CN210869396U - Air flow system applied to shrimp culture pond and shrimp culture pond - Google Patents
Air flow system applied to shrimp culture pond and shrimp culture pond Download PDFInfo
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- CN210869396U CN210869396U CN201920831114.9U CN201920831114U CN210869396U CN 210869396 U CN210869396 U CN 210869396U CN 201920831114 U CN201920831114 U CN 201920831114U CN 210869396 U CN210869396 U CN 210869396U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/80—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
- Y02A40/81—Aquaculture, e.g. of fish
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Abstract
The application discloses be applied to air current system of raising shrimp pond includes: a shrimp pool and a first water inlet pipe; the air flow system applied to the shrimp pond further comprises: the air inlet pipes are arranged on the side wall of the shrimp pool, extend to the bottom of the shrimp pool and are used for providing oxygen for the shrimp pool; the water outlet pipe is arranged in the shrimp pond, the upper end of the water outlet pipe is provided with a water inlet with the height lower than that of the inner cavity of the shrimp pond, and therefore when the water surface in the shrimp pond is flush with the water inlet in height, floating foam on the water surface enters the water outlet pipe from the water inlet. When this application highly spills over the outlet pipe height through the shrimp pond internal water, bubble and water collect to the outlet pipe to by the discharge shrimp pond, reduced the time of artifical guard, the bubble piles up too much and can cause the bubble disease when having solved aquatic products shrimp and breeding, and the manual work gets rid of work efficiency low and can't guard a plurality of technical problem of shrimp culture pond simultaneously.
Description
[ technical field ] A method for producing a semiconductor device
The application relates to the field of aquaculture, in particular to an air flow system applied to a shrimp pond and a shrimp pond.
[ background of the invention ]
Oxygen supply pipeline is laid in shrimp pond usually to all during the aquaculture shrimp, but can accompany the accumulational phenomenon of bubble when floating to shrimp pond water, and the bubble is piled up too much and can be triggered the bubble disease, especially in summer, is the high period of onset of bubble disease, and acute case can cause 100% death of shrimp seedling, and the manual work gets rid of the bubble work efficiency and low and can't keep watch on a plurality of shrimp culture ponds simultaneously.
[ Utility model ] content
The utility model provides all can lay the oxygen suppliment pipeline in the shrimp pond usually when solving aquatic products shrimp and breeding, but the phenomenon that the bubble is piled up can be followed when the come-up arrives shrimp pond water face, the bubble is piled up too much and can be caused the bubble disease, especially in summer, it is the high period of sending out of bubble disease, acute case can cause 100% death of shrimp seedling, the manual work gets rid of the technical problem that the bubble work efficiency is low and can't watch and manage a plurality of shrimp ponds simultaneously, the air flow system and the shrimp pond of being applied to the shrimp pond are provided.
In order to solve the technical problem, the method is realized by the following technical scheme:
the utility model discloses the first aspect provides a be applied to air current system in shrimp culture pond, include:
a shrimp pool is arranged in the pond, a water inlet is arranged at the bottom of the shrimp pool,
the first water inlet pipe is arranged on the shrimp pool and used for providing a clean water source for the shrimp pool;
the air flow system applied to the shrimp pond further comprises:
the air inlet pipes are arranged on the side wall of the shrimp pool, extend to the bottom of the shrimp pool and are used for providing oxygen for the shrimp pool;
the water outlet pipe is arranged in the shrimp pond, the upper end of the water outlet pipe is provided with a water inlet with the height lower than that of the inner cavity of the shrimp pond, and therefore when the water surface in the shrimp pond is flush with the water inlet in height, floating foam on the water surface enters the water outlet pipe from the water inlet.
In some embodiments, the head of the water outlet pipe is provided with a detachably connected filter head, and the whole body of the filter head is provided with a plurality of water outlet holes.
In some embodiments, the filter head includes a connection portion in threaded connection with the water outlet pipe, and a filter portion disposed on the connection portion, the filter portion is hemispherical, and the plurality of water outlet holes are circumferentially disposed along a circumference of the filter portion.
In some embodiments, a plurality of oxygen supply devices connected with the plurality of air inlet pipes are arranged on the bottom surface of the shrimp pond, and a plurality of air outlet holes are distributed on the oxygen supply devices.
In some embodiments, the oxygen supply device comprises a base fixed on the bottom surface and an air outlet pipe fixed on the base and sleeved with the air inlet pipe, wherein the air outlet pipe is coiled around the same axis to form a circular ring shape, and the circular rings are arranged at intervals.
In some embodiments, the plurality of air outlet holes are uniformly distributed on the air outlet pipe, and the diameter of the air outlet pipe is larger than that of the air inlet pipe.
In some embodiments, the lower end of the water outlet pipe is provided with the air outlet pipe which is fixedly suspended and communicated with the air inlet pipe.
In some embodiments, the bottom surface is further provided with a second water inlet pipe arranged around the inner wall of the shrimp pond, and the second water inlet pipe is provided with a plurality of water outlets.
In some embodiments, the bottom surface is further provided with the air inlet pipe arranged around the inner wall of the shrimp pond, and the air inlet pipe and the second water inlet pipe are arranged up and down and fixed through a fixing part.
In some embodiments, the water collecting box can be detachably connected to the pot body, the water collecting box comprises a box body and a water collecting platform which is arranged in the box body and inclines to one side, a water inlet channel is formed at the interval between the water collecting platform and the box body, and the water inlet channel is of a gourd shape.
The utility model discloses the second aspect provides a support shrimp pond, support shrimp pond includes the utility model discloses the air flow system of being applied to support shrimp pond of first aspect.
Compared with the prior art, the application has the following advantages:
based on the technical scheme provided by the utility model, carry out the oxygen suppliment through laying many intake pipes in the shrimp pond, supply water through first inlet tube to the shrimp pond, highly overflow the outlet pipe height of shrimp pond water-logging when, bubble and water collect to the outlet pipe, and by the shrimp pond of discharging, the speed of drainage can be controlled to the velocity of flow through controlling first inlet tube, the time of artifical guard has been reduced, the bubble is piled up too much and can cause the bubble disease when having solved aquatic products shrimp and breeding, the manual work is got rid of work efficiency and is low and can't guard a plurality of technical problem in shrimp pond simultaneously.
[ description of the drawings ]
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:
fig. 1 is a perspective view of an air flow system applied to a shrimp pond and the shrimp pond of the present application.
Figure 2 is a cross-sectional view of the air flow system and shrimp pond of the present application as applied to a shrimp pond.
[ detailed description ] embodiments
The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.
As shown in fig. 1 to 2, an air flow system applied to a shrimp pond includes: the device comprises a shrimp pool 10 and a first water inlet pipe 20, wherein the first water inlet pipe 20 is arranged on the shrimp pool 10 and is used for providing a clean water source for the shrimp pool 10; the air flow system applied to the shrimp pond further comprises: a plurality of air inlet pipes 30, which are arranged on the side wall of the shrimp pool 10 and extend to the bottom of the shrimp pool 10, and are used for providing oxygen to the shrimp pool 10; the water outlet pipe 40 is arranged in the shrimp pool 10, and the upper end of the water outlet pipe 40 is provided with a water inlet 400 with the height lower than that of the inner cavity of the shrimp pool 10, so that when the water surface in the shrimp pool 10 is flush with the water inlet 400 in height, the floating foam on the water surface enters the water outlet pipe 40 from the water inlet 400. The height of the water outlet pipe 40 is 3/4 to 4/5 of the height of the shrimp pool 10, so as to prevent the water level in the inner cavity of the shrimp pool 10 from being too high, the water flow is supplemented slowly, and circulation cannot be formed, the first water inlet pipe 20 is arranged on the plane 101 of the shrimp pool 10, part of the first water inlet pipe 20 extends straight to the shrimp pool 10, the first water inlet pipe 20 is provided with a control switch 210 for controlling the water flow, the plurality of air inlet pipes 30 are fixed on the inner wall 110 of the shrimp pool 10, damage caused by random placement of the air inlet pipes 30 is avoided, the air inlet pipes 30 extend towards the bottom of the shrimp pool 10, the oxygen distribution is wider, the water outlet pipe 40 is arranged at the middle position of the shrimp pool 10, and the shape of the shrimp pool 10 is not limited to be circular; the plurality of air inlet pipes 30 are laid in the shrimp pond 10 for supplying oxygen, the first water inlet pipe 20 is used for supplying water to the shrimp pond 10, when the height of water in the shrimp pond 10 overflows the height of the water outlet pipe 40, air bubbles and water are collected to the water outlet pipe 40 and are discharged out of the shrimp pond 10, the flow rate of the first water inlet pipe 20 is controlled, the time for manual supervision is shortened, an oxygen supply pipeline is usually laid in the shrimp pond when aquatic shrimps are cultured, but the phenomenon of bubble accumulation is accompanied when the water bubbles float to the water surface of the shrimp pond, the bubble disease is caused by excessive bubble accumulation, the current operation of the bubbles is manually removed, the working efficiency is low, and the technical problems that a plurality of shrimp ponds cannot be supervised at the same time are solved.
The head of the water outlet pipe 40 is provided with a filter head 50 which is detachably connected, and the whole body of the filter head 50 is provided with a plurality of water outlet holes 510. The filter head 50 prevents aquatic shrimps from being carried by the water flow to the water outlet pipe 40 to be discharged, and the water outlet hole 510 is used for discharging air bubbles and water.
The filter head 50 comprises a connecting part 520 in threaded connection with the water outlet pipe 40 and a filtering part 530 arranged on the connecting part 520, wherein the filtering part 530 is hemispherical, and a plurality of water outlets 510 are arranged around the whole body of the filtering part 530. The connecting portion 5110 is in threaded connection with the water outlet pipe 40, so that the filter head 50 is fixed on the water outlet pipe 40, and the filter portion 530 is hemispherical, has a large surface area, and facilitates water drainage of the water outlet hole 510.
The bottom surface 100 of the shrimp pool 10 is provided with a plurality of oxygen supply devices 60 connected with the plurality of air inlet pipes 30, and a plurality of air outlet holes 600 are distributed on the oxygen supply devices 60. The oxygen supply device 60 is connected to the intake duct 30, the area of oxygen supply is enlarged by the oxygen supply device 60, and the air outlet 600 is used to supply air bubbles in the shrimp pool 10.
The plurality of air outlet holes 600 are uniformly distributed on the air outlet pipe 620, and the diameter of the air outlet pipe 620 is larger than that of the air inlet pipe 30. The outlet tube 620 has a larger diameter and thus is able to store a larger volume of oxygen, increasing the volume and rate of oxygen supply.
The lower end of the water outlet pipe 40 is provided with the air outlet pipe 620 which is fixedly suspended and communicated with the air inlet pipe 30. The shrimp around the water outlet pipe 40 can not obtain oxygen and is prevented from being blocked at the filter head 50.
The bottom surface 100 is further provided with a second water inlet pipe 70 arranged around the shrimp pool inner wall 110, and the second water inlet pipe 70 is provided with a plurality of water outlets 710. The second water inlet pipe 70 is used to increase the rate of water inflow.
The bottom surface 100 is further provided with the air inlet pipe 30 surrounding the shrimp pool inner wall 110, and the air inlet pipe 30 and the second water inlet pipe 70 are vertically arranged and fixed through a fixing member 80. The air inlet pipe 30 surrounds the shrimp pool inner wall 110, so that the shrimps at the shrimp pool inner wall 110 obtain oxygen.
The utility model provides a shrimp culture pond, shrimp culture pond include the utility model discloses the air flow system who is applied to shrimp culture pond that any technical scheme provided. Through lay many in the shrimp pond 10 the intake pipe 30 supplies oxygen, supply water through first inlet tube 20 to the shrimp pond 10, the height of the interior water of shrimp pond 10 overflows when outlet pipe 40 is high, bubble and water to the outlet pipe 40 collects, and is discharged the shrimp pond 10, can control the speed of drainage through controlling the velocity of flow of first inlet tube 20, has reduced the time of artifical guard, has ended and has all usually can lay the oxygen supply pipeline in the shrimp pond when aquatic products shrimp is bred, but the phenomenon that can accompany the bubble pile up when floating up the shrimp pond water face, and the bubble piles up too much and can cause the bubble disease, and present operation to the bubble is got rid of by the manual work, and work efficiency is low and can't watch the technical problem in a plurality of shrimp ponds simultaneously.
As described above, the embodiments of the present application have been described in detail, but the present application is not limited to the above embodiments. Even if various changes are made in the present application, the protection scope of the present application is still included.
Claims (10)
1. An air flow system for use in a shrimp pond comprising:
a shrimp pool (10),
the first water inlet pipe (20) is arranged on the shrimp pool (10) and used for providing a clean water source for the shrimp pool (10);
the method is characterized in that: the air flow system applied to the shrimp pond further comprises:
a plurality of air inlet pipes (30) which are arranged on the side wall of the shrimp pool (10) and extend to the bottom of the shrimp pool (10) and are used for providing air for the shrimp pool (10);
the water outlet pipe (40) is arranged in the shrimp pool (10), the upper end of the water outlet pipe (40) is provided with a water inlet (400) with the height lower than that of the inner cavity of the shrimp pool (10), and when the water surface in the shrimp pool (10) is flush with the height of the water inlet (400), floating foam on the water surface enters the water outlet pipe (40) from the water inlet (400).
2. The air flow system as claimed in claim 1, wherein: the head of the water outlet pipe (40) is provided with a filter head (50) which is detachably connected, and a plurality of water outlet holes (510) are formed in the peripheral side of the filter head (50).
3. The air flow system as claimed in claim 2, wherein: the filter head (50) comprises a connecting part (520) in threaded connection with the water outlet pipe (40) and a filtering part (530) arranged on the connecting part (520), wherein the filtering part (530) is hemispherical, and a plurality of water outlets (510) are arranged around the body of the filtering part (530).
4. The air flow system as claimed in claim 1, wherein: the bottom surface (100) of the shrimp pool (10) is provided with a plurality of oxygen supply devices (60) connected with the plurality of air inlet pipes (30), and a plurality of air outlet holes (600) are distributed on the oxygen supply devices (60).
5. The air flow system as claimed in claim 4, wherein: oxygen supply apparatus (60) are including being fixed in base (610) of bottom surface (100) and being fixed in on base (610) and with outlet duct (620) that intake pipe (30) cup jointed, outlet duct (620) are coiled around same axle center and are the ring type and each ring interval setting.
6. The air flow system as claimed in claim 5, wherein: the air outlet holes (600) are uniformly distributed on the air outlet pipe (620), and the diameter of the air outlet pipe (620) is larger than that of the air inlet pipe (30).
7. The air flow system as claimed in claim 5, wherein: the lower end of the water outlet pipe (40) is provided with a fixed suspended air outlet pipe (620) communicated with the air inlet pipe (30).
8. The air flow system as claimed in claim 4, wherein: the bottom surface (100) is also provided with a second water inlet pipe (70) which is arranged around the shrimp pond inner wall (110) in a circle, and the second water inlet pipe (70) is provided with a plurality of water outlets (710).
9. The air flow system as recited in claim 8, applied to a shrimp pond, wherein: the bottom surface (100) is further provided with an air inlet pipe (30) which is arranged around the shrimp pond inner wall (110) in a surrounding way, and the air inlet pipe (30) and the second water inlet pipe (70) are vertically arranged and are fixed through a fixing piece (80).
10. A shrimp culture pond is characterized in that: the shrimp pond including an air flow system as claimed in any one of claims 1 to 9 applied to the shrimp pond.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920831114.9U CN210869396U (en) | 2019-05-31 | 2019-05-31 | Air flow system applied to shrimp culture pond and shrimp culture pond |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920831114.9U CN210869396U (en) | 2019-05-31 | 2019-05-31 | Air flow system applied to shrimp culture pond and shrimp culture pond |
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CN210869396U true CN210869396U (en) | 2020-06-30 |
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CN201920831114.9U Expired - Fee Related CN210869396U (en) | 2019-05-31 | 2019-05-31 | Air flow system applied to shrimp culture pond and shrimp culture pond |
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CN (1) | CN210869396U (en) |
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2019
- 2019-05-31 CN CN201920831114.9U patent/CN210869396U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200630 |
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CF01 | Termination of patent right due to non-payment of annual fee |