CN220211533U - Oxygenation dissolved oxygen equipment is bred to weever - Google Patents

Abstract

The utility model discloses an oxygenation and oxygen dissolution device for weever culture, which belongs to the technical field of aquaculture and comprises a placing plate, wherein four extending blocks are connected to the side surface of the placing plate, floating balls are connected to the lower parts of the extending blocks, top frames are arranged on the four extending blocks, and an oxygen pump is arranged on the top frames. This oxygenation dissolved oxygen equipment is bred to weever through setting up oxygen pump, the connecting pump, suction connection, first connecting pipe, the second connecting pipe, first gear, second gear and transfer box, simultaneously the oxygen pump is with oxygen reinjection transfer incasement, then discharge the rivers that dissolved oxygen volume increased to the bottom position of water through the second connecting pipe, and when first connecting pipe and second connecting pipe carry out respectively and draw water and discharge, the second gear drives first gear, first connecting pipe and second connecting pipe rotate, pump the water top along a plurality of directions, water with high dissolved oxygen is followed a plurality of directions and is discharged into the water bottom, the holistic oxygenation dissolved oxygen operation of water is more abundant high-efficient.

Description

Oxygenation dissolved oxygen equipment is bred to weever

Technical Field

The utility model belongs to the technical field of aquaculture, and particularly relates to an oxygenation and oxygen dissolution device for weever culture.

Background

The pond type containment operation of aquaculture makes the cultivation mode of adaptation fry development in a large range ecological environment, make things convenient for the self-cleaning effect of microorganism in the pond to produce the effect of promoting to the development resistance of fry, promote water adaptability, be favorable to inhibiting the flora and breed, ensure aquaculture's the high-quality development of quantification, but long-time aquaculture, it is too much to lead to fodder and excrement and urine in the water, it is not good to lead to the dissolved oxygen in the water, influence the ecological environment in the pond easily, even influence the normal survival of weever, need use oxygenation equipment to improve the dissolved oxygen in the water, but current oxygenation equipment is the stirring oxygenation of water in fixed position mostly, the water flow range is limited, the holistic oxygenation efficiency of water is not ideal enough, consequently, need a weever to cultivate oxygenation dissolved oxygen equipment to solve above-mentioned problem.

Disclosure of Invention

In order to overcome the defects, the utility model provides the weever culture oxygenation dissolved oxygen equipment, which solves the problem of poor oxygenation efficiency of water bodies.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a weever is bred oxygenation dissolved oxygen equipment, is including placing the board, the side of placing the board is connected with four extension pieces, be connected with the floater under the extension piece, four be equipped with the roof-rack on the extension piece, be equipped with the oxygen pump on the roof-rack, the output of oxygen pump passes through trachea and transfer case intercommunication, the transfer case is connected under placing the board, be connected with the connecting pump on the transfer case, the one end of connecting the pump is connected with the extension pipe, the extension pipe runs through the card and establishes on placing the board, the top of extension pipe is equipped with first rotary joint, be connected with first connecting pipe on the first rotary joint, be connected with the second rotary joint under the transfer case, be connected with the second connecting pipe under the second rotary joint, the second connecting pipe overcoat is equipped with the rotation axis, the equal card is equipped with first gear outward to rotation axis and first connecting pipe, first gear and second gear connection, two second gear and two output shaft connections of same actuating assembly, actuating assembly connects under placing the board.

As a further aspect of the utility model: the tracheal tube is sleeved with a tube sleeve, the tube sleeve is arranged on the placing plate in a penetrating and clamping mode, and a protective shell is connected under the placing plate.

As a further aspect of the utility model: the rotary shaft is sleeved with a first bearing, the first bearing is connected under the transfer box, a plurality of extending stirring rods are arranged outside the rotary shaft, and the extending stirring rods are located in the protective shell.

As a further aspect of the utility model: the output shaft of drive assembly upside overcoat is equipped with the second bearing, the second bearing runs through and the card is established on placing the board, the one end of first connecting pipe is connected with the suction joint.

As a further aspect of the utility model: one end of the second connecting pipe is connected with a discharge joint, the transfer box is communicated with the connecting pump, and the discharge joint is positioned in the protective shell.

Compared with the prior art, the utility model has the beneficial effects that:

1. this oxygenation dissolved oxygen equipment is bred to weever through setting up oxygen pump, the connecting pump, suction connection, the exhaust joint, first connecting pipe, the second connecting pipe, first gear, second gear and transfer box, the connecting pump is through the water suction that the oxygen content is high of first connecting pipe and suction connection with water upper portion position gets into the transfer box, simultaneously the oxygen pump pours oxygen into the transfer box again into, then the rivers that the dissolved oxygen volume increases to the bottom position of water through the second connecting pipe discharge, and when first connecting pipe and second connecting pipe carry out respectively and draw water and discharge, the second gear drives first gear, first connecting pipe and second connecting pipe rotate, pump the water top along a plurality of directions, water with dissolved oxygen volume is along a plurality of directions discharge water bottom, the holistic oxygenation dissolved oxygen operation of water is more abundant high-efficient.

2. This oxygenation dissolved oxygen equipment is bred to weever through setting up protective housing, and the protective housing avoids great debris in the water to remove to with first gear and second gear contact position, guarantees the smooth rotation of rotation axis, second connecting pipe, and avoids the fish to be injured by pivoted part striking condition in water.

3. This oxygenation dissolved oxygen equipment is bred to weever through setting up rotation axis, first bearing, extension (mixing) shaft, and the rotation axis rotates the simultaneous control extension (mixing) shaft and rotates, makes oxygen fully scatter in the water and contacts with water, increases the effect of dissolved oxygen.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic view showing a bottom perspective structure of the present utility model;

FIG. 3 is a schematic view of a driving assembly according to the present utility model;

FIG. 4 is a schematic bottom perspective view of the driving assembly of the present utility model;

in the figure: 1. placing a plate; 2. an extension block; 3. a floating ball; 4. a top frame; 5. an oxygen pump; 6. an air pipe; 7. a pipe sleeve; 8. a transfer box; 9. connecting a pump; 10. an extension tube; 11. a first rotary joint; 12. a first connection pipe; 13. a suction fitting; 14. a second rotary joint; 15. a second connection pipe; 16. a rotation shaft; 17. a first bearing; 18. a first gear; 19. extending the stirring rod; 20. a second gear; 21. a drive assembly; 22. a second bearing; 23. a protective housing; 24. and discharging the joint.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

As shown in fig. 1-4, the present utility model provides a technical solution: the weever culture oxygenation dissolved oxygen equipment comprises a placing plate 1, wherein four extending blocks 2 are connected to the side face of the placing plate 1, floating balls 3 are connected under the extending blocks 2, a top frame 4 is arranged on the four extending blocks 2, an oxygen pump 5 is arranged on the top frame 4, the output end of the oxygen pump 5 is communicated with a transfer box 8 through an air pipe 6, and the transfer box 8 is used for mixing oxygen with a water body through the arrangement of the transfer box 8;

the transfer box 8 is connected under the placing plate 1, the transfer box 8 is connected with a connecting pump 9, one end of the connecting pump 9 is connected with an extension pipe 10, the extension pipe 10 is penetratingly clamped on the placing plate 1, the top end of the extension pipe 10 is provided with a first rotary joint 11, the first rotary joint 11 is used for realizing the connection between a first connecting pipe 12 and the extension pipe 10, and the connection between the first connecting pipe 12 and the extension pipe 10 can be kept when the first connecting pipe 12 rotates;

the first rotary joint 11 is connected with a first connecting pipe 12, the lower part of the transfer box 8 is connected with a second rotary joint 14, the lower part of the second rotary joint 14 is connected with a second connecting pipe 15, a rotary shaft 16 is sleeved outside the second connecting pipe 15, the second rotary joint 14 realizes the connection between the second connecting pipe 15 and the second rotary joint 14 by arranging the second connecting pipe 15 and the second rotary joint 14, and the second connecting pipe 15 can ensure the communication with the second rotary joint 14 when rotating;

the rotation axis 16 and the outside of first connecting pipe 12 are all blocked and are equipped with first gear 18, and first gear 18 is connected with second gear 20, and two second gears 20 are connected with two output shafts of same drive assembly 21, and drive assembly 21 is connected under placing board 1, through setting up second gear 20 and first gear 18, and drive assembly 21 during operation is rotated through first gear 18 control second gear 20, and second gear 20 realizes the rotatory action of control first connecting pipe 12 and second connecting pipe 15.

The trachea 6 overcoat is equipped with pipe box 7, and pipe box 7 runs through the card and establishes on placing board 1, is connected with protective housing 23 under placing board 1, through setting up oxygen pump 5, trachea 6, and oxygen pump 5 during operation is with the oxygen in pouring into transfer case 8 through trachea 6, realizes the oxygenation to the interior water of transfer case 8.

The rotary shaft 16 overcoat is equipped with first bearing 17, first bearing 17 connects under transfer box 8, the rotary shaft 16 is equipped with a plurality of stirring bars 19 that extend outward, extend stirring bars 19 and be located protective housing 23, through setting up first bearing 17, first bearing 17 supports and spacing to rotary shaft 16, guarantee the smooth steady rotation of rotary shaft 16 and first connecting pipe 12, through setting up protective housing 23, protective housing 23 protects first gear 18 and second gear 20 of downside, avoid external great debris to contact with first gear 18 and second gear 20.

The output shaft on the upper side of the driving assembly 21 is sleeved with a second bearing 22, the second bearing 22 penetrates through and is clamped on the placing plate 1, and one end of the first connecting pipe 12 is connected with the suction connector 13.

One end of the second connecting pipe 15 is connected with a discharge joint 24, the transfer box 8 is communicated with the connecting pump 9, and the discharge joint 24 is positioned in the protective shell 23.

The working principle of the utility model is as follows:

when oxygenation and oxygen dissolution are carried out on a water body, the connecting pump 9, the oxygen pump 5 and the driving component 21 are controlled to work firstly, the connecting pump 9 sucks the water body with high oxygen content at the upper position of the water body into the transit box 8 through the first connecting pipe 12 and the suction connector 13, meanwhile, the oxygen pump 5 pumps oxygen into the transit box 8 again, then the dissolved oxygen content of water in the transit box 8 is further increased, water in the transit box 8 is discharged through the second connecting pipe 15, the water with increased dissolved oxygen content flows to the bottom position of the water body, when the first connecting pipe 12 and the second connecting pipe 15 respectively pump and discharge water, the driving component 21 drives the second gear 20 to rotate, the second gear 20 drives the first gear 18, the first connecting pipe 12 and the second connecting pipe 15 to rotate, the suction connector 13 and the discharge connector 24 rotate while pumping and discharging water, the water with high dissolved oxygen content is pumped along a plurality of directions into the bottom of the water body, the rotating shaft 16 drives the extending stirring rod 19 to rotate, and the extending stirring rod 19 stirs oxygen and water, and the dissolved oxygen effect is increased.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of one of ordinary skill in the art.

Claims (5)

1. The utility model provides a weever is bred oxygenation dissolved oxygen equipment, includes places board (1), its characterized in that: the utility model discloses a gear drive device, including placing board (1), including connecting board (1), connecting pump (9), extension pipe (10) run through the card and establish on placing board (1), the top of extension pipe (10) is equipped with first rotary joint (11), be equipped with oxygen pump (5) on roof-rack (4), the output of oxygen pump (5) is through trachea (6) and transfer case (8) intercommunication, transfer case (8) are connected under placing board (1), be connected with connecting pump (9) on transfer case (8), the one end of connecting pump (9) is connected with extension pipe (10), extension pipe (10) run through the card and establish on placing board (1), the top of extension pipe (10) is equipped with first rotary joint (11), be connected with first connecting pipe (12) on first rotary joint (11), be connected with second rotary joint (14) under transfer case (8), be connected with second (15) under second rotary joint (14), second connecting pipe (15) overcoat is equipped with extension pipe (16), first connecting pipe (16) and first gear (20) are equipped with two outer gear drive assemblies (20) and two same gear drive shaft (18), the driving assembly (21) is connected under the placing plate (1).

2. The oxygen-increasing and dissolving device for weever cultivation according to claim 1, wherein: the air pipe (6) is sleeved with a pipe sleeve (7), the pipe sleeve (7) is arranged on the placing plate (1) in a penetrating and clamping mode, and a protective shell (23) is connected under the placing plate (1).

3. The oxygen-increasing and dissolving device for weever cultivation according to claim 2, wherein: the rotary shaft (16) is sleeved with a first bearing (17), the first bearing (17) is connected under the transfer box (8), a plurality of extending stirring rods (19) are arranged outside the rotary shaft (16), and the extending stirring rods (19) are located in the protective shell (23).

4. The oxygen-increasing and dissolving device for weever cultivation according to claim 1, wherein: the output shaft of drive assembly (21) upside overcoat is equipped with second bearing (22), second bearing (22) run through and the card is established on placing board (1), the one end of first connecting pipe (12) is connected with suction connector (13).

5. The oxygen-increasing and dissolving device for weever cultivation according to claim 1, wherein: one end of the second connecting pipe (15) is connected with a discharge joint (24), the transfer box (8) is communicated with the connecting pump (9), and the discharge joint (24) is positioned in the protective shell (23).