CN201509507U - Microporous oxygenation, disinfection and sterilization device for high-density soilless stagnant water culture pond - Google Patents
Microporous oxygenation, disinfection and sterilization device for high-density soilless stagnant water culture pond Download PDFInfo
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- CN201509507U CN201509507U CN2009202361761U CN200920236176U CN201509507U CN 201509507 U CN201509507 U CN 201509507U CN 2009202361761 U CN2009202361761 U CN 2009202361761U CN 200920236176 U CN200920236176 U CN 200920236176U CN 201509507 U CN201509507 U CN 201509507U
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- hydrostatic
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Abstract
A microporous oxygenation, disinfection and sterilization device for a high-density soilless stagnant water culture pond is characterized in that an ozonizer, a high-pressure oxygenation pump and a nanometer microporous pipe are included; an ozone output pipe of the ozonizer is connected with an air inlet of the high-pressure oxygenation pump; an air outlet of the high-pressure oxygenation pump is connected with the nanometer microporous pipe placed in an ecological culture pond or in the chamber through an air delivery pipe; a three-way connector is arranged between the ozonizer and the high-pressure oxygenation pump; and a valve is arranged at the air inlet of the three-way connector. The microporous oxygenation, disinfection and sterilization device for the high-density soilless stagnant water culture pond in the utility model adopts nanoscale microporous oxygenation, disinfection, sterilization and algae removal. Due to underwater aeration and oxygenation of the nanometer microporous pipe, the oxygen supplementation of the lower layer of anoxic water substance can be better achieved, the air filled into the water substance can evenly disperse each water layer, the toxic gas generated on the bottom layer under the condition of oxygen deficiency can accelerate dispersion to the air, and the disturbance of noises to the normal activities of the fish can be reduced.
Description
Technical field
The utility model relates to the ecologic breeding field, and especially a kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond.
Background technology
At present, adopt high density not have soil, hydrostatic aquaculture model in the ecological culture pond, because it is more shallow to culture water level, the vane type oxygen increasing pump can't use, with disinfecting medicine and sterilizing aquaculture cost is strengthened, medicament residue is arranged simultaneously, be difficult to guarantee that the aquatic products of ecologic breeding reach the safety food requirement, more can't realize organic food.Discharging particularly in culturing the pond, can algae constantly occur,, cause water quality deterioration, if will cause secondary pollution as floating type plants such as blue-green algaes.Simultaneously, the floating type plant of algae can cause the microporous pipe pore to stop up attached on the micropore oxygenation tube wall, makes its normally oxygen supply, causes the high density aquaculture to realize.And adopt ozonization, sterilization, algae removal merely, again can be because of the ozone injection pressure its results of use of cause influence such as not enough and ozone dispersion is inhomogeneous.
Therefore, need a kind of new-type oxygen-increasing disinfection apparatus badly and solve an above-mentioned difficult problem.
Summary of the invention
The purpose of this utility model is that a kind of high density that is used for do not have the micropore oxygenation disinfector that native hydrostatic is grown the pond, this device can inject ecological culture pond with ozone and oxygen in the mode of micropore simultaneously, solve high density and do not had the difficult problem that native hydrostatic is cultured oxygen supply, sterilization, sterilization, the algae removal in pond, cured the disease, reduces ammonia, nitrogen and sulfuration hydrogen number in the rich foster water body, and without any residual and secondary pollution deposits yields, this device also can be used for sterilization, sterilization, the deodorizing of fowl and livestock farm, public place and family.
The technical solution of the utility model is:
A kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, this device in the mode of micropore injects ecological culture pond simultaneously by the high pressure oxygen increasing pump with ozone and oxygen, utilize nanometer micropore pipe increase aeration rate and gas is evenly disperseed, branch line can be set realize a plurality of ecological culture pond high-density breedings simultaneously, simultaneously, regulate ozone concentration in indivedual ecological culture ponds selectively by valve, satisfy sterilization, sterilize, cure the disease the demand of different ozone concentrations.
A kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it comprises ozone generator, high pressure oxygen increasing pump and nanometer micropore pipe, the ozone efferent duct of described ozone generator connects the air inlet of high pressure oxygen increasing pump, and the gas outlet of high pressure oxygen increasing pump places in the ecological culture pond or indoor nanometer micropore pipe by the appendix connection; Be provided with three-way connector between described ozone generator and the high pressure oxygen increasing pump, the air end of advancing of three-way connector is provided with valve.
Described nanometer micropore pipe is communicated with from beginning to end, the nanometer micropore pipe be the annular, side by side, snakelike or irregular layout.
Described appendix connects the nanometer micropore pipe by the gas transmission jockey.
Described gas transmission jockey is three-way connector, straight-through or pipe joint.
The gas outlet of described high pressure oxygen increasing pump is provided with air gauge and safety valve.
Described ozone generator carries between flow control valve, ozone generator and the three-way connector and is provided with valve.
The dish-type pipe that described nanometer micropore pipe is arm or multi-turn, dish-type pipe are circular, square or irregularly shaped, and an end of nanometer micropore pipe is connected with air inlet pipe by straight-through or pipe connection movable joint, and the other end of nanometer micropore pipe is provided with silently.
Described appendix connects house steward, and house steward is provided with the multichannel arm, and every arm connects one or more nanometer micropore pipe.
Be provided with valve between described appendix and the nanometer micropore pipe.
Described ozone generator and high pressure oxygen increasing pump are arranged in the casing.
The beneficial effects of the utility model are:
The high density that is used for of the present utility model does not have native hydrostatic and cultures the micropore oxygenation disinfector in pond and adopt nanometer level microporous oxygenation, sterilization, sterilization, algae removal, deodorizing, cure the disease and fall rich water body ammonia, nitrogen and the sulfuration hydrogen number of supporting.The nanometer micropore pipe under water aeration oxygen replenishing can make the water body lower floor of anoxic more obtain replenishing of oxygen; can make the air that charges into water body evenly be diffused into each water layer; the toxic gas that bottom is produced under anoxia condition quickens to spread in air, can reduce the interference of noise to the fish normal activity.And the effect that ozone has sterilization, deodorizing, sterilization, oxygenation, cures the disease particularly has remarkable result to the treatment of the saprolegniasis of aquatic products and ammonia, nitrogen and the sulfuration hydrogen number that reduces in the oxygen enrichment water body.And, when realizing that high density, hydrostatic are cultured, quality and food security that aquaculture cost has improved aquatic products have been reduced without any residual and secondary pollution deposits yields.
The utility model can reach high-density breeding and accelerate the purpose that the aquatic products growth rate reduces lethality by using micropore oxygenation.When advancing air, micropore oxygenation brings that ozone can play sterilization, algae removal, cures the disease, reduces ammonia in the oxygen enrichment water body, the effect of nitrogen value has the effect that increases oxygen again into, saprolegniasis treatment to aquatic products simultaneously has remarkable result, purified water quality greatly and reduced dosage, the food security index and the cultivation density of aquatic products are improved greatly.It is the new equipment of a small investment, using electricity wisely, sterilization algae removal, oxygenation synergy.
The utility model is used for high density not to be had native hydrostatic and cultures the micropore oxygenation disinfector in pond and can be integrated in the complete machine, and can be designed to small-sized portable or the movable type of rubber tire is installed, and can install diesel-driven generator additional, to reach the effect of flexible mobile operating.
The branch line that is provided with of the present utility model is realized a plurality of ecological culture pond high-density breedings simultaneously, realizes a plurality of ecological culture pond large tracts of land, evenly distributes, and be not subjected to the restriction of the ecological culture pond depth of water.
Description of drawings
Fig. 1 is the schematic diagram of the utility model embodiment one.
Fig. 2 is the schematic diagram of the utility model embodiment two.
Fig. 3 uses the utility model carries out high density oxygenation sterilization to a plurality of ecological culture ponds schematic diagram.
Among the figure: 1 for ozone generator, 2 for the ozone efferent duct, 3 for the high pressure oxygen increasing pump, 4 for appendix, 40 for house steward, 41 for arm, 5 for the nanometer micropore pipe, 50 for silently, 6 be that three-way connector, 110 is for advancing air end for valve, 11 for safety valve, 10 for air gauge, 9 for gas transmission jockey, 8 for ecological culture pond, 7.
Embodiment
Below in conjunction with accompanying drawing the utility model is further described:
A kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, and this device in the mode of micropore injects ecological culture pond simultaneously by the high pressure oxygen increasing pump with ozone and oxygen, utilizes nanometer micropore pipe increase aeration rate and gas is evenly distributed.
Embodiment one.
A kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it comprises ozone generator 1, high pressure oxygen increasing pump 3 and nanometer micropore pipe 5, the ozone efferent duct 2 of described ozone generator 1 connects the air inlet of high pressure oxygen increasing pump 3, and the gas outlet of high pressure oxygen increasing pump 3 places in the ecological culture pond 6 or indoor nanometer micropore pipes 5 by appendix 4 connections; Be provided with three-way connector 11 between described ozone generator 1 and the high pressure oxygen increasing pump 3, the air end 110 of advancing of three-way connector 11 is provided with valve.Advance the air capacity that the valve regulated of air end 110 enters by three-way connector 11, the ozone that air driven ozone generator 1 produces enters high pressure oxygen increasing pump 3.With state this valve is set, can realizes closing the function that ozone generator 1 advances air separately.Ozone generator 1 carries flow control valve.
Appendix 4 connects nanometer micropore pipe 5 by gas transmission jockey 7.
Gas transmission jockey 7 is three-way connector, straight-through or pipe joint.
The gas outlet of high pressure oxygen increasing pump 3 is provided with air gauge 8 and safety valve 9, can adjust the control oxygen-supplying amount.
Be provided with valve 10 between appendix 4 and the nanometer micropore pipe 5.
Embodiment two.
A kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it comprises ozone generator 1, high pressure oxygen increasing pump 3 and nanometer micropore pipe 5, the ozone efferent duct 2 of described ozone generator 1 connects the air inlet of high pressure oxygen increasing pump 3, and the gas outlet of high pressure oxygen increasing pump 3 places in the ecological culture pond 6 or indoor nanometer micropore pipes 5 by appendix 4 connections; Be provided with three-way connector 11 between described ozone generator 1 and the high pressure oxygen increasing pump 3, the air end 110 of advancing of three-way connector 11 is provided with valve.Advance the air capacity that the valve regulated of air end 110 enters by three-way connector 11, the ozone that air driven ozone generator 1 produces enters high pressure oxygen increasing pump 3.With state this valve is set, can realizes closing the function that ozone generator 1 advances air separately.Ozone generator 1 carries flow control valve.
Appendix 4 connects nanometer micropore pipe 5 by gas transmission jockey 7.
Gas transmission jockey 7 is three-way connector, straight-through or pipe joint.
The gas outlet of high pressure oxygen increasing pump 3 is provided with air gauge 8 and safety valve 9, can adjust the control oxygen-supplying amount.
Be provided with valve 10 between appendix 4 and the nanometer micropore pipe 5.
Ozone generator 1 is arranged in the casing with high pressure oxygen increasing pump 3.
Embodiment three.
A kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it comprises ozone generator 1, high pressure oxygen increasing pump 3 and nanometer micropore pipe 5, the ozone efferent duct 2 of described ozone generator 1 connects the air inlet of high pressure oxygen increasing pump 3, and the gas outlet of high pressure oxygen increasing pump 3 places in the ecological culture pond 6 or indoor nanometer micropore pipes 5 by appendix 4 connections; Be provided with three-way connector 11 between described ozone generator 1 and the high pressure oxygen increasing pump 3, the air end 110 of advancing of three-way connector 11 is provided with valve.Advance the air capacity that the valve regulated of air end 110 enters by three-way connector 11, the ozone that air driven ozone generator 1 produces enters high pressure oxygen increasing pump 3.With state this valve is set, can realizes closing the function that ozone generator 1 advances air separately.
Appendix 4 connects nanometer micropore pipe 5 by gas transmission jockey 7.
Ozone generator 1 carries between flow control valve, ozone generator 1 and the three-way connector 11 and is provided with valve.Be used to regulate the flow of ozone, to satisfy different demands.
Gas transmission jockey 7 is three-way connector, straight-through or pipe joint.
The gas outlet of high pressure oxygen increasing pump 3 is provided with air gauge 8 and safety valve 9, can adjust the control oxygen-supplying amount.
Appendix 4 connects house steward 40, and house steward 40 is provided with multichannel arm 41, and every arm 41 connects one or more nanometer micropore pipe 5.Can two-way ecological culture pond 6 shared one road arm, 41 air feed, more economically.
Be provided with valve 10 between appendix 4 and the nanometer micropore pipe 5.
Ozone generator 1 is arranged in the casing with high pressure oxygen increasing pump 3.
Embodiment four.
A kind of high density that is used for does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it comprises ozone generator 1, high pressure oxygen increasing pump 3 and nanometer micropore pipe 5, the ozone efferent duct 2 of described ozone generator 1 connects the air inlet of high pressure oxygen increasing pump 3, and the gas outlet of high pressure oxygen increasing pump 3 places indoor nanometer micropore pipe 5 by appendix 4 connections; Be provided with three-way connector 11 between described ozone generator 1 and the high pressure oxygen increasing pump 3, the air end 110 of advancing of three-way connector 11 is provided with valve.Advance the air capacity that the valve regulated of air end 110 enters by three-way connector 11, the ozone that air driven ozone generator 1 produces enters high pressure oxygen increasing pump 3.With state this valve is set, can realizes closing the function that ozone generator 1 advances air separately.Ozone generator 1 carries flow control valve.
The micropore oxygenation disinfector of present embodiment is mainly used in indoor sterilization, at the livestock rearing chamber, and health care place, the sterilization of occasions such as place of public amusement.
Appendix 4 connects nanometer micropore pipe 5 by gas transmission jockey 7.
Gas transmission jockey 7 is three-way connector, straight-through or pipe joint.
The gas outlet of high pressure oxygen increasing pump 3 is provided with air gauge 8 and safety valve 9, can adjust the control oxygen-supplying amount.
Ozone generator 1 is arranged in the casing with high pressure oxygen increasing pump 3, and the Miniaturizable design realizes portable or portable.
In the foregoing description, as preferably, nanometer micropore pipe 5 head and the tail are communicated with, nanometer micropore pipe 5 be annular, side by side, snakelike or irregular layout, specifically arrangement form is advisable to the needs of oxygen supply, sterilization with the ecological culture pond or the indoor environment that satisfy difformity and size.
Ozone generator 1, high pressure oxygen increasing pump 3 can be arranged in the complete machine, so not only attractive in appearance but also safety.One 1.1 kilowatts high-pressure pump just can satisfy oxygenation, sterilization, the algae removal of ten mu of waters surface, the needs of sterilization, and this device reduces energy consumption greatly, brings good economic benefit and social benefit.
The utility model in the mode of micropore injects ecological culture pond simultaneously by oxygen increasing pump with ozone and oxygen, utilize nanometer micropore pipe increase aeration rate and gas is evenly distributed, branch line can be set realize a plurality of ecological culture pond high-density breedings simultaneously, simultaneously, regulate ozone concentration in indivedual ecological culture ponds selectively by valve, satisfy sterilization, sterilize, cure the disease the demand of different ozone concentrations.
Claims (10)
1. one kind is used for the micropore oxygenation disinfector that high density does not have native hydrostatic breed pond, it is characterized in that it comprises ozone generator (1), high pressure oxygen increasing pump (3) and nanometer micropore pipe (5), the ozone efferent duct (2) of described ozone generator (1) connects the air inlet of high pressure oxygen increasing pump (3), and the gas outlet of high pressure oxygen increasing pump (3) places in the ecological culture pond (6) or indoor nanometer micropore pipe (5) by appendix (4) connection; Be provided with three-way connector (11) between described ozone generator (1) and the high pressure oxygen increasing pump (3), the air end (110) of advancing of three-way connector (11) is provided with valve.
2. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that described nanometer micropore pipe (5) head and the tail are communicated with, nanometer micropore pipe (5) be annular, side by side, snakelike or irregular layout.
3. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that described appendix (4) connects nanometer micropore pipe (5) by gas transmission jockey (7).
4. the high density that is used for according to claim 3 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that described gas transmission jockey (7) is three-way connector, straight-through or pipe joint.
5. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that the gas outlet of described high pressure oxygen increasing pump (3) is provided with air gauge (8) and safety valve (9).
6. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that described ozone generator (1) carries between flow control valve, ozone generator (1) and the three-way connector (11) to be provided with valve.
7. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that the dish-type pipe of described nanometer micropore pipe (5) for arm or multi-turn, the dish-type pipe is circular, square or irregularly shaped, one end of nanometer micropore pipe (5) is connected with air inlet pipe by straight-through or pipe connection movable joint, and the other end of nanometer micropore pipe (5) is provided with silently (50).
8. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that described appendix (4) connects house steward (40), house steward (40) is provided with multichannel arm (41), and every arm (41) connects one or more nanometer micropore pipe (5).
9. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that being provided with valve (10) between described appendix (4) and the nanometer micropore pipe (5).
10. the high density that is used for according to claim 1 does not have the micropore oxygenation disinfector that native hydrostatic is cultured the pond, it is characterized in that described ozone generator (1) and high pressure oxygen increasing pump (3) are arranged in the casing.
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CN2009202361761U CN201509507U (en) | 2009-10-14 | 2009-10-14 | Microporous oxygenation, disinfection and sterilization device for high-density soilless stagnant water culture pond |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102090370A (en) * | 2010-12-03 | 2011-06-15 | 河南省水产科学研究院 | Tri-oxygen water plough |
CN102805051A (en) * | 2012-07-23 | 2012-12-05 | 北京中农天陆微纳米气泡水科技有限公司 | Sterilization and oxygenation equipment for aquaculture |
CN102812918A (en) * | 2011-06-07 | 2012-12-12 | 华中农业大学 | Low-temperature keep-alive transporter for freshwater fishes |
CN103058354A (en) * | 2013-01-21 | 2013-04-24 | 金湖县华能机电有限公司 | System for disinfection, purification and oxygen supply for water body |
CN103704170A (en) * | 2013-12-25 | 2014-04-09 | 浙江海洋学院 | Air-free stone breeding oxygen-adding device |
CN103704165A (en) * | 2013-12-25 | 2014-04-09 | 浙江海洋学院 | Air-free stone breeding container |
CN104285876A (en) * | 2014-09-24 | 2015-01-21 | 张家港市华申锦洲机械制造有限公司 | Aquaculture oxygenation system |
CN113248085A (en) * | 2021-06-11 | 2021-08-13 | 广州创领水产科技有限公司 | Pond circulating water culture and tail water treatment system and culture process |
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2009
- 2009-10-14 CN CN2009202361761U patent/CN201509507U/en not_active Expired - Fee Related
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102090370A (en) * | 2010-12-03 | 2011-06-15 | 河南省水产科学研究院 | Tri-oxygen water plough |
CN102812918A (en) * | 2011-06-07 | 2012-12-12 | 华中农业大学 | Low-temperature keep-alive transporter for freshwater fishes |
CN102812918B (en) * | 2011-06-07 | 2014-04-02 | 华中农业大学 | Low-temperature keep-alive transporter for freshwater fishes |
CN102805051A (en) * | 2012-07-23 | 2012-12-05 | 北京中农天陆微纳米气泡水科技有限公司 | Sterilization and oxygenation equipment for aquaculture |
CN102805051B (en) * | 2012-07-23 | 2014-04-02 | 北京中农天陆微纳米气泡水科技有限公司 | Sterilization and oxygenation equipment for aquaculture |
CN103058354A (en) * | 2013-01-21 | 2013-04-24 | 金湖县华能机电有限公司 | System for disinfection, purification and oxygen supply for water body |
CN103704170A (en) * | 2013-12-25 | 2014-04-09 | 浙江海洋学院 | Air-free stone breeding oxygen-adding device |
CN103704165A (en) * | 2013-12-25 | 2014-04-09 | 浙江海洋学院 | Air-free stone breeding container |
CN103704170B (en) * | 2013-12-25 | 2015-12-09 | 浙江海洋学院 | Air-free stone cultivation oxygen-increasing device |
CN103704165B (en) * | 2013-12-25 | 2016-06-22 | 浙江海洋学院 | Air-free stone Cultivation container |
CN104285876A (en) * | 2014-09-24 | 2015-01-21 | 张家港市华申锦洲机械制造有限公司 | Aquaculture oxygenation system |
CN113248085A (en) * | 2021-06-11 | 2021-08-13 | 广州创领水产科技有限公司 | Pond circulating water culture and tail water treatment system and culture process |
CN113248085B (en) * | 2021-06-11 | 2023-12-05 | 广州创领水产科技有限公司 | Pond circulating water culture and tail water treatment system and culture process |
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