre position in this clear water storehouse is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this clear water storehouse, a side position of nearly described mineral bin is provided with and allows the water source flowing through from this mineral bin flow into the baffle plate in this clear water storehouse from the bottom in described clear water storehouse, and the output tube of described recycle pump 61 is connected with described fishpond 7.
Described fishpond 7 comprises pond body, the bottom centre position of this pond body is recessed to form the dirty portion of collection downwards, this zygomorphy that collects dirty portion is respectively provided with a blow-off line being connected with described dirt discharging bin, and the upper end of this blow-off line extends to the tip position of dirt discharging bin vertically upward.
In the present embodiment, the utility model fish pond filter system also comprises that water surface foreign matter takes in subsystem 8, this water surface foreign matter is taken in subsystem 8 and is comprised at least one water pipe, the fishpond end of this face water pipe is arranged on fishpond 7, and be positioned at least the horizontal plane 30cm position lower than this fishpond 7, the free blowdown end of this face water pipe inserts described dirt discharging bin, and the level height of this free blowdown end is a little less than described fishpond end.Have additional water surface foreign matter and take in subsystem 8, can effectively all showy foreign matters of dust leaf of the water surface that floats be taken in to settling banker.
In the present embodiment, the utility model fish pond filter system also comprises sterilization subsystem 9, and this sterilization subsystem 9 comprises at least one diving germicidal lamp, and this diving germicidal lamp is arranged in described clear water storehouse.Have additional sterilization subsystem 9, for the living environment of fish adds a pipe protection, can better destroy the growth of micro-algae material in water, there is good sterilization effect, keep water quality so clear that you can see the bottom.
In the present embodiment, the utility model fish pond filter system also comprises oxygenation aeration subsystem 10, this oxygenation aeration subsystem 10 comprises oxygenating machine and many air skirts, one end of many air skirts is connected with described oxygenating machine, and the other end inserts respectively the bottom of dirt discharging bin, settling banker, physical filtering storehouse, the first biochemical bin, the second biochemical bin and mineral bin corresponding thereto.Oxygenation aeration subsystem 10 can effectively increase dissolved oxygen in water, allows nitrobacteria better breed, better nitration denitrification, decomposing organic matter, whole biochemical system more fast, more stable, cultivation fish is anoxic not, keeps efficient ecological chain.
The utility model system design is ingenious, rational in infrastructure, physics is combined with biology techniques, can carry out circulating filtration to the water in fishpond 7, purify and oxygenation processing, make 7 water quality long-term maintenance in fishpond limpid, bright, not muddy, odorless, for fish provides the ecotope of good " running water ", water need not be changed for a long time and also water quality can be effectively guaranteed, greatly improve fish surviving rate, and nurse without special messenger, long service life, operation, maintenance cost is low, economical, energy-conserving and environment-protective, in addition, one-piece construction is attractive in appearance, can be better and natural ecological environment combine together, saved greatly space, be beneficial to wide popularization and application.
The announcement of book and instruction according to the above description, the utility model those skilled in the art can also change and revise above-mentioned embodiment.Therefore, the utility model is not limited to embodiment disclosed and described above, to modifications and changes more of the present utility model, also should fall in the protection domain of claim of the present utility model.In addition,, although used some specific terms in this specification sheets, these terms just for convenience of description, do not form any restriction to the utility model, adopt other system same or analogous with it, all in the utility model protection domain.
Claims (10)
1. a fish pond filter system, it is characterized in that, it comprises blowdown subsystem, deposition of dirt subsystem, physical filtering subsystem, biochemistry filtered subsystem, mineral substance is analysed and is separated subsystem and clear water precipitation subsystem, described deposition of dirt subsystem, physical filtering subsystem, biochemistry filtered subsystem, mineral substance is analysed solution subsystem, clear water precipitation subsystem is connected according to the sequencing of arranging successively with fishpond, described blowdown subsystem respectively with deposition of dirt subsystem, physical filtering subsystem, biochemistry filtered subsystem, mineral substance is analysed solution subsystem and is connected with clear water precipitation subsystem, fishpond is connected with described deposition of dirt subsystem.
2. fish pond filter system according to claim 1, is characterized in that: described blowdown subsystem comprises dirt discharging bin, and the bottom centre position of this dirt discharging bin is recessed to form the dirty portion of collection downwards, and this collects dirty portion and is provided with outer blow-off pipe.
3. fish pond filter system according to claim 2, it is characterized in that: described deposition of dirt subsystem comprises settling banker, the bottom centre position of this settling banker is recessed to form the dirty portion of collection downwards, this collects the level height of dirty portion a little more than the bottom in described fishpond, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, and the top side wall that the nearly described physical filtering subsystem of this settling banker is unified side is provided with one can allow its interior water source flow to the breach of this physical filtering subsystem.
4. fish pond filter system according to claim 3, it is characterized in that: described physical filtering subsystem comprises at least one physical filtering storehouse and is arranged on the filtration hairbrush in this physical filtering storehouse, the bottom centre position in this physical filtering storehouse is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this physical filtering storehouse, a side position of nearly described settling banker is provided with and allows the water source flowing through from this settling banker flow into the baffle plate in this physical filtering storehouse from the bottom in described physical filtering storehouse, the top side wall that the nearly described biochemistry filtered subsystem in this physical filtering storehouse is unified side is provided with one can allow its interior water source flow to the breach of this biochemistry filtered subsystem.
5. fish pond filter system according to claim 4, it is characterized in that: described biochemistry filtered subsystem comprises the first biochemical bin, the second biochemical bin, biochemical cotton and bacterium room, described the first biochemical bin and the second biochemical bin are arranged in order setting, described biochemical cotton is arranged in the first biochemical bin, described bacterium room is arranged in the second biochemical bin, the bottom centre position of this second biochemical bin is recessed to form the second collection dirt portion downwards, this dirty portion of the second collection is provided with the blow-off line being connected with described dirt discharging bin bottom, the bottom centre position of this first biochemical bin is recessed to form the first collection dirt portion downwards, this dirty portion of the first collection is provided with the blow-off line being connected with described dirt discharging bin bottom, in described the first biochemical bin, a side position in nearly described physical filtering storehouse is provided with and allows the water source flowing through from this physical filtering storehouse flow into the baffle plate in this first biochemical bin from the bottom of described the first biochemical bin, the top side wall of nearly described the second biochemical bin one side of this first biochemical bin is provided with one can allow its interior water source flow to the breach of this second biochemical bin, in described the second biochemical bin, a side position of nearly described the first biochemical bin is provided with and allows the water source flowing through from this first biochemical bin flow into the baffle plate in this second biochemical bin from the bottom of described the second biochemical bin, the nearly described mineral substance of this second biochemical bin is analysed and is separated subsystem and unify the top side wall of side and be provided with one and can allow in it water source flow to this mineral substance to analyse the breach of separating subsystem.
6. fish pond filter system according to claim 5, it is characterized in that: described mineral substance is analysed solution subsystem and comprised mineral bin and be arranged on the ore in this mineral bin, the bottom centre position of this mineral bin is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this mineral bin, a side position of nearly described the second biochemical bin is provided with and allows the water source flowing through from this second biochemical bin flow into the baffle plate in this mineral bin from the bottom of described mineral bin, the top side wall of nearly described clear water precipitation subsystem one side of this mineral bin is provided with one can allow its interior water source flow to the breach of this clear water precipitation subsystem.
7. fish pond filter system according to claim 6, it is characterized in that: described clear water precipitation subsystem comprises clear water storehouse and is arranged on the recycle pump in this clear water storehouse, the bottom centre position in this clear water storehouse is recessed to form the dirty portion of collection downwards, this collects dirty portion and is provided with the blow-off line being connected with described dirt discharging bin bottom, in this clear water storehouse, a side position of nearly described mineral bin is provided with and allows the water source flowing through from this mineral bin flow into the baffle plate in this clear water storehouse from the bottom in described clear water storehouse, and the output tube of described recycle pump is connected with described fishpond.
8. fish pond filter system according to claim 7, it is characterized in that: described fishpond comprises pond body, the bottom centre position of this pond body is recessed to form the dirty portion of collection downwards, this zygomorphy that collects dirty portion is respectively provided with a blow-off line being connected with described dirt discharging bin, and the upper end of this blow-off line extends to the tip position of dirt discharging bin vertically upward.
9. fish pond filter system according to claim 8, it is characterized in that: it also comprises that water surface foreign matter takes in subsystem, this water surface foreign matter is taken in subsystem and is comprised at least one water pipe, the fishpond end of this face water pipe is arranged on fishpond, and be positioned at least the horizontal plane 30cm position lower than this fishpond, the free blowdown end of this face water pipe inserts described dirt discharging bin, and the level height of this free blowdown end is a little less than described fishpond end.
10. fish pond filter system according to claim 9, it is characterized in that: it also comprises sterilization subsystem and oxygenation aeration subsystem, described sterilization subsystem comprises at least one diving germicidal lamp, this diving germicidal lamp is arranged in described clear water storehouse, described oxygenation aeration subsystem comprises oxygenating machine and many air skirts, one end of many air skirts is connected with described oxygenating machine, and the other end inserts respectively the bottom of dirt discharging bin, settling banker, physical filtering storehouse, the first biochemical bin, the second biochemical bin and mineral bin corresponding thereto.
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CN201320485755.6U CN203419821U (en) | 2013-08-09 | 2013-08-09 | Fishpond filtering system |
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CN201320485755.6U CN203419821U (en) | 2013-08-09 | 2013-08-09 | Fishpond filtering system |
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103408192A (en) * | 2013-08-09 | 2013-11-27 | 刘莉莉 | Fish pond filtering system |
CN104798718A (en) * | 2015-04-20 | 2015-07-29 | 李泽诚 | Artificial hatching culture pond for Schizothorax taliensis |
CN105941263A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Outdoor fresh water circulation aquiculture device |
CN105941257A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Pond water circulation aquiculture facility |
CN105941264A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Pond fresh water aquaculture device |
CN105941261A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Efficient water circulation aquaculture device |
CN105961274A (en) * | 2016-04-30 | 2016-09-28 | 中山市顺羽机电科技有限公司 | Fishery ecological high-efficiency aquaculture facility |
CN105961271A (en) * | 2016-04-30 | 2016-09-28 | 中山市顺羽机电科技有限公司 | High-yield water circulating pond cultivation facility |
CN107494391A (en) * | 2017-09-28 | 2017-12-22 | 临汾市尧都区云盛水产养殖有限公司 | Flowing water culture Waste water recycling system |
CN109392815A (en) * | 2018-10-23 | 2019-03-01 | 齐颖 | Fish pond purification device |
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2013
- 2013-08-09 CN CN201320485755.6U patent/CN203419821U/en not_active Expired - Lifetime
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103408192A (en) * | 2013-08-09 | 2013-11-27 | 刘莉莉 | Fish pond filtering system |
CN103408192B (en) * | 2013-08-09 | 2017-07-28 | 刘莉莉 | Fish pond filter system |
CN104798718A (en) * | 2015-04-20 | 2015-07-29 | 李泽诚 | Artificial hatching culture pond for Schizothorax taliensis |
CN105941263A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Outdoor fresh water circulation aquiculture device |
CN105941257A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Pond water circulation aquiculture facility |
CN105941264A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Pond fresh water aquaculture device |
CN105941261A (en) * | 2016-04-30 | 2016-09-21 | 中山市顺羽机电科技有限公司 | Efficient water circulation aquaculture device |
CN105961274A (en) * | 2016-04-30 | 2016-09-28 | 中山市顺羽机电科技有限公司 | Fishery ecological high-efficiency aquaculture facility |
CN105961271A (en) * | 2016-04-30 | 2016-09-28 | 中山市顺羽机电科技有限公司 | High-yield water circulating pond cultivation facility |
CN107494391A (en) * | 2017-09-28 | 2017-12-22 | 临汾市尧都区云盛水产养殖有限公司 | Flowing water culture Waste water recycling system |
CN109392815A (en) * | 2018-10-23 | 2019-03-01 | 齐颖 | Fish pond purification device |
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