CN210987756U - Fish tank purification system - Google Patents

Abstract

The utility model provides a fish bowl clean system is applicable to the fish bowl cultivation water circulation system of all fishes, including sediment filter, floating filter, bacteria culture ware, quality of water modulator, self priming pump and pipeline, this fish bowl clean system need not artifical washing and strains a section of thick bamboo, trades water, regularly changes the filter media, can let simple the light good fish of raising of inexperienced people again, need not to spend the quality of water of maintaining the fish bowl for a long time, lets more people possess the enjoyment of raising the fish.

Description

Fish tank purification system

Technical Field

The utility model relates to a fish bowl accessory field, concretely relates to fish bowl clean system.

Background

The fish tank is also called as an aquarium, an aquarium tank, a fish pond and the like, the water environment of the prior fish tank is an internal circulation system, and particularly, excrement and garbage of fish are adsorbed on a filtering device through the filtering device, so that the problem of water quality pollution of the fish tank is solved to a certain extent.

The existing fish bowl filter equipment in existing market mainly divide into 4 big types, is the top respectively and strains (drip filtration), the side is strained (the back is strained), end and is strained and the filter vat, and these 4 types of main functions of filtering are all through: the filter cotton isolates the fish manure to ensure that the water body becomes clear, then nitrifying bacteria are cultivated through a large number of ceramic rings (bacteria rooms) to convert ammonia degraded by the fish manure into nitrite and then into nitrate, and finally, toxic elements in the water body are diluted through periodical water quantity replacement to maintain the balance of the water body.

For fish breeders, the biggest pain points in the prior art are: the filter cotton needs to be cleaned or replaced regularly to reduce ammonia degraded by the fish manure, otherwise more or more huge nitrification systems are needed to balance the water body, and the filter cotton has the function of isolating the fish manure and not decomposing the fish manure in time.

The other pain point is that water needs to be changed periodically to dilute the toxin brought by the whole fish dung, so that the temperature, the pH value and the like of the water body are balanced.

The cotton washing and the regular water changing are difficult to realize for busy urban people every day, once the water body has large fluctuation, the fish is easy to die, much energy is needed to be occupied for insisting on, a plurality of fish culture enthusiasts are required to go, and the fish is difficult to say.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the related art to a certain extent.

Therefore, the utility model aims to provide a fish bowl clean system. The specific technical scheme is as follows:

the fish tank purification system comprises a sedimentation filter, a floating filter, a bacteria culture device, a water quality regulator, a self-sucking pump and a pipeline;

the pipeline comprises a pipe A, a pipe B, a pipe C, a pipe D, a pipe E, a water outlet pipe, a first three-way valve and a second three-way valve;

the sedimentation filter comprises a sedimentation container and a filter cartridge, wherein the top of the sedimentation container is provided with a raw water inlet, a water supplementing opening and a water inlet and outlet, the raw water inlet is communicated with the fish tank through a pipe A, a water source of the water supplementing opening is from an external water source, the filter cartridge is fixedly arranged at the top in the sedimentation container, the filter cartridge is communicated with the water inlet and outlet, the bottom of the sedimentation container is provided with a slag collecting area, and the slag collecting area is provided with an external slag discharging assembly;

the floating filter comprises a fine filtration container, a first separation net, a second separation net and particle filter beads, wherein the first separation net and the second separation net are sequentially arranged in the fine filtration container from top to bottom and divide the fine filtration container into a first area, a second area and a third area from top to bottom, the particle filter beads float in the second area, the first area is provided with a first water outlet, the top of the second area is provided with a back flushing port, and the bottom of the third area is provided with a first water inlet and a first sewage discharge port;

the water inlet end of the self-priming pump is communicated with the water outlet end of the first three-way valve, the water outlet end of the self-priming pump is connected with the water inlet end of the second three-way valve, the first water inlet end of the first three-way valve is communicated with the pipe A through a pipe B, the second water inlet end of the first three-way valve is communicated with the water inlet and the water outlet through a pipe C, the first water outlet end of the second three-way valve is communicated with the first water inlet through a pipe D, and the second water outlet end of the second three-way valve is communicated with the back flush port and the water inlet;

the water inlet end of the bacteria incubator is communicated with the first water outlet, and the water outlet end of the bacteria incubator is communicated with the water quality regulator;

the water quality regulator comprises a regulating container, a sterilizing lamp and a heater, wherein the sterilizing lamp and the heater are arranged in the regulating container, a second water inlet and a second water outlet are respectively arranged on two opposite sides of the bottom of the regulating container, the water inlet end of the second water inlet is communicated with the water outlet end of the bacteria culture device, the water outlet end of the second water inlet is connected with a first flow divider extending into the middle of the regulating container, and the second water outlet is connected with a water outlet pipe.

The utility model provides a fish bowl clean system, when filtering the impurity in the fish bowl, water in the fish bowl passes through A pipe and gets into in the sedimentation vessel from the raw water inlet, under the effect of blockking of straining a section of thick bamboo, the continuous deposit of fish excrement of great granule is in the sediment district, the sediment volume reaches and discharges through outer row sediment subassembly after the certain degree, water after straining a section of thick bamboo filtration is through C pipe, a three-way valve, the self priming pump, No. two three-way valves, the D pipe, first water inlet gets into in the third district that fine filtration vessel, the pearl is strained to the particle in the third district and is received the hydraulic pressure that the water body upwards flows and press the filter media that can intercept all residues, strain the pearl after the filtration through the particle, the water gets into after the nitrobacteria of bacteria ware cultivates certain concentration, get into water quality regulator and adjust the temperature, disinfect.

When the water level in the fish tank is lower than the preset water level, an external water source enters a precipitation container through a water replenishing port, and enters the fish tank after precipitation filtration, particle filter bead filtration, bacteria culture of a bacteria culture device and regulation of a water quality regulator;

when the filtering system operates for a period of time, a three-way valve and a three-way valve are switched, water in the fish tank passes through a pipe A, a pipe B and the three-way valve and enters a self-priming pump, after the self-priming pump is pressurized, part of water enters a fine filter container through an E pipe and a back flushing port to wash particulate filter beads, the washed sewage is discharged through a first sewage discharge port, meanwhile, after the self-priming pump is pressurized, part of water enters a filter cylinder through the E pipe and a water inlet and outlet and then is back flushed with the filter cylinder, and the washed sewage and impurities are discharged through an outer slag discharge assembly.

The utility model provides a fish bowl clean system is applicable to the fish bowl aquaculture water circulation system of all fishes, and it need not artifical washing and strains a section of thick bamboo, trades water, regularly changes the filter media, can let simple the light good fish of raising of inexperienced people again, need not to spend the quality of water of maintaining the fish bowl for a long time, lets more people possess the enjoyment of raising fish.

Additionally, the utility model provides a fish bowl clean system can also have following additional technical characterstic:

in one example of the present invention, the bacteria incubator comprises a first bacteria incubator, a second bacteria incubator and an oxygen transfer device;

the first bacteria incubator comprises a closed container A, a third separation net and fine particle floating beads, wherein the third separation net is horizontally arranged in the fine filtration container, a fourth area is formed above the third separation net, a fifth area is formed below the third separation net, the fine particle floating beads float in the fourth area, the fourth area is provided with a first exhaust hole and a third water inlet, the third water inlet is communicated with the first water outlet, and the bottom of the fourth area is provided with a third water outlet and a second sewage outlet;

the second bacteria incubator comprises a closed container B and chemical fiber hair bulbs floating in the closed container B, a second air outlet and a fourth water inlet are formed in the top of the closed container B, a fourth water outlet and a third sewage outlet are formed in the bottom of the closed container B, the fourth water inlet is communicated with the third water outlet, and the fourth water outlet is communicated with the second water inlet;

the oxygen therapy device comprises an oxygen generator, a first atomizer and a second atomizer, wherein the first atomizer extends into the bottom of the closed container A, the second atomizer extends into the closed container B, the oxygen generator supplies oxygen to the first atomizer and the second atomizer through gas pipes respectively, and each gas pipe is provided with a check valve.

The utility model discloses an example, sediment filter is still including straining a cleaning brush, strain a section of thick bamboo and be cylindrical structure, it includes bearing, adherence brush and rotary vane to strain a cleaning brush, the bearing is two and rotatable locates and strains a section of thick bamboo both ends, adherence brush pastes in the surface of straining a section of thick bamboo, and its both ends are connected with the opposite face of two bearings respectively, the rotary vane sets firmly on the bearing and aligns with former water inlet.

In an example of the present invention, the lower end of the filter cartridge is provided with an umbrella-shaped water flow baffle.

The utility model discloses an example, the pipeline still includes the collecting pipe, the collecting pipe communicates with outlet pipe, outer row's sediment subassembly, first drain, second drain, third drain respectively, be provided with the control valve on the collecting pipe.

The utility model discloses an example, first separation net is biochemical cotton baffle, biochemical cotton baffle top is provided with the comb flow board with first delivery port intercommunication, first water inlet is connected with the second current divider.

The utility model discloses an example, the third delivery port is connected with the ware that converges.

The utility model discloses an example still includes automatically controlled switching controller, No. one three-way valve, No. two three-way valves are the motorised valve and are connected with automatically controlled switching controller electricity.

The utility model discloses an example, the regulation and control container has third gas vent and air inlet, air inlet and first gas vent, second gas vent intercommunication, be equipped with the exhaust floater in the regulation and control container, the exhaust floater is given vent to anger and is held and third gas vent intercommunication.

The utility model discloses an example, at least one kind in control by temperature change probe, DTS probe, PH value probe has still been installed to the regulation and control container.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is an overall schematic view of a fish tank purification system according to the present embodiment;

FIG. 2 is a schematic view of the relevant portion of the sediment filter and the floating filter of FIG. 1;

FIG. 3 is a schematic view of the water conditioner of FIG. 1;

FIG. 4 is a schematic view of the incubator of FIG. 1;

in the reference symbols:

1. a sediment filter; 11. a settling vessel; 111. a raw water inlet; 112. a water replenishing port; 113. a water inlet and outlet; 12. a filter cartridge; 13. a slag collecting area; 14. an outer slag discharge assembly; 151. a bearing; 152. wall-adhering hairbrush; 153. rotating leaves; 16. a water flow baffle;

2. a floating filter; 21. a fine filtration container; 211. a first water outlet; 212. a back flushing port; 213. a first water inlet; 214. a first drain port; 22. a first screen; 23. a second screen; 24. filtering the particles; 25. A comb plate; 26. a second flow splitter;

3. a first bacteria incubator; 31. closing the container A; 311. a first exhaust port; 312. a third water inlet; 313. A third water outlet; 314. a second sewage draining outlet; 32. a third screen; 33. fine-grained floating beads; 34. a junction station; 35. filtering with a screen;

4. a first bacteria incubator; 41. closing the container B; 411. a second exhaust port; 412. a fourth water inlet; 413. A fourth water outlet; 414. a third sewage draining outlet; 42. chemical fiber ball wool;

5. a water quality regulator; 51. regulating and controlling the container; 511. a second water inlet; 512. a second water outlet; 513. a third exhaust port; 514. an air inlet; 52. a germicidal lamp; 53. a heater; 54. a first splitter; 55. an exhaust floating ball; 56. a temperature control probe; 57. a DTS probe; 58. a pH value probe;

6. a self-priming pump;

701. a pipe A; 702. a pipe B; 703. c, a pipe; 704. d, pipe; 705. e, a pipe; 707. a water outlet pipe; 708. A collector pipe;

711. a first three-way valve; 712. a second three-way valve; 713. a first electrically operated valve; 714. a second electrically operated valve;

81. an oxygen generator; 82. a first atomizer; 83. a second atomizer; 84. a gas delivery pipe; 85. a one-way valve.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1 to 4, the fish tank purification system provided in this embodiment includes a sediment filter 1, a floating filter 2, a bacteria culture device, a water quality controller 5, a self-priming pump 6, a pipeline, and an electric control switching controller;

the pipelines include a pipe A701, a pipe B702, a pipe C703, a pipe D704, a pipe E705, a water outlet pipe 707, a collecting pipe 708, a first three-way valve 711, a second three-way valve 712 and some unnamed pipelines.

As shown in fig. 1, the sediment filter 1 includes a sediment container 11 and a filter cartridge 12, the top of the sediment container 11 is provided with a raw water inlet 111, a water supplementing inlet 112 and a water inlet and outlet 113, the raw water inlet 111 is communicated with the fish tank through an a pipe 701, the water source of the water supplementing inlet 112 is from an external water source, the filter cartridge 12 is fixedly arranged at the top of the sediment container 11, the filter cartridge 12 is communicated with the water inlet and outlet 113, the bottom of the sediment container 11 is provided with a slag collecting area 13, and the slag collecting area 13 is provided with an external slag discharging assembly 14;

specifically, the filter cylinder 12 comprises a cylindrical frame and a filter screen laid on the outer side of the frame, the aperture of the filter screen is 1.5mm-2mm, so that impurities larger than 2mm in the water body entering the settling vessel 11 are slowly settled and concentrated to the slag collecting area 13, and when the impurities in the slag collecting area 13 are accumulated for a certain amount or a certain time, the outer slag discharging assembly 14 is started to discharge the impurities.

Specifically, the sediment filter 1 further includes a filter cartridge cleaning brush, the filter cartridge cleaning brush includes two bearings 151, two adherence brushes 152 and two rotary vanes 153, the two bearings 151 are rotatably disposed at two ends of the filter cartridge 12, the adherence brushes 152 are adhered to the outer surface of the filter cartridge 12, and two ends of the adherence brushes are respectively connected with the opposite surfaces of the two bearings 151, and the rotary vanes 153 are fixedly disposed on the bearings 151 and aligned with the raw water inlet 111.

In this embodiment, when the slag discharging assembly 14 discharges slag, part of the water will be discharged from the sedimentation container 11, and at this time, the water can be replenished by the external water source through the water replenishing port 112, so as to ensure that the water level in the fish tank meets the requirement.

In the present embodiment, the slag collecting area 13 is preferably designed to be conical to facilitate slag collection.

In this embodiment, the water body output from the raw water inlet 111 impacts the rotation of the rotary vane 153, and the rotary vane 153 rotates to drive the adherent brush 152 to continuously scrape off impurities on the surface of the filter cartridge 12, so as to constantly ensure the surface of the filter cartridge 12 to be clean, thereby improving the deslagging efficiency of the filter cartridge 12.

In this embodiment, in order to avoid disturbance of the slag collecting area 13 caused by water entering the settling vessel 11, it is preferable that the lower end of the filter cartridge 12 is provided with an umbrella-shaped water flow baffle 16, and an overflow gap is formed between the water flow baffle 16 and the inner wall of the settling vessel 11.

As shown in fig. 1, the floating filter 2 includes a fine filtering container 21, a first separating net 22, a second separating net 23 and fine filtering beads 24, the first separating net 22 and the second separating net 23 are sequentially disposed in the fine filtering container 21 from top to bottom, and divide the fine filtering container 21 into a first region, a second region and a third region from top to bottom, the fine filtering beads 24 float in the second region, the first region is provided with a first water outlet 211, the top of the second region is provided with a back flushing port 212, and the bottom of the third region is provided with a first water inlet 213 and a first drain port 214;

specifically, the first separation net 22 is a biochemical cotton partition plate, a flow combing plate 25 communicated with the first water outlet 211 is arranged above the biochemical cotton partition plate, the first water inlet 213 is connected with a second flow divider 26, the particle size of the particle filter beads 24 is 1mm, and the particle filter beads 24 are concentrated by utilizing the water pressure of the water flowing upwards so as to block sediments and floats smaller than 2 mm.

In this embodiment, the second screen 23 is a stainless steel screen, which can block the particulate filter beads 24 from being discharged through the first drain port 214 during the backwashing process.

As shown in fig. 1, the water inlet end of the self-priming pump 6 is communicated with the water outlet end of a first three-way valve 711, the water outlet end is connected with the water inlet end of a second three-way valve 712, the first water inlet end of the first three-way valve 711 is communicated with a pipe a 701 through a pipe B702, the second water inlet end of the first three-way valve 711 is communicated with a water inlet/outlet 113 through a pipe C703, the first water outlet end of the second three-way valve 712 is communicated with a first water inlet 213 through a pipe D704, and the second water outlet end of the second three-way valve 712 is communicated with a back flush port 212 and the water inlet/outlet 113 through an E-;

when impurities in the fish tank are filtered, water in the fish tank enters the sedimentation container 11 from the raw water inlet 111 through the pipe A701, under the blocking effect of the filter cylinder 12, large-particle fish manure is continuously deposited in the slag collecting area 13, the deposition amount reaches a certain degree and then is discharged through the outer slag discharging assembly 14, the water filtered by the filter cylinder 12 enters the third area of the fine filter container 21 through the pipe C703, the three-way valve 711, the self-sucking pump 6, the three-way valve 712, the pipe D704 and the first water inlet 213, the fine filter beads 24 are pressed into a filter material capable of intercepting all residues by water pressure flowing upwards by water, after being filtered by the fine filter beads 24, the water enters the bacteria incubator to cultivate nitrobacteria with a certain concentration, enters the water quality controller to adjust the temperature and sterilize, and then flows back to the fish tank.

When the water level in the fish tank is lower than the preset water level, an external water source enters the sedimentation container through the water replenishing port 112, and enters the fish tank after sedimentation and filtration, filtration of the particle filter beads 24, cultivation of the bacteria incubator and regulation of the water quality regulator 5;

after the filtering system operates for a period of time, the first three-way valve 711 and the second three-way valve 712 are switched, so that water in the fish tank enters the self-priming pump 6 through the pipe A701, the pipe B702 and the first three-way valve 711, after being pressurized by the self-priming pump 6, part of the water enters the fine filtering container 21 through the pipe E705 and the backwashing port 212 to flush the particulate filter beads 24, flushed sewage is discharged through the first sewage discharge port 214, and after being pressurized by the self-priming pump 6, part of the water enters the filtering cylinder 12 through the pipe E705 and the water inlet/outlet 113 to backwash the filtering cylinder 12, and the flushed sewage and impurities are discharged through the outer slag discharge assembly 14.

The water inlet end of the bacteria incubator is communicated with the first water outlet 211, and the water outlet end of the bacteria incubator is communicated with the water quality regulator 5;

the water quality regulator 5 comprises a regulating container 51, a sterilizing lamp 52 and a heater 53 which are arranged in the regulating container 51, wherein a second water inlet 511 and a second water outlet 512 are respectively arranged on two opposite sides of the bottom of the regulating container 51, the water inlet end of the second water inlet 511 is communicated with the water outlet end of the bacteria culture device, the water outlet end of the second water inlet 511 is connected with a first flow divider 54 which extends into the middle part of the regulating container 51, and the second water outlet 512 is connected with a water outlet pipe 707.

As shown in fig. 3, the incubator includes a first incubator 3, a second incubator 4, and an oxygen delivery device;

the first bacteria incubator 3 comprises a closed container A31, a third screen 32 and fine floating beads 33, wherein the third screen 32 is horizontally arranged in the fine filtering container 21, a fourth area is formed above the third screen 32, a fifth area is formed below the third screen 32, the fine floating beads 33 float in the fourth area, the fourth area is provided with a first exhaust hole 311 and a third water inlet 312, the third water inlet 312 is communicated with the first water outlet 211, and the bottom of the fourth area is provided with a third water outlet 313 and a second sewage outlet 314;

the second bacteria incubator 4 comprises a closed container B41 and a chemical fiber ball 42 floating in the closed container B41, the top of the closed container B41 is provided with a second air outlet 411 and a fourth water inlet 412, the bottom of the closed container B41 is provided with a fourth water outlet 413 and a third sewage outlet 414, the fourth water inlet 412 is communicated with the third water outlet 313, and the fourth water outlet 413 is communicated with the second water inlet 511;

the oxygen therapy device comprises an oxygen generator 81, a first atomizer 82 and a second atomizer 83, wherein the first atomizer 82 extends into the bottom of the closed container A31, the second atomizer 83 extends into the bottom of the closed container A31, the oxygen generator 81 supplies oxygen to the first atomizer 82 and the second atomizer 83 through air pipes 84 respectively, and each air pipe 84 is provided with a one-way valve 85.

In the first incubator 3, the particle size of the fine particle floating beads 33 is preferably 2mm-4mm, and the fine particle floating beads 33 continuously roll under the condition of high oxygen by utilizing the downward impact of water and the upward driving force of oxygen output by the first atomizer 82, so that nitrobacteria with the same density as that of the ceramic rings by 20 times can be cultivated.

In the second bacteria incubator 4, the chemical fiber bulbs 42 continuously roll to cultivate nitrobacteria with higher concentration by utilizing the downward impact of the water body and the upward driving force of the oxygen output by the second atomizer 83.

As shown in fig. 2 to 4, the collecting pipe 708 is respectively communicated with the water outlet pipe 707, the outer slag discharge assembly 14, the first sewage discharge port 214, the second sewage discharge port 314 and the third sewage discharge port 414, and a control valve is arranged on the collecting pipe 708.

In this embodiment, the number of the control valves is plural, and the outer discharging slag assembly 14, the first discharging port 214, the second discharging port 314, the third discharging port 414 and the discharging pipe 707 can be controlled to discharge water respectively.

In this embodiment, a flow combiner 34 is connected to the third water outlet 313, and the flow combiner 34 can combine water in the fifth region.

In the present embodiment, the regulating and controlling container 51 is further provided with at least one of a temperature control probe 56, a DTS probe 57, and a PH probe 58, and the temperature control probe 56, the DTS probe 57, the PH probe 58, the germicidal lamp 52, and the heater 53 are all electrically connected to the electrically controlled switching controller.

In this embodiment, a first electric valve 713 is disposed on a pipeline connecting the third water inlet 312 and the first water outlet 211, a second electric valve 714 is disposed on the collecting pipe 708, and the first electric valve 713 and the second electric valve 714 are electrically connected to the electrically controlled switching controller.

The first three-way valve 711, the second three-way valve 712, the first electric valve 713 and the second electric valve 714 are judged and controlled by multiple conditions of data acquired by the electric control equipment to work simultaneously to switch the water flow loop, so that the effects of automatic cleaning and automatic sewage discharge are achieved.

In this embodiment, the regulating container 51 has a third exhaust port 513 and an air inlet port 514, the air inlet port 514 is communicated with the first exhaust port 311 and the second exhaust port 411, an exhaust floating ball 55 is arranged in the regulating container 51, an air outlet end of the exhaust floating ball 55 is communicated with the third exhaust port 513, and excess oxygen in the closed container a31 and the closed container B41 is conveyed into the regulating container 51, so that oxygen can be further enriched in the water body.

The fish tank purification system that this embodiment provided is applicable to the fish tank culture water circulation system of all fishes, and it has following advantage:

1. can regularly self-cleaning strain a section of thick bamboo, particle and strain the pearl to discharge 2 ~ 3L sewage, from the production of pollution source priority solution ammonia, furthest alleviates nitration system's burden, need not huge area and creates nitration system, also avoided artifical regularly to wash a section of thick bamboo, change the water.

2. The water yield that can automatic supply change, stable new water is favorable to the metabolism of aquatic thing, new water supply advances the fish bowl and must pass through filtration system, at last through quality of water modulator entering fish bowl, the impurity of new water from the area has been avoided, chlorine, harmful substance such as other bacterium gets into the fish bowl, and adjust the same temperature of main cylinder to new water, new water is slowly added, the duration need not personnel's watch, it will stop the moisturizing to reach appointed water level, scientific water change mode can maintain the stability of quality of water throughout the year like this, can not appear because of quality of water is undulant, the damage and the death of temperature fluctuation cause fish.

3. The stable sewage discharge and the stable water change amount are provided, so that a large volume is not needed to establish a nitrification system, a high-density nitrifying bacteria system can be cultivated in a minimum space, and the nitrification system is not broken down due to overhigh cultivation density.

To sum up, this application can let the people liberate both hands and return to and use to vwatch the first heart of purpose and breed fish, has also reduced the time and the vigor that breed fish needs to be spent, lets zero experience, busy green urban people also can possess the enjoyment of breeding fish.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. Fish bowl clean system, its characterized in that: comprises a sediment filter (1), a floating filter (2), a bacteria culture device, a water quality regulator (5), a self-priming pump (6) and a pipeline;

the pipeline comprises a pipe A (701), a pipe B (702), a pipe C (703), a pipe D (704), a pipe E (705), a water outlet pipe (707), a first three-way valve (711) and a second three-way valve (712);

the sedimentation filter (1) comprises a sedimentation container (11) and a filter cartridge (12), wherein a raw water inlet (111), a water supplementing inlet (112) and a water inlet and outlet (113) are formed in the top of the sedimentation container (11), the raw water inlet (111) is communicated with the fish tank through an A pipe (701), a water source of the water supplementing inlet (112) is from an external water source, the filter cartridge (12) is fixedly arranged at the top of the sedimentation container (11), the filter cartridge (12) is communicated with the water inlet and outlet (113), a slag collecting area (13) is formed in the bottom of the sedimentation container (11), and an external slag discharging assembly (14) is arranged in the slag collecting area (13);

the floating filter (2) comprises a fine filter container (21), a first separation net (22), a second separation net (23) and particle filter beads (24), wherein the first separation net (22) and the second separation net (23) are sequentially arranged in the fine filter container (21) from top to bottom, the fine filter container (21) is sequentially divided into a first area, a second area and a third area from top to bottom, the particle filter beads (24) float in the second area, the first area is provided with a first water outlet (211), the top of the second area is provided with a back flushing port (212), and the bottom of the third area is provided with a first water inlet (213) and a first drain outlet (214);

the water inlet end of the self-sucking pump (6) is communicated with the water outlet end of a first three-way valve (711), the water outlet end of the self-sucking pump (6) is connected with the water inlet end of a second three-way valve (712), the first water inlet end of the first three-way valve (711) is communicated with a pipe A (701) through a pipe B (702), the second water inlet end of the first three-way valve (711) is communicated with a water inlet and outlet (113) through a pipe C (703), the first water outlet end of the second three-way valve (712) is communicated with a first water inlet (213) through a pipe D (704), and the second water outlet end of the second three-way valve (712) is communicated with a back washing port (212) and the water inlet and outlet (113) through a pipe E (705);

the water inlet end of the bacteria incubator is communicated with a first water outlet (211), and the water outlet end of the bacteria incubator is communicated with the water quality regulator (5);

quality of water modulator (5) are including regulation and control container (51) and locate bactericidal lamp (52), heater (53) in regulation and control container (51), the relative both sides in regulation and control container (51) bottom are equipped with second water inlet (511) and second delivery port (512) respectively, the end of intaking of second water inlet (511) communicates with the play water end of bacteria culture device, the play water end of second water inlet (511) is connected with first shunt (54) that stretch into regulation and control container (51) middle part, second delivery port (512) are connected with outlet pipe (707).

2. The fish tank purification system of claim 1, wherein: the incubator comprises a first incubator (3), a second incubator (4) and an oxygen delivery device;

the first bacteria incubator (3) comprises a closed container A (31), a third screen (32) and fine particle floating beads (33), the third screen (32) is horizontally arranged in the fine filtering container (21), a fourth area is formed above the third screen (32), a fifth area is formed below the third screen, the fine particle floating beads (33) float in the fourth area, the fourth area is provided with a first exhaust hole (311) and a third water inlet (312), the third water inlet (312) is communicated with the first water outlet (211), and the bottom of the fourth area is provided with a third water outlet (313) and a second sewage outlet (314);

the second bacteria incubator (4) comprises a closed container B (41) and a chemical fiber fuzzy ball (42) floating in the closed container B (41), the top of the closed container B (41) is provided with a second air outlet (411) and a fourth water inlet (412), the bottom of the closed container B (41) is provided with a fourth water outlet (413) and a third sewage outlet (414), the fourth water inlet (412) is communicated with a third water outlet (313), and the fourth water outlet (413) is communicated with a second water inlet (511);

oxygen therapy device includes oxygenerator (81), first atomizer (82) and second atomizer (83), bottom in first atomizer (82) stretched into closed container A (31), bottom in second atomizer (83) stretched into closed container B (41), oxygenerator (81) are respectively through gas-supply pipe (84) to first atomizer (82) and second atomizer (83) oxygen suppliment, and every gas-supply pipe (84) all are equipped with at check valve (85).

3. The fish tank purification system of claim 1, wherein: sediment filter (1) is still including straining a cleaning brush, it is cylindrical structure to strain (12), it includes bearing (151), adherence brush (152) and rotary vane (153) to strain a cleaning brush, bearing (151) are two and the rotatable both ends of straining a section of thick bamboo (12) of locating, adherence brush (152) are pasted in the surface of straining a section of thick bamboo (12), and its both ends are connected with the opposite face of two bearing (151) respectively, rotary vane (153) set firmly on bearing (151) and aim at with raw water inlet (111).

4. A fish tank purification system as claimed in claim 3, wherein: an umbrella-shaped water flow baffle (16) is arranged at the lower end of the filter cylinder (12).

5. The fish tank purification system of claim 1, wherein: the pipeline further comprises a collecting pipe (708), the collecting pipe (708) is respectively communicated with the water outlet pipe (707), the outer slag discharging assembly (14), the first sewage discharging port (214), the second sewage discharging port (314) and the third sewage discharging port (414), and a control valve is arranged on the collecting pipe (708).

6. The fish tank purification system of claim 1, wherein: the first separation net (22) is a biochemical cotton partition plate, a flow combing plate (25) communicated with the first water outlet (211) is arranged above the biochemical cotton partition plate, and the first water inlet (213) is connected with a second flow divider (26).

7. A fish tank purification system as claimed in claim 2, wherein: and the third water outlet (313) is connected with a junction station (34).

8. The fish tank purification system of claim 1, wherein: the device also comprises an electric control switching controller, wherein the first three-way valve (711) and the second three-way valve (712) are both electrically operated valves and are electrically connected with the electric control switching controller.

9. A fish tank purification system as claimed in claim 2, wherein: the regulation and control container (51) is provided with a third exhaust port (513) and an air inlet (514), the air inlet (514) is communicated with the first exhaust port (311) and the second exhaust port (411), an exhaust floating ball (55) is arranged in the regulation and control container (51), and an air outlet end of the exhaust floating ball (55) is communicated with the third exhaust port (513).

10. A fish tank purification system as claimed in any one of claims 1 to 9, wherein: the regulating container (51) is also provided with at least one of a temperature control probe (56), a DTS probe (57) and a PH value probe (58).

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