CN211048196U - Power oxygenation system applied to shrimp culture pond - Google Patents
Power oxygenation system applied to shrimp culture pond Download PDFInfo
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- CN211048196U CN211048196U CN201921448105.8U CN201921448105U CN211048196U CN 211048196 U CN211048196 U CN 211048196U CN 201921448105 U CN201921448105 U CN 201921448105U CN 211048196 U CN211048196 U CN 211048196U
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Abstract
The application discloses a power oxygenation system applied to a shrimp pond, wherein a first water pipe is arranged around the edge of the upper end of the shrimp pond and is communicated with water outlets of multiple water pumps arranged at one end of the shrimp pond, one end of each water pump is fixedly provided with a mesh enclosure, the situation that water in the shrimp pond is pumped into the first water pipe in the process of pressing the water in the shrimp pond into the first water pipe can be prevented, the first water pipe is communicated with a plurality of second water pipes arranged in L shapes, the water outlet ends of the second water pipes are provided with venturi nozzles, the venturi nozzles are positioned at the bottom of the shrimp pond, biological flocs in the shrimp pond can be flushed by utilizing the impulsive force of the water sprayed out of the venturi nozzles, the situation that the biological flocs precipitate is prevented, the second water pipe is communicated with an air pipe, the air pipe is perpendicular to the bottom plane of the shrimp pond, the purpose of oxygenation can be achieved by utilizing the air pipe, the content of the water in the shrimp pond is ensured to be sufficient, the oxygenation system can improve the yield, the economic benefit and the growth benefit of the shrimp.
Description
Technical Field
The application relates to the field of cultivation, in particular to a power oxygenation system applied to a shrimp pond.
Background
At present, China has various shrimp culture modes, such as a semi-intensive culture mode and an intensive culture mode, but most of the shrimp culture processes in the existing modes adopt a drainage and irrigation mode, so that energy is wasted, and waste water and sewage are discharged at will to cause environmental pollution, so that a plurality of diseases are caused by shrimp culture and culture, and the economic benefit is reduced. The development of the culture of the penaeus vannamei boone to the industrial closed circulating water culture is considered with reference to the development direction of the culture of the penaeus vannamei boone, so that the artificial control is facilitated, the waste water discharge is reduced, and the ecological environment is maintained. Therefore, in order to solve the problems, the runway culture is rapidly developed, but the current runway culture has the problems of low oxygen content in the shrimp culture pond, easy precipitation of biological floccules and the like, further influences the growth, yield and quality of the shrimps, and reduces the economic benefit.
Therefore, the problem that how to overcome the problems that the oxygen content in the shrimp culture pond is low and the biological floccules are easy to precipitate is the problem to be solved urgently by the technical personnel in the field.
SUMMERY OF THE UTILITY MODEL
The application provides a power oxygenation system for shrimp culture pond has solved among the prior art among the shrimp culture pond oxygen content low, the problem that biological wadding group easily deposits.
In order to solve the technical problem, the application provides a power oxygenation system for shrimp culture pond, includes:
enclose locate shrimp culture pond upper end border department first water pipe, install in a plurality of water pumps of shrimp culture pond one end, each the delivery port of water pump all with first water pipe switch-on, each the one end of the inlet tube of water pump is fixed with the screen panel, be provided with a plurality of second water pipes on the first water pipe, the second water pipe is L type setting, the delivery port department of second water pipe installs the venturi shower nozzle, be provided with the air hose on the second water pipe, the venturi shower nozzle is located the bottom in shrimp culture pond, the air hose with the bottom plane looks of shrimp culture pond is perpendicular, wherein, the diameter of first water pipe is greater than the diameter of second water pipe.
Preferably, the distance between any two adjacent second water pipes is equal.
Preferably, an upright membrane is further arranged in the middle of the shrimp pond.
Preferably, the method further comprises the following steps:
and the miniature electric boiler is arranged on the outer wall of the shrimp pond.
Preferably, the micro electric boiler is installed at the outer wall of the bottom of the shrimp pond.
Compared with the prior art, the dynamic oxygen increasing system applied to the shrimp pond is characterized in that a first water pipe is arranged at the edge of the upper end of the shrimp pond in a surrounding mode, the first water pipe is communicated with the water outlets of multiple water pumps arranged at one end of the shrimp pond, one end of each water inlet pipe of each water pump is fixedly provided with a mesh enclosure, the situation that shrimps in the shrimp pond are pumped into the first water pipe in the process of pressing water in the shrimp pond into the first water pipe can be prevented, the first water pipe is communicated with a plurality of second water pipes arranged in L mode, the water outlet end of each second water pipe is provided with a Venturi nozzle, the Venturi nozzle is located at the bottom of the shrimp pond, biological floccules in the shrimp pond can be flushed by the aid of impulsive force of water sprayed from the Venturi nozzle, the situation that the biological floccules precipitate is prevented, an air pipe is communicated with the second water pipe, the air pipe is perpendicular to the bottom plane of the shrimp pond, the purpose of increasing oxygen in the shrimp pond can be achieved by the aid of air pipes, sufficient oxygen content in the shrimp pond is ensured, and the economic benefit of the shrimp pond is increased.
Drawings
In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments are briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without making any inventive changes.
Fig. 1 is a schematic structural view of a dynamic oxygen increasing system applied to a shrimp pond provided by an embodiment of the present invention.
Detailed Description
In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings.
The core of the application is to provide a power oxygenation system applied to a shrimp culture pond, which can solve the problems that in the prior art, the oxygen content in the shrimp culture pond is low and biological floccules are easy to precipitate.
Fig. 1 is a schematic structural view of a power oxygen increasing system applied to a shrimp pond provided by an embodiment of the present invention, as shown in fig. 1, the oxygen increasing system includes:
enclose locate 1 upper end border department in shrimp culture pond first water pipe 2, install in a plurality of water pumps of 1 one end in shrimp culture pond, each the delivery port of water pump all with 2 switch-ons of first water pipe, each the one end of the inlet tube of water pump is fixed with the screen panel, be provided with a plurality of second water pipes 3 on the first water pipe 2, second water pipe 3 is L type setting, venturi shower nozzle 4 is installed to the delivery port department of second water pipe 3, be provided with air duct 5 on the second water pipe 3, venturi shower nozzle 4 is located the bottom in shrimp culture pond 1, air duct 5 with the bottom plane looks of shrimp culture pond 1 is perpendicular, wherein, the diameter of first water pipe 2 is greater than the diameter of second water pipe 3, the diameter of second water pipe 3 is greater than the diameter of air duct 5.
Specifically, as a preferred embodiment, the shrimp pond 1 can adopt a runway type shrimp pond, specifically, an upright membrane 6 is arranged at the central position of the shrimp pond 1, the runway type shrimp pond can enable shrimps to move in a countercurrent mode, so that physique is exercised, and resistance of the shrimps is enhanced, cultivation water enters an intercommunicated fluidized bed biological filter through a circulating pump and is recycled after being treated, a circle of first water pipe 2 can be arranged at the upper end of the shrimp pond 1 in a surrounding mode, a plurality of water pumps are arranged at one end of the bottom of the shrimp pond 1, the water pumps can adopt 3kw circulating pumps, water outlets of the roots pumps are communicated with the first water pipe 2, a mesh cover is fixed at one end of a water inlet pipe of each water pump, water in the shrimp pond 1 can be pumped into the first water pipe 2, meanwhile, the shrimps in the shrimp pond 1 can be prevented from being sucked into the first water pipe 2 by using the mesh cover at one end of the water inlet pipe, a second water pipe 3 with the diameter smaller than the shrimp pond itself is communicated with the first water pipe 2, the second water pipe 3, the mesh cover is arranged in a L, the shrimp pond 1, the mesh cover is positioned at one end of the shrimp pond, the shrimp pond 1, the shrimp pond can be used as a second water pipe 3, the algae floating pond, the shrimp pond can be used for controlling water flow of the shrimp pond, the algae floating, the shrimp pond 1, the algae floating bait water is used for controlling the algae floating, the algae floating bait cluster, the bait of the shrimp pond 1, the bait cluster, the bait of the bait, the bait cluster, the bait of the shrimp pond 1, the bait cluster 2, the bait of the bait 1, the bait of the bait 3, the bait of the bait, the bait is used for controlling the bait of the bait, the bait of the bait, the bait of the bait 1, the bait of the bait 1, the bait of the bait.
This application utilizes the venturi principle, utilizes external circulating pump circulating pond water to bring the air into simultaneously and produce the particle bubble and dissolve in the water oxygen suppliment in aqueous. During actual installation, the venturi nozzle 4 can be 10cm away from the bottom of the shrimp pond 1 and form an angle of 45 degrees with the wall of the pond, so that the sediment at the bottom of the pond can be overturned by the sprayed water bubbles, and the whole culture water circulates around the diaphragm in the pond. The dissolved oxygen is high, the water mobility is strong, the shrimps can swim in a certain direction, the amount of exercise is large, the nutrition absorption is fast, and the growth is fast.
In order to ensure that the biological flocs in any position in the shrimp pond 1 can be flushed, as a preferred embodiment, a plurality of second water pipes 3 can be uniformly communicated with the first water pipe 2, i.e. the distance between any two adjacent second water pipes 3 is ensured to be equal. In order to ensure the temperature in the shrimp pond 1 and improve the yield of the shrimps, the preferable embodiment further comprises: install in the miniature electric boiler of 1 outer wall of shrimp culture pond, specifically, can install 30 kw's miniature electric boiler on every shrimp culture pond 1, usable this heat energy improves the temperature and carries out the cultivation of many stubbles, can improve the utilization ratio in shrimp farm, increases economic benefits. Preferably, a micro electric boiler may be installed at the outer wall of the bottom of the shrimp pool 1. The system provided by the embodiment of the application can ensure that the ecological environment in the shrimp pond 1 is in a good state, creates an optimal survival and growth condition for shrimps, promotes the smooth growth of the shrimps under the condition of high-density intensive stocking, improves the yield and quality of unit area, and strives for higher economic benefit.
The embodiment of the application provides a power oxygenation system applied to a shrimp pond, wherein a first water pipe is arranged at the edge of the upper end of the shrimp pond in a surrounding mode, the first water pipe is communicated with water outlets of multiple water pumps arranged at one end of the shrimp pond, one end of each water inlet pipe of each water pump is fixedly provided with a mesh enclosure, the situation that water in the shrimp pond is pumped into the first water pipe in the process of pressing the water in the shrimp pond into the first water pipe can be prevented, the first water pipe is communicated with a plurality of second water pipes arranged in L mode, the water outlet end of each second water pipe is provided with a Venturi nozzle, the Venturi nozzles are located at the bottom of the shrimp pond, biological floccules in the shrimp pond can be flushed by using impulsive force of water sprayed from the Venturi nozzles, the situation that the biological floccules are deposited is prevented, the second water pipe is communicated with an air pipe, the air pipe is perpendicular to the bottom plane of the shrimp pond, the purpose of the air pipe can be achieved, the oxygen content of the water in the shrimp pond is ensured, the economic benefit of the shrimp pond is improved, and the growth and the economic benefit of the shrimp pond is improved.
Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice in the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims.
It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The above-described embodiments of the present application do not limit the scope of the present application.
Claims (5)
1. The utility model provides a power oxygenation system for shrimp culture pond which characterized in that includes:
enclose locate shrimp culture pond upper end border department first water pipe, install in a plurality of water pumps of shrimp culture pond one end, each the delivery port of water pump all with first water pipe switch-on, each the one end of the inlet tube of water pump is fixed with the screen panel, be provided with a plurality of second water pipes on the first water pipe, the second water pipe is L type setting, the delivery port department of second water pipe installs the venturi shower nozzle, be provided with the air hose on the second water pipe, the venturi shower nozzle is located the bottom in shrimp culture pond, the air hose with the bottom plane looks of shrimp culture pond is perpendicular, wherein, the diameter of first water pipe is greater than the diameter of second water pipe.
2. The dynamic oxygen increasing system applied to the shrimp pond as claimed in claim 1, wherein the distance between any two adjacent second water pipes is equal.
3. The dynamic oxygen increasing system applied to the shrimp pond as claimed in claim 1, wherein an upright membrane is further provided at the middle position of the shrimp pond.
4. The powered oxygenation system for shrimp ponds according to claim 1 further comprising:
and the miniature electric boiler is arranged on the outer wall of the shrimp pond.
5. The dynamic oxygen increasing system applied to the shrimp pond as claimed in claim 4, wherein the micro electric boiler is installed at the outer wall of the bottom of the shrimp pond.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921448105.8U CN211048196U (en) | 2019-09-03 | 2019-09-03 | Power oxygenation system applied to shrimp culture pond |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921448105.8U CN211048196U (en) | 2019-09-03 | 2019-09-03 | Power oxygenation system applied to shrimp culture pond |
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CN211048196U true CN211048196U (en) | 2020-07-21 |
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CN201921448105.8U Active CN211048196U (en) | 2019-09-03 | 2019-09-03 | Power oxygenation system applied to shrimp culture pond |
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2019
- 2019-09-03 CN CN201921448105.8U patent/CN211048196U/en active Active
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