CN114258885A

CN114258885A - Aquaculture pond with hydrodynamic force water impeller

Info

Publication number: CN114258885A
Application number: CN202210017631.9A
Authority: CN
Inventors: 谢福平
Original assignee: Huizhou Honeycomb Breeding Equipment Co ltd
Current assignee: Huizhou Honeycomb Breeding Equipment Co ltd
Priority date: 2022-01-07
Filing date: 2022-01-07
Publication date: 2022-04-01
Anticipated expiration: 2042-01-07
Also published as: CN114258885B

Abstract

The invention relates to the technical field of aquaculture, and particularly discloses an aquaculture pond with a hydrodynamic water pusher, which comprises a water pusher, wherein the water pusher is provided with a support, a shaft part rotatably arranged on the support, an impeller and water pushing blades, the impeller and the water pushing blades are arranged on the shaft part, the support is provided with a water through hole, and the impeller is positioned in the water through hole; the water flowing through the water through holes impacts the impeller to enable the impeller to drive the shaft body part to rotate, and the rotating shaft body part drives the water pushing blades to rotate so that the water pushing blades stir the water in the aquaculture pond; in the process of culturing aquatic organisms in the aquaculture pond, when external water flows through the water holes, the impeller is pushed to enable the shaft piece to drive the water pushing blades to rotate, and the water in the aquaculture pond is stirred by the water pushing blades; on the other hand, the water in the culture pond is oxygenated by the water pusher, so that the aquatic organisms in the culture pond are prevented from growing badly due to oxygen deficiency.

Description

Aquaculture pond with hydrodynamic force water impeller

Technical Field

The invention relates to the technical field of aquaculture, and particularly discloses an aquaculture pond with a hydrodynamic water pusher.

Background

Aquatic organisms are one of common foods in daily life of people, for example, fish is one of common aquatic organisms, taking fish as an example, the fish is generally raised in a culture pond, and in the process of raising the fish, in order to ensure that the water in the culture pond has enough oxygen, a water wheel is often required to be driven by a motor to stir in the water, so that the oxygen increasing of the water in the culture pond is realized, and the condition that the fish grows badly due to the oxygen deficiency in the water is avoided.

In the prior art, the waterwheel is complex in structure and extremely inconvenient to use, and particularly in a culture pond with relatively small volume, the waterwheel is extremely inconvenient to use. In addition, the waterwheel needs to be driven by the motor to continuously operate, and the motor which operates for a long time needs to consume a large amount of electric energy, so that on one hand, electric energy is wasted, and on the other hand, the cost of oxygen aeration cost is very high.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide the aquaculture pond with the hydrodynamic water pusher, the water pusher has a simple structure and is convenient to use, and on one hand, the electric energy consumed by the operation of the water pusher driven by an electric unit is avoided; on the other hand, the water in the culture pond is oxygenated by the water pusher, so that the aquatic organisms in the culture pond are prevented from growing badly due to oxygen deficiency.

In order to achieve the purpose, the aquaculture pond with the hydrodynamic water pusher comprises the water pusher, wherein the water pusher is provided with a support, a shaft member rotatably arranged on the support, an impeller and water pushing blades, the impeller and the water pushing blades are arranged on the shaft member, the support is provided with a water through hole, and the impeller is positioned in the water through hole; the water that flows through the water hole strikes the impeller and makes the impeller drive the shaft body spare and rotate, and pivoted shaft body spare drives the blade that pushes away water and rotates so that the blade that pushes away water stirs the water in the aquaculture pond.

Furthermore, the water pushing blade is provided with a through hole penetrating through the water pushing blade; when the water pushing blades rotate, water in the culture pond body flows through the through holes, and the resistance of the water in the culture pond body to the water pushing blades is reduced.

Furthermore, the number of the through holes is multiple, the through holes penetrate through the water pushing blade along the thickness direction of the water pushing blade, and the through holes are arranged in the length direction of the water pushing blade and in the width direction of the water pushing blade.

Further, push away the hydrophone and still establish a plurality of pipe spares in the axle spare outside including the cover, and a plurality of pipe spares are arranged along the length direction of axle spare and are set up, and each pipe spare all is equipped with a plurality of water blades that push away, and a plurality of water blades that push away of same pipe spare encircle axle spare and set up.

Furthermore, the support has barrel portion and the cantilever part of setting on barrel portion, crosses the water hole and sets up on barrel portion, and the impeller is located barrel portion, and the one end of axle spare is rotated and is set up on barrel portion, and the other end of axle spare is rotated and is set up the one end of keeping away from barrel portion at the cantilever part.

Further, still including breeding the cell body, breed the cell body and be the annular, breed the cell body and include a plurality of pond body boards, a plurality of pond body boards end to end link up and form and breed the cell body, and the water pusher is located and breeds the cell body, and the parallel surface of water setting of establishing water of breeding the cell body appearance of axis body spare is held.

Furthermore, the number of the water pushers is multiple, the water pushers are arranged around the central axis of the culture pond body, and the water pushers are used for stirring water at different positions in the culture pond body respectively.

Furthermore, the culture tank body is annular, the shaft body part extends along the radial direction of the culture tank body, and the tank body plate is made of plastics or metal materials; the central position of the culture pond body is provided with a blow-down valve which is used for discharging sundries in the culture pond body.

Furthermore, the water-proof cloth is positioned in the culture pond body and provided with a bottom wall and an annular side wall surrounding the bottom wall, and the annular side wall is arranged on the side wall of the culture pond body; the sewage discharge valve is positioned in the center of the bottom wall and penetrates through the bottom wall, the sewage discharge valve is provided with a first water discharge hole and a second water discharge hole isolated from the first water discharge hole, and water at the lower part of the culture pond body is discharged through the first water discharge hole; the blowoff valve is provided with a vertical pipe communicated with the second drain hole, the upper end of the vertical pipe is provided with a water leakage hole, and water on the upper part of the culture pond body enters the vertical pipe through the water leakage hole and is discharged through the second drain hole.

Furthermore, the water-saving culture pond also comprises a water inlet pipe extending into the culture pond body, the water inlet pipe is obliquely arranged, the included angle between the water inlet pipe and the vertical direction is 0-90 degrees, the support is arranged at the water outlet end of the water inlet pipe, the water inlet pipe is communicated with the water inlet hole, and external water flows into the water inlet hole through the water inlet pipe and flows out of the support to enter the culture pond body.

The invention has the beneficial effects that: in the process of culturing aquatic organisms in the aquaculture pond, when external water flows through the water holes, the impeller is pushed to enable the shaft piece to drive the water pushing blades to rotate, and the water in the aquaculture pond is stirred by the water pushing blades; on the other hand, the water in the culture pond is oxygenated by the water pusher, so that the aquatic organisms in the culture pond are prevented from growing badly due to oxygen deficiency.

Drawings

FIG. 1 is a schematic structural view of a culture tank, a water inlet pipe and a water pusher according to the present invention;

FIG. 2 is a schematic perspective view of the water pusher of the present invention;

FIG. 3 is an exploded view of the water pusher of the present invention;

fig. 4 is a schematic structural diagram of the pipe member and a plurality of water-pushing blades of the present invention.

The reference numerals include:

1-water pusher 2-support 3-shaft body member

4-impeller 5-water pushing blade 6-water through hole

7-perforation 8-pipe body 9-cylinder part

11-cantilever part 12-culture tank body 13-tank body plate

14-water inlet pipe.

Detailed Description

For the understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

Referring to fig. 1 to 4, an aquaculture pond with a hydrodynamic water pusher according to the present invention includes a water pusher 1, the water pusher 1 includes a bracket 2, a shaft member 3 rotatably disposed on the bracket 2, an impeller 4 disposed on the shaft member 3, and a water pushing blade 5, according to actual requirements, the bracket 2 may be made of plastic or metal material, the shaft member 3 is substantially a straight rod, the bracket 2 is provided with a water through hole 6, the impeller 4 is disposed in the water through hole 6, the impeller 4 includes a plurality of water blocking blades, the plurality of water blocking blades are disposed around the shaft member 3, and the impeller 4 is a conventional impeller. The water flowing through the water holes 6 impacts the impeller 4 to enable the impeller 4 to drive the shaft member 3 to rotate, and the rotating shaft member 3 drives the water pushing blades 5 to rotate so that the water pushing blades 5 stir the water in the aquaculture pond.

In the process of aquaculture of the aquaculture pond, when the external water flow passes through the water hole 6, the impeller 4 is pushed to drive the water pushing blade 5 to rotate by the external water flow, of course, the external water can be positioned above the top of the aquaculture pond body 12, or the water pump is utilized to pump the water into the water storage tank at a high position at one time, and the water in the water storage tank gradually flows into the water hole 6. The water pushing blade 5 is used for stirring the water in the culture pond body 12, the water pushing device 1 is simple in structure and convenient to use, and on one hand, electric energy consumed by the electric unit for driving the water pushing device 1 to operate is avoided; on the other hand, the water booster 1 is used for increasing oxygen in the water in the culture tank body 12, so that the aquatic organisms in the culture tank body 12 are prevented from growing badly due to oxygen deficiency.

The water pushing blade 5 is provided with a through hole 7 penetrating through the water pushing blade 5; when pushing away water vane 5 and rotating, pivoted push away water vane 5 can pass in and out automatically and breed the aquatic in the cell body 12, push away water vane 5 when aquatic removal, stir the water of breeding in the cell body 12 on the one hand, on the other hand breeds the water in the cell body 12 and flows through perforation 7, reduces the resistance of breeding the water in the cell body 12 to pushing away water vane 5, guarantees to push away the smooth and easy nature when water vane 5 rotates.

In this embodiment, the number of the through holes 7 is plural, the through holes 7 penetrate the water pushing blade 5 in the thickness direction of the water pushing blade 5, and the plural through holes 7 are arranged in the length direction of the water pushing blade 5 and in the width direction of the water pushing blade 5. Through set up the configuration overall arrangement of a plurality of perforation 7 on pushing away water blade 5, guarantee the homogeneity that a plurality of perforation 7 distribute on pushing away water blade 5, guarantee on the one hand to push away water blade 5 and receive the homogeneity of resistance in aqueous, on the other hand guarantees that rivers push away water blade 5 and receive the homogeneity of reaction force when a plurality of perforation 7, avoids pushing away water blade 5 uneven and interference normal water oxygenation operation that pushes away in aqueous atress.

The water pusher 1 further comprises a plurality of pipe pieces 8 sleeved on the shaft piece 3, the pipe pieces 8 are arranged along the length direction of the shaft piece 3, each pipe piece 8 is provided with a plurality of water pushing blades 5, the water pushing blades 5 of the same pipe piece 8 are arranged around the shaft piece 3, and preferably, the water pushing blades 5 of the same pipe piece 8 are arranged in an annular array around the shaft piece 3. Through the cooperation setting of a plurality of pipe spare 8 and a plurality of leaf 5 that pushes away water, can promote simultaneously the water of different positions in breed cell body 12 when guaranteeing that axle spare 3 rotates, promote the promotion oxygenation efficiency to water.

In this embodiment, the shaft body 3 is provided with a clamping groove extending along the length direction of the shaft body 3, and the pipe body 8 is provided with a clamping rib extending into the clamping groove; the pipe member 8 is prevented from rotating relative to the shaft member 3 by stopping and abutting against the clamping rib at the side surface of the inner groove of the clamping groove. Of course, the cross section of the shaft body 3 is non-circular, and the inner hole of the tube body 8 is matched with the shape of the shaft body 3, so that the shaft body 3 and the tube body 8 are prevented from rotating relatively and being used badly.

The support 2 has barrel 9 and sets up cantilever part 11 on barrel 9, and barrel 9 is hollow cylindric, and cantilever part 11 is roughly the vertical bar form, crosses the water hole 6 and sets up on barrel 9, and impeller 4 is located barrel 9, and the one end of axis body spare 3 rotates and sets up on barrel 9, and the other end of axis body spare 3 rotates and sets up the one end of keeping away from barrel 9 in cantilever part 11. Preferably, the cantilever portion 11 is substantially L-shaped, the cantilever portion 11 has a main strip portion and a tail portion perpendicular to the main strip portion, the shaft member 3 is parallel to the main strip portion, and one end of the shaft member 3 away from the barrel portion 9 is rotatably disposed on the tail portion.

In this embodiment, the water passing hole 6 is substantially L-shaped, the water passing hole 6 includes a first hole and a second hole communicated with the first hole, the first hole and the second hole are vertically disposed, the impeller 4 is an impeller 4 located in the first hole, external water flows into the bracket 2 through the first hole to impact on the water blocking blade and drive the impeller 4 to rotate, the rotating impeller 4 can drive the water pushing blade 5 to rotate through the shaft member 3, and water flowing through the impeller 4 flows out of the bracket 2 through the second hole and enters the culture tank 12.

The aquaculture pond with the hydrodynamic force water pusher further comprises a culture pond body 12, the culture pond body 12 is annular, according to actual needs, the culture pond body 12 can be a rectangular ring, a triangular ring, a circular ring and the like, the culture pond body 12 comprises a plurality of pond body plates 13, the structures of the plurality of pond body plates 13 are the same, the plurality of pond body plates 13 are connected end to form the culture pond body 12, and the adjacent pond body plates 13 can be fixedly connected together through screws or rivets and the like. The water pusher 1 is positioned in the culture tank body 12, and the shaft body part 3 is arranged in parallel with the water surface of water contained in the culture tank body 12.

Preferably, the number of the water pushers 1 in the same culture pond body 12 is multiple, and the multiple water pushers 1 are arranged around the central axis of the culture pond body 12, for example, the multiple water pushers 1 are arranged in an annular array around the central axis of the culture pond body 12, and the multiple water pushers 1 respectively stir water in different positions in the culture pond body 12. The number of the water pushers 1 is increased in the same culture pond, so that the oxygen increasing efficiency in the culture pond body 12 is improved. In practical use, the number of the water pushers 1 is determined according to the specification and size of the culture pond body 12, and a small culture pond body 12 is provided with a small number of water pushers 1, for example, one water pusher 1. The large culture pond body 12 is matched with a plurality of water pushers 1, such as two water pushers 1 or three water pushers 1.

The culture tank body 12 is annular, the shaft body part 3 extends along the radial direction of the culture tank body 12, and the tank body plate 13 is made of plastics or metal materials; during the actual use, can directly place breed cell body 12 subaerial, with the ground that breeds cell body 12 circle as the diapire of breeding cell body 12, through the setting of breeding cell body 12, need not to dig the hole as the cell body on ground, can also breed aquatic products living beings indoor simultaneously, compare in outdoor breed aquatic products living beings, promote the aquatic products living beings damage that leads to because of external environment changes.

In this embodiment, a central position of the culture pond body 12 is provided with a blowdown valve (not shown), and the blowdown valve is used for discharging impurities in the culture pond body 12. Through the structural arrangement that the shaft body part 3 extends along the radial direction of the culture tank body 12, water stirred by the water pushing blades 5 of the water pusher 1 rotates around the central axis of the culture tank body 12, so that sundries at the bottom in the culture tank body 12 are gathered at the center of the culture tank body 12, the sundries are prevented from scattering at each part of the bottom of the culture tank body 12, and the discharge yield and the discharge efficiency of the sewage discharge valve to the sundries in the culture tank body 12 are improved. In addition, when the water stirred by the water pushing blades 5 of the water pusher 1 rotates around the central axis of the culture tank body 12, the aquatic organisms keep moving continuously by virtue of the characteristic of the countercurrent movement of the aquatic organisms (such as fish and the like) in the culture tank body 12, the purpose of 'body building' of the aquatic organisms is realized, diseases caused by too little movement of the aquatic organisms are avoided, and the healthy growth of the aquatic organisms is ensured.

The aquaculture pond with the hydrodynamic water pusher further comprises a water-proof cloth (not shown in the figure) positioned in the culture pond body 12, and the water-proof cloth can be knife scraping cloth or waterproof canvas according to actual needs, and is provided with a bottom wall and an annular side wall surrounding the bottom wall, and the annular side wall is arranged on the side wall of the culture pond body 12. The water-proof cloth is used for containing water in the culture pond body 12, and the probability of water loss caused by leakage in the culture pond body 12 is reduced.

The blowoff valve is positioned in the center of the bottom wall and penetrates through the bottom wall, the blowoff valve is provided with a first drain hole and a second drain hole isolated from the first drain hole, and water at the lower part of the culture pond body 12 is drained through the first drain hole; the blowoff valve is provided with a vertical pipe communicated with the second drain hole, the upper end of the vertical pipe is provided with a water leakage hole, and water at the upper part of the culture tank body 12 enters the vertical pipe through the water leakage hole and is discharged through the second drain hole.

When the device is actually used, the first drainage hole is used for discharging sundries (such as sludge, excrement and urine discharged by aquatic organisms and the like) at the lower part of the culture tank body 12, the water leakage hole is used for discharging floating sundries at the upper part of the culture tank body 12, the cleanness of water in the culture tank body 12 is ensured, and the problem that the aquatic organisms grow badly due to the pollution of the water in the culture tank body 12 is avoided.

The aquaculture pond with the hydrodynamic water pusher further comprises a water inlet pipe 14 extending into the aquaculture pond body 12, wherein the water inlet pipe 14 is obliquely arranged, and an included angle between the water inlet pipe 14 and the vertical direction is 0-90 degrees. The bracket 2 is arranged at the water outlet end of the water inlet pipe 14, the water inlet pipe 14 is communicated with the water inlet hole, and outside water flows into the water inlet hole through the water inlet pipe 14 and flows out of the bracket 2 to enter the culture pond body 12. Compared with the vertical arrangement of the water inlet pipe 14, by virtue of the inclined arrangement of the water inlet pipe 14, the water discharged into the culture pond body 12 from the water inlet hole of the water inlet pipe 14 has the power for pushing the water in the culture pond body 12 to rotate around the central axis of the culture pond body 12, and the water discharged into the culture pond body 12 from the water discharge pipe is fully utilized.

Preferably, the inlet pipe 14 is angled 20-50 ° from vertical, for example, the inlet pipe 14 is angled 45 ° from vertical. When the included angle between the water inlet pipe 14 and the vertical direction is less than 20 degrees, the water flowing into the culture pond body 12 and discharged by the water inlet pipe 14 pushes the water in the culture pond body 12 to rotate with smaller power. When the included angle between the water inlet pipe 14 and the vertical direction is less than 50 degrees, the water discharged from the water inlet pipe 14 and flowing into the culture tank body 12 is easy to spill out of the culture tank body 12.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. The utility model provides an aquaculture pond with hydrodynamic force pushes away hydrophone which characterized in that: the water pusher comprises a support, a shaft member rotatably arranged on the support, an impeller arranged on the shaft member and water pushing blades, wherein the support is provided with a water passing hole, and the impeller is positioned in the water passing hole; the water that flows through the water hole strikes the impeller and makes the impeller drive the shaft body spare and rotate, and pivoted shaft body spare drives the blade that pushes away water and rotates so that the blade that pushes away water stirs the water in the aquaculture pond.

2. An aquaculture pond with a hydrodynamic water pusher according to claim 1, wherein: the water pushing blade is provided with a through hole penetrating through the water pushing blade; when the water pushing blades rotate, water in the culture pond body flows through the through holes, and the resistance of the water in the culture pond body to the water pushing blades is reduced.

3. An aquaculture pond with a hydrodynamic water pusher according to claim 2, wherein: the quantity of perforation is a plurality of, and the perforation runs through along pushing away water blade's thickness direction and pushing away water blade, and a plurality of perforations are just arranged along pushing away water blade's width direction along pushing away water blade's length direction and setting.

4. An aquaculture pond with a hydrodynamic water pusher according to claim 1, wherein: the water pusher further comprises a plurality of pipe pieces sleeved on the outer side of the shaft piece, the pipe pieces are arranged along the length direction of the shaft piece, each pipe piece is provided with a plurality of water pushing blades, and the water pushing blades of the same pipe piece are arranged around the shaft piece.

5. An aquaculture pond with a hydrodynamic water pusher according to claim 1, wherein: the support has barrel portion and sets up the cantilever part on barrel portion, and the water hole setting is crossed on barrel portion, and the impeller is located barrel portion, and the one end of axle spare is rotated and is set up on barrel portion, and the other end of axle spare is rotated and is set up the one end of keeping away from barrel portion at cantilever part.

6. An aquaculture pond with a hydrodynamic water pusher according to claim 1, wherein: still including breeding the cell body, breed the cell body and be the annular, breed the cell body and include a plurality of pond body boards, a plurality of pond body boards end to end link up and form and breed the cell body, and the ware that pushes away is located and breeds the cell body, and the axis body spare parallel is bred the surface of water setting of cell body internal volume and establishing water.

7. An aquaculture pond with a hydrodynamic water pusher according to claim 6, wherein: the number of the water pushers is multiple, the plurality of water pushers are arranged around the central axis of the culture pond body, and the plurality of water pushers are used for stirring water at different positions in the culture pond body respectively.

8. An aquaculture pond with a hydrodynamic water pusher according to claim 6, wherein: the culture tank body is annular, the shaft body part extends along the radial direction of the culture tank body, and the tank body plate is made of plastics or metal materials; the central position of the culture pond body is provided with a blow-down valve which is used for discharging sundries in the culture pond body.

9. An aquaculture pond with a hydrodynamic water pusher according to claim 8, wherein: the water-proof cloth is arranged in the culture pond body and provided with a bottom wall and an annular side wall surrounding the bottom wall, and the annular side wall is arranged on the side wall of the culture pond body; the sewage discharge valve is positioned in the center of the bottom wall and penetrates through the bottom wall, the sewage discharge valve is provided with a first water discharge hole and a second water discharge hole isolated from the first water discharge hole, and water at the lower part of the culture pond body is discharged through the first water discharge hole; the blowoff valve is provided with a vertical pipe communicated with the second drain hole, the upper end of the vertical pipe is provided with a water leakage hole, and water on the upper part of the culture pond body enters the vertical pipe through the water leakage hole and is discharged through the second drain hole.

10. An aquaculture pond with a hydrodynamic water pusher according to claim 6, wherein: the water inlet pipe extends into the culture pond body, the water inlet pipe is obliquely arranged, the included angle between the water inlet pipe and the vertical direction is 0-90 degrees, the support is arranged at the water outlet end of the water inlet pipe, the water inlet pipe is communicated with the water inlet hole, and external water flows into the water inlet hole through the water inlet pipe and flows out of the support to enter the culture pond body.