CN103408192B - Fish pond filter system - Google Patents

Abstract

The invention discloses a fish pond filtration system, which includes a sewage discharge subsystem, a sewage precipitation subsystem, a physical filtration subsystem, a biochemical filtration subsystem, a mineral analysis subsystem, a clear water precipitation subsystem, a water surface foreign matter storage subsystem, Sterilization subsystem, oxygen-increasing aeration subsystem, sewage sedimentation subsystem, physical filtration subsystem, biochemical filtration subsystem, mineral analysis subsystem, clear water sedimentation subsystem and fish pond are arranged and connected in sequence, and the sewage drainage subsystem is connected with The dirt sedimentation subsystem, the physical filtration subsystem, the biochemical filtration subsystem, the mineral analysis subsystem and the clear water sedimentation subsystem are connected, and the fish pond is connected with the dirt sedimentation subsystem; the system of the present invention combines physics and biological technology Combined, the water in the fish pond can be circulated, filtered, purified, and oxygenated, so that the water quality can be kept clear, translucent, turbid, and odor-free for a long time. Environmental friendly.

Description

fish pond filtration system

technical field

The invention relates to the technical field of fish pond filtration, in particular to a fish pond filtration system.

Background technique

Water is the environment for fish to survive. Better water quality can reduce the occurrence of fish diseases and is more conducive to the growth and survival of fish. Especially in hot summer, freshwater aquaculture is the peak period of fish disease prevalence. It is necessary to strengthen the prevention of fish diseases and maintain the water quality of aquaculture ponds and the sanitation of the breeding environment.

After a period of fish farming in the fish pond, with the increase of suspended solids, impurities and fish excrement in the water, the fish pond water becomes turbid and opaque, the dissolved oxygen value of the fish pond water decreases, and the pH is out of balance. If the water is not changed frequently, the fish will It is easy to die. In order to prevent fish from dying, the traditional method is to replace the fish pond water and supplement it with oxygenation equipment. This not only troubles the operation, but also wastes water resources, which is not economical and environmentally friendly.

Contents of the invention

In view of the above deficiencies, the object of the present invention is to provide a fish pond filtration system with ingenious and reasonable structural design, economical and environmental protection, no need to change water for a long time and effectively guarantee water quality.

In order to achieve the above object, the technical solution provided by the present invention is: a fish pond filtration system, which includes a sewage discharge subsystem, a sewage sedimentation subsystem, a physical filtration subsystem, a biochemical filtration subsystem, a mineral analysis subsystem and a clean water The sedimentation subsystem, the dirt sedimentation subsystem, the physical filtration subsystem, the biochemical filtration subsystem, the mineral analysis subsystem, the clear water sedimentation subsystem and the fish pond are connected sequentially according to the order of arrangement, and the sewage drainage subsystem is respectively It is connected with the sewage sedimentation subsystem, the physical filtration subsystem, the biochemical filtration subsystem, the demineralization subsystem and the clear water sedimentation subsystem, and the fish pond is connected with the sewage sedimentation subsystem.

As an improvement of the present invention, the sewage discharge subsystem includes a sewage discharge bin, the center of the bottom of which is recessed downward to form a sewage collection part, and the sewage collection part is provided with an external sewage discharge pipe.

As an improvement of the present invention, the sewage sedimentation subsystem includes a sedimentation bin, the center of the bottom of the sedimentation bin is sunken downwards to form a sewage collection part, and the level of the sewage collection part is slightly higher than the bottom of the fish pond, The sewage collection part is provided with a sewage pipeline connected with the bottom of the sewage discharge bin, and the top of the side wall of the sedimentation bin near the physical filtration subsystem is provided with a gap allowing the water source in it to flow to the physical filtration subsystem.

As an improvement of the present invention, the physical filtration subsystem includes at least one physical filtration chamber and a filter brush arranged in the physical filtration chamber. The center of the bottom of the physical filtration chamber is sunken downwards to form a dirt collection part. The sewage collection part is provided with a sewage discharge pipeline connected with the bottom of the sewage discharge bin, and the side of the physical filter bin close to the sedimentation bin is provided to allow the water source flowing from the sedimentation bin to pass through the bottom of the physical filter bin. The baffle plate that flows into the physical filtration chamber. The top of the side wall of the physical filtration chamber near the biochemical filtration subsystem is provided with a gap that allows the water source in it to flow to the biochemical filtration subsystem.

As an improvement of the present invention, the biochemical filtration subsystem includes a first biochemical bin, a second biochemical bin, biochemical cotton and a bacteria house, the first biochemical bin and the second biochemical bin are arranged in sequence, and the biochemical cotton It is arranged in the first biochemical chamber, and the bacteria house is arranged in the second biochemical chamber. The center of the bottom of the second biochemical chamber is recessed downwards to form a second sewage collection part, which is provided with the second sewage collection part. A sewage pipe connected to the bottom of the sewage bin, the center of the bottom of the first biochemical bin is recessed downwards to form a first sewage collection part, and the first sewage collection part is provided with a sewage pipe connected to the bottom of the sewage discharge bin. One side of the first biochemical chamber close to the physical filtration chamber is provided with a baffle that allows the water source flowing from the physical filtration chamber to flow into the first biochemical chamber from the bottom of the first biochemical chamber. The top of the side wall of the biochemical chamber near the side of the second biochemical chamber is provided with a gap that allows the water source in it to flow to the second biochemical chamber, and the side of the second biochemical chamber near the first biochemical chamber is set There is a baffle that allows the water source flowing from the first biochemical chamber to flow into the second biochemical chamber from the bottom of the second biochemical chamber, and the side of the second biochemical chamber near the side of the mineral analysis subsystem is A gap is provided at the top of the wall to allow the water source in it to flow to the mineral decomposing subsystem.

As an improvement of the present invention, the mineral analysis subsystem includes a mineral bin and ores arranged in the mineral bin, the center of the bottom of the mineral bin is recessed downwards to form a sewage collection part, and the sewage collection part is provided with The sewage pipeline connected with the bottom of the sewage discharge bin, the side of the mineral bin close to the second biochemical bin is provided to allow the water source flowing from the second biochemical bin to flow into the mineral from the bottom of the mineral bin. The baffle in the bin, the top of the side wall of the mineral bin near the side of the clear water sedimentation subsystem is provided with a gap that allows the water source in it to flow to the clear water sedimentation subsystem.

As an improvement of the present invention, the clean water settling subsystem includes a clear water bin and a circulating pump arranged in the clear water bin, the center of the bottom of the clear water bin is recessed downwards to form a sewage collection part, and the sewage collection part is provided with The bottom of the sewage tank is connected to the sewage pipeline, and the side of the clean water tank close to the mineral tank is provided with a baffle that allows the water source flowing from the mineral tank to flow into the clean water tank from the bottom of the clean water tank , the output pipe of the circulating pump communicates with the fish pond.

As an improvement of the present invention, the fish pond includes a pool body, the center of the bottom of which is sunken downwards to form a sewage collection part, and two sides of the sewage collection part are symmetrically provided with a sewage discharge port communicating with the sewage discharge bin. Pipe, the upper end of the sewage pipe extends vertically upwards to the top of the sewage bin.

As an improvement of the present invention, it also includes a water surface foreign body storage subsystem, the water surface foreign body storage subsystem includes at least one surface water pipe, the fish pond end of the surface water pipe is arranged on the fish pond, and is located at least 30 cm below the water level of the fish pond position, the free sewage discharge end of the surface water pipe is inserted into the sewage discharge chamber, and the level of the free sewage discharge end is slightly lower than the end of the fish pond.

As an improvement of the present invention, it also includes a sterilizing subsystem and an aeration sub-system, the sterilizing subsystem includes at least one submersible germicidal lamp, the submersible germicidal lamp is arranged in the clear water tank, and the aeration The aeration subsystem includes an aerator and multiple air guide pipes. One end of the multiple air guide pipes is connected to the aerator, and the other end is respectively inserted into the corresponding sewage bin, sedimentation bin, physical filter bin, second The bottom of the first biochemical chamber, the second biochemical chamber and the mineral chamber.

The beneficial effects of the present invention are: the system of the present invention is ingenious in design, reasonable in structure, combines physics and biological technology, and can perform circulating filtration, purification and oxygenation treatment on the water in the fish pond, so that the water quality in the fish pond can be kept clear, translucent and bright for a long time. No turbidity, no odor, providing a good "living water" ecological environment for fish, effectively ensuring water quality without changing the water for a long time, greatly improving the survival rate of fish, and requiring no special care, long service life, low operation and maintenance costs , economical, energy-saving and environment-friendly, in addition, the overall structure is beautiful, and can be better integrated with the natural ecological environment, which greatly saves space and is conducive to widespread popularization and application.

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

Description of drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

detailed description

Referring to Fig. 1, a kind of fishpond filtration system provided by the present embodiment comprises a sewage discharge subsystem 1, a dirt sedimentation subsystem 2, a physical filtration subsystem 3, a biochemical filtration subsystem 4, a demineralization subsystem 5 and clear water The sedimentation subsystem 6, the dirt sedimentation subsystem 2, the physical filtration subsystem 3, the biochemical filtration subsystem 4, the mineral analysis subsystem 5, the clear water sedimentation subsystem 6 and the fish pond 7 are sequentially connected in sequence , the sewage discharge subsystem 1 is respectively connected with the sewage precipitation subsystem 2, the physical filtration subsystem 3, the biochemical filtration subsystem 4, the mineral analysis subsystem 5 and the clear water precipitation subsystem 6, and the fish pond 7 is connected with the sewage The sedimentation subsystem 2 is connected.

The sewage discharge subsystem 1 includes a sewage discharge bin, the center of the bottom of which is recessed downwards to form a sewage collection part, and the sewage collection part is provided with an external sewage discharge pipe 11 .

The dirt sedimentation subsystem 2 includes a sedimentation bin, the center of the bottom of the sedimentation bin is sunken downwards to form a sewage collection part, the level of the sewage collection part is slightly higher than the bottom of the fish pond 7, and the higher height is preferably 10cm, so that the water overflows upwards. The sewage collection part is provided with a sewage discharge pipe connected to the bottom of the sewage discharge bin, and the top of the side wall of the sedimentation bin near the side of the physical filtration subsystem 3 is provided with a water source that can flow to the physical filtration subsystem 3 gap.

The physical filtration subsystem 3 includes at least one physical filtration chamber and a filter brush 31 arranged in the physical filtration chamber. The center of the bottom of the physical filtration chamber is recessed downwards to form a dirt collection part, and the dirt collection part is provided with The bottom of the sewage discharge bin is connected to the sewage pipe, and the position near the side of the sedimentation bin in the physical filter bin is provided to allow the water source flowing from the sedimentation bin to flow into the physical filter bin from the bottom of the physical filter bin A baffle plate, the top of the side wall of the physical filter chamber near the biochemical filter subsystem 4 is provided with a gap that allows the water source in it to flow to the biochemical filter subsystem 4 . The physical filtration subsystem 3 is mainly used to block coarse-grained foreign matter such as fish feces, so that coarse-grained foreign matter such as fish feces organic matter naturally stays on the filter brush 31 .

The biochemical filtration subsystem 4 includes a first biochemical bin, a second biochemical bin, biochemical cotton 41 and a bacteria house 42, the first biochemical bin and the second biochemical bin are arranged in sequence, and the biochemical cotton 41 is arranged in the first In the biochemical bin, the bacteria house 42 is arranged in the second biochemical bin, the center of the bottom of the second biochemical bin is sunken downwards to form a second sewage collection part, and the second sewage collection part is provided with the bottom of the sewage discharge bin. The bottom center of the first biochemical bin is recessed downwards to form a first sewage collection part. The first sewage collection part is provided with a sewage discharge pipe connected to the bottom of the sewage discharge bin. The first biochemical A side position near the physical filtration chamber in the chamber is provided with a baffle that allows the water source flowing from the physical filtration chamber to flow into the first biochemical chamber from the bottom of the first biochemical chamber. The top of the side wall on one side of the second biochemical chamber is provided with a gap that allows the water source in it to flow to the second biochemical chamber, and the side of the second biochemical chamber near the first biochemical chamber is provided with a The water source flowing from the first biochemical chamber flows into the baffle plate in the second biochemical chamber from the bottom of the second biochemical chamber, and the second biochemical chamber is near the top of the side wall on the side of the demineralization subsystem 5 There is a gap that allows the water source in it to flow to the mineral decomposing subsystem 5 .

The biochemical filtration subsystem 4 is used to block foreign matter such as fish feces with a small material size in one step, and then the foreign matter such as fish feces is fermented on the filter brush 31, biochemical cotton 41 and bacteria house 42 to form a biofilm. The biofilm is well developed and biological It is easy to absorb and degrade, has a rich biological community, and constitutes a long food chain such as fungi, algae, protozoa, and metazoans. Transformation, degradation into final products CO ₂ , H ₂ O, NH ₃ -N, NOx-N, PO ₄ etc., and at the same time removed through nitrification, denitrification, assimilation and other processes, so as to achieve high purification efficiency; at the same time , the biofilm long food chain on the filter brush 31 can efficiently consume bacteria, algae, and protozoa, and generate metazoans to greatly reduce the biomass, resulting in a small amount of residual sludge, no sludge expansion, and only active sludge. 1/20 of the sludge method process, the sludge can be discharged once every 1-2 months, and the amount of sludge shedding is very small, and only simple treatment and recovery are required. The investment is low, the operating cost is low, and the service life is long. Installation , Easy maintenance.

The mineral analysis subsystem 5 includes a mineral bin and an ore 51 arranged in the mineral bin. The central position of the bottom of the mineral bin is sunken downward to form a sewage collection part. connected to the sewage pipeline, the side of the mineral bin near the second biochemical bin is provided with a baffle that allows the water source flowing from the second biochemical bin to flow into the mineral bin from the bottom of the mineral bin, The top of the side wall of the mineral bin near the clear water sedimentation subsystem 6 is provided with a gap allowing the water source in it to flow to the clear water sedimentation subsystem 6 .

Placing the ore 51 rich in minerals in the mineral bin not only has a filtering function, but also allows the water to contain better minerals, so that the fish in the water containing minerals are bright and bright, and more attractive to watch.

The clean water settling subsystem 6 includes a clear water bin and a circulating pump 61 arranged in the clear water bin. The center of the bottom of the clear water bin is recessed downward to form a sewage collection part, and the sewage collection part is provided with a bottom connected to the bottom of the sewage discharge bin. The clear water tank is provided with a baffle on the side of the mineral tank near the mineral tank to allow the water source flowing from the mineral tank to flow into the clean water tank from the bottom of the clean water tank. The circulating pump 61 The output pipe of is communicated with described fish pond 7.

Described fish pond 7 comprises pond body, and the bottom central position of this pond body is sunken downwards to form sewage collection part, and the both sides of this sewage collection part are respectively provided with a sewage discharge pipe that communicates with described sewage discharge chamber, and the upper end of this sewage discharge pipe Extend vertically upwards to the top position of the blowdown bin.

In this embodiment, the fish pond filtration system of the present invention also includes a water surface foreign body storage subsystem 8, which includes at least one surface water pipe, and the fish pond end of the surface water pipe is arranged on the fish pond 7, and is located at least below the surface water pipe. At the 30cm position of the horizontal plane of the fish pond 7, the free sewage discharge end of the surface water pipe is inserted into the sewage discharge bin, and the horizontal height of the free sewage discharge end is slightly lower than the end of the fish pond. A water surface foreign matter storage subsystem 8 is added, which can effectively store all floating foreign matter such as dust and tree leaves floating on the water surface into the sedimentation bin.

In this embodiment, the fish pond filtration system of the present invention further includes a sterilizing subsystem 9, and the sterilizing subsystem 9 includes at least one submersible sterilizing lamp, and the submersible sterilizing lamp is arranged in the clean water tank. A sterilizing sub-system 9 is added to protect the living environment of the fish, which can better destroy the growth of microalgae in the water, have a better bactericidal effect, and keep the water quality crystal clear.

In the present embodiment, the fish pond filtration system of the present invention also includes an oxygen-increasing aeration subsystem 10, and the oxygen-increasing aeration subsystem 10 includes an aerator and a plurality of air guide pipes, and one end of a plurality of air guide pipes is connected to the aeration chamber. The oxygen machine is connected, and the other end is respectively inserted into the bottom of the corresponding sewage bin, sedimentation bin, physical filter bin, first biochemical bin, second biochemical bin and mineral bin. The oxygen-enhancing aeration subsystem 10 can effectively increase the amount of dissolved oxygen in water, allowing nitrifying bacteria to reproduce better, nitrify and denitrify better, and decompose organic matter. The entire biochemical system is faster and more stable, and the cultured fish does not lack oxygen and maintains high efficiency. Ecological chain.

The system of the present invention is ingenious in design and reasonable in structure, combines physics and biological technology, and can perform circulating filtration, purification and oxygenation treatment on the water in the fish pond 7, so that the water quality in the fish pond 7 can be kept clear, translucent, turbid, and odorless for a long time It provides fish with a good "living water" ecological environment. It can effectively guarantee the water quality without changing the water for a long time, greatly improve the survival rate of fish, and does not require special care. It has a long service life, low operation and maintenance costs, and is economical, energy-saving and environmentally friendly. , In addition, the overall structure is beautiful, and can be well integrated with the natural ecological environment, which greatly saves space and is conducive to wide application.

According to the disclosure and teaching of the above-mentioned specification, those skilled in the art to which the present invention belongs can also make changes and modifications to the above-mentioned embodiment. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should also fall within the protection scope of the claims of the present invention. In addition, although some specific terms are used in this specification, these terms are only for convenience of description and do not constitute any limitation to the present invention. The use of other systems that are the same or similar to them are within the protection scope of the present invention.

Claims (6)

1. a fish pond filtration system, is characterized in that, it comprises blowdown subsystem, dirt sedimentation subsystem, physical filtration subsystem, biochemical filtration subsystem, demineralization subsystem and clear water precipitation subsystem, described dirt The sedimentation subsystem, the physical filtration subsystem, the biochemical filtration subsystem, the mineral analysis subsystem, the clear water sedimentation subsystem and the fish pond are connected in sequence according to the order in which they are arranged. The filtration subsystem, the biochemical filtration subsystem, the demineralization subsystem and the clear water sedimentation subsystem are connected, and the fish pond is connected with the dirt sedimentation subsystem; The sewage discharge subsystem includes a sewage discharge bin, the central position of the bottom of the sewage discharge bin is recessed downwards to form a sewage collection part, and the sewage collection part is provided with an external sewage discharge pipe; The dirt sedimentation subsystem includes a sedimentation bin. The center of the bottom of the sedimentation bin is recessed downwards to form a sewage collection part. The level of the sewage collection part is slightly higher than the bottom of the fish pond. The sewage pipeline connected to the bottom of the sewage discharge bin, the top of the side wall of the sedimentation bin near the physical filtration subsystem is provided with a gap that allows the water source in it to flow to the physical filtration subsystem; The physical filtration subsystem includes at least one physical filtration chamber and a filter brush arranged in the physical filtration chamber. The center of the bottom of the physical filtration chamber is recessed downwards to form a dirt collection part, and the dirt collection part is provided with the The bottom of the sewage bin is connected to the sewage pipe, and the side of the physical filter bin near the settling bin is provided with a baffle that allows the water source flowing from the settling bin to flow into the physical filter bin from the bottom of the physical filter bin plate, the top of the side wall of the physical filter chamber near the side of the biochemical filter subsystem is provided with a gap that allows the water source in it to flow to the biochemical filter subsystem; The biochemical filtration subsystem includes a first biochemical bin, a second biochemical bin, biochemical cotton and a bacteria house, the first biochemical bin and the second biochemical bin are arranged in sequence, the biochemical cotton is arranged in the first biochemical bin, The bacteria house is arranged in the second biochemical bin, the center of the bottom of the second biochemical bin is sunken downwards to form a second sewage collection part, and the second sewage collection part is provided with a sewage pipe connected to the bottom of the sewage discharge bin , the center of the bottom of the first biochemical bin is sunken downwards to form a first sewage collection part, and the first sewage collection part is provided with a sewage discharge pipe communicating with the bottom of the sewage discharge bin. One side of the physical filter chamber is provided with a baffle that allows the water source flowing from the physical filter chamber to flow into the first biochemical chamber from the bottom of the first biochemical chamber. The first biochemical chamber is close to the second biochemical chamber. The top of the side wall on one side of the chamber is provided with a gap that allows the water source in it to flow to the second biochemical chamber. The water source flowing over flows into the baffle plate in the second biochemical chamber from the bottom of the second biochemical chamber, and the top of the side wall of the second biochemical chamber near the side of the mineral decomposition subsystem is provided with a The water source flows to the opening of the demineralization subsystem. 2. The fish pond filtration system according to claim 1, characterized in that: the mineral analysis subsystem includes a mineral bin and ores arranged in the mineral bin, and the bottom center of the mineral bin is sunken downward to form a set Sewage part, the sewage collecting part is provided with a sewage discharge pipe connected with the bottom of the sewage discharge bin, and the side of the mineral bin near the second biochemical bin is provided with a water source flowing from the second biochemical bin The bottom of the mineral bin flows into the baffle in the mineral bin, and the top of the side wall of the mineral bin near the side of the clear water sedimentation subsystem is provided with a gap that allows the water source in it to flow to the clear water sedimentation subsystem. 3. The fish pond filtration system according to claim 2, characterized in that: the clear water sedimentation subsystem includes a clear water bin and a circulation pump arranged in the clear water bin, the center of the bottom of the clear water bin is sunken downward to form a sewage collection The sewage collecting part is provided with a sewage discharge pipe connected with the bottom of the sewage discharge bin, and the side of the clear water bin close to the mineral bin is provided to allow the water source flowing from the mineral bin to flow from the clean water bin The bottom flows into the baffle plate in the clear water tank, and the output pipe of the circulation pump communicates with the fish pond. 4. The fish pond filtration system according to claim 3, characterized in that: the fish pond comprises a pool body, the center of the bottom of the pool body is sunken downward to form a sewage collection part, and two sides of the sewage collection part are respectively provided with a The sewage discharge pipe connected with the sewage discharge bin, the upper end of the sewage discharge pipe extends vertically upward to the top position of the sewage discharge bin. 5. The fish pond filtration system according to claim 4, characterized in that: it also includes a water surface foreign body storage subsystem, the water surface foreign body storage subsystem includes at least one surface water pipe, the fish pond end of the surface water pipe is arranged on the fish pond, and Located at least 30cm below the level of the fish pond, the free sewage end of the surface water pipe is inserted into the sewage discharge bin, and the level of the free sewage end is slightly lower than the end of the fish pond. 6. The fish pond filtration system according to claim 5, characterized in that: it also includes a sterilizing subsystem and an oxygen-increasing aeration subsystem, and the sterilizing subsystem includes at least one submersible germicidal lamp, which is arranged on the In the clear water tank, the aeration subsystem includes an aerator and a plurality of air guide pipes, one end of the air guide pipes is connected to the aerator, and the other ends are respectively inserted into the corresponding sewage bins , the sedimentation bin, the physical filter bin, the first biochemical bin, the second biochemical bin and the bottom of the mineral bin.