CN216874553U - Intelligent oxygen increasing device based on shrimp seedling raising and breeding - Google Patents

Abstract

The utility model belongs to the technical field of aquaculture, in particular to an intelligent oxygen increasing device based on prawn seedling culture, which aims at the problem that an oxygen increasing hole of the existing oxygen increasing equipment is easily blocked by suspended dirt and sundries in water; according to the utility model, the output cylinder is placed in the shrimp seedling culture pond, the air pump is started to rapidly convey air into the output cylinder through the air delivery pipe, and the rapidly flowing air drives the blades to rotate, so that the rotating column and the rotating rod synchronously rotate to drive the brush plate to rotate, so that the brush rotates to brush the bottom end of the output cylinder, and suspended dirt impurities in water are prevented from attaching to the bottom end of the output cylinder to block the oxygen increasing hole, and the oxygen supply amount in water is increased.

Description

Intelligent oxygen increasing device based on shrimp seedling raising and breeding

Technical Field

The utility model relates to the technical field of aquaculture, in particular to an intelligent oxygen increasing device based on prawn seedling culture.

Background

In the process of shrimp culture, in order to prevent the shrimps from eating the shrimp seeds by silkworms, the shrimp seeds are generally cultured in a water pool separately. In order to increase the yield, farmers often adopt a high-density culture method, put a large amount of shrimp fries in a limited water pool, increase the oxygen consumption after the number of shrimps is increased, and if the dissolved oxygen in water is too low, the shrimps grow slowly and even die, so the farmers generally equip an air pump, insert an air pipe on the air pump into the water pool, and supply oxygen through the air pump.

The oxygenation hole on the gas-supply pipe that current oxygenation equipment was located the aquatic is easy to be blockked up by the suspension filth debris of aquatic for the oxygen suppliment of aquatic reduces, because the position of gas-supply pipe is generally relatively fixed, the bubble of production can only cover limited waters at the come-up in-process, therefore ordinary oxygenation mode can only improve the dissolved oxygen volume of water around the gas-supply pipe, the dissolved oxygen volume of keeping away from the gas-supply pipe region still is lower, leads to the dissolved oxygen volume of aquatic lower, and the shrimp seedling increases slowly.

Therefore, an intelligent oxygen increasing device based on shrimp seedling raising and breeding is needed to solve the problem that an oxygen increasing hole of the existing oxygen increasing equipment is easily blocked by suspended dirt and sundries in water.

SUMMERY OF THE UTILITY MODEL

The intelligent oxygen increasing device based on the shrimp seedling raising and breeding provided by the utility model solves the problem that an oxygen increasing hole of the conventional oxygen increasing equipment is easily blocked by suspended dirt and sundries in water.

In order to achieve the purpose, the utility model adopts the following technical scheme: the intelligent oxygen increasing device based on the prawn seedling culture comprises a gas conveying pipe, wherein an output cylinder is fixed at the bottom end of the gas conveying pipe, a rotating column is arranged in the output cylinder, a plurality of blades are fixed on the outer surface of the rotating column in a surrounding manner, a rotating rod is fixed at the bottom end of the rotating column, a brush plate is fixed at the bottom end of the rotating rod, a brush is fixed on the top surface of the brush plate, a plurality of oxygen increasing holes are formed in the bottom end of the output cylinder, a plurality of protective strips are fixed on the outer edge of the bottom end of the output cylinder, and protective rings are fixed at the bottom ends of the protective strips; the adjusting assembly is arranged above the gas conveying pipe; and the moving assembly is arranged above the adjusting assembly.

Preferably, the adjusting part is including setting up in gas-supply pipe top installing frame, the inboard symmetry in installing frame bottom is fixed with two vertical boards, two it is connected with rotary drum a and rotary drum b to rotate between the vertical board, rotary drum a and rotary drum b surface all encircle and open flutedly, the gas-supply pipe top runs through two the recess, the equal coaxial gear that is fixed with in rotary drum a and the rotary drum b outside, two the gear meshes mutually, rotary drum b center is fixed with the stock, stock one end runs through the installing frame fastening and has cup jointed the ratchet, ratchet outside joint has the pawl, the pawl rotates with the installing frame lateral wall to be connected, the pawl lateral wall is fixed with the push pedal, the installing frame lateral wall is fixed with the connecting block, be fixed with reset spring between connecting block and the push pedal.

Preferably, the moving assembly comprises a connecting frame fixed at the top end of the mounting frame, a servo motor is fixed on the inner side of the connecting frame, a belt pulley a is coaxially fixed on the outer side of the servo motor, the top end of the connecting frame is rotatably connected with a roller, a belt pulley b is coaxially fixed on one side of the roller, a transmission belt is fixed between the belt pulley a and the belt pulley b, a suspension cable is arranged between the roller and the connecting frame, and the roller is suspended on the suspension cable.

Preferably, a hand wheel is coaxially fixed at one end of the long rod, which is far away from the ratchet wheel, and a friction groove is formed on the outer surface of the hand wheel in a surrounding manner.

Preferably, the number of the brush plates is three, and the three brush plates are fixed at the bottom end of the rotating rod in a surrounding mode.

Preferably, the rotating cylinder a and the rotating cylinder b are vertically arranged between two vertical plates, and a plurality of U-shaped grooves are formed in the inner sides of the two grooves.

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

1. according to the utility model, the output cylinder is placed in the shrimp seedling culture pond, the air pump is started to rapidly convey air into the output cylinder through the air delivery pipe, and the rapidly flowing air drives the blades to rotate, so that the rotating column and the rotating rod synchronously rotate to drive the brush plate to rotate, so that the brush rotates to brush the bottom end of the output cylinder, and suspended dirt impurities in water are prevented from attaching to the bottom end of the output cylinder to block the oxygen increasing hole, and the oxygen supply amount in water is increased.

2. According to the utility model, two ends of a plurality of suspension cables are suspended on two sides of the shrimp seedling culture pond, the belt pulley a is driven to rotate by starting the servo motor, the belt pulley b is driven to synchronously rotate after transmission of the transmission belt, the rollers are driven to roll on the suspension cables in a reciprocating manner, and then a plurality of output cylinders are driven to move in the shrimp seedling culture pond in a reciprocating manner, so that the dissolved oxygen content of each area of the shrimp seedling culture pond is improved, the number of gas pipes required to be arranged is reduced, and the culture cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the main structure of an intelligent oxygen increasing device based on prawn seedling culture provided by the utility model;

FIG. 2 is a schematic diagram of a related structure of a mobile assembly of the intelligent oxygen increasing device based on shrimp seedling raising and breeding provided by the utility model;

FIG. 3 is a schematic view of the related structure of the adjusting component of the intelligent oxygen increasing device based on shrimp breeding provided by the utility model;

fig. 4 is a schematic diagram of a relevant structure of an output cylinder of the intelligent oxygen increasing device based on prawn seedling culture provided by the utility model.

In the figure: 1. a gas delivery pipe; 2. an output drum; 3. rotating the column; 4. a blade; 5. rotating the rod; 6. brushing the board; 7. a brush; 8. an oxygen increasing hole; 9. a protective strip; 10. a protective ring; 11. an adjustment assembly; 12. a moving assembly; 13. installing a frame; 14. a vertical plate; 15. a rotating cylinder a; 16. A rotating cylinder b; 17. a groove; 18. a gear; 19. a long rod; 20. a ratchet wheel; 21. a pawl; 22. Pushing the plate; 23. connecting blocks; 24. a return spring; 25. a connecting frame; 26. a servo motor; 27. A belt pulley a; 28. a roller; 29. a belt pulley b; 30. a drive belt; 31. suspending a sling; 32. a hand wheel; 33. a friction groove; 34. a U-shaped groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-4, the intelligent oxygen increasing device based on shrimp seedling raising comprises a gas pipe 1, wherein an output cylinder 2 is fixed at the bottom end of the gas pipe 1, a rotating column 3 is arranged in the output cylinder 2, a plurality of blades 4 are fixed on the outer surface of the rotating column 3 in a surrounding manner, a rotating rod 5 is fixed at the bottom end of the rotating column 3, a brush plate 6 is fixed at the bottom end of the rotating rod 5, a brush 7 is fixed at the top surface of the brush plate 6, a plurality of oxygen increasing holes 8 are formed at the bottom end of the output cylinder 2, a plurality of protection strips 9 are fixed at the outer edge of the bottom end of the output cylinder 2, and a protection ring 10 is fixed at the bottom ends of the protection strips 9; the adjusting component 11 is arranged above the gas conveying pipe 1; remove subassembly 12, remove subassembly 12 and set up in 11 tops of adjusting part, place output section of thick bamboo 2 in shrimp is grown seedlings and is bred the pond, the air pump starts to carry the air through gas-supply pipe 1 fast in to output section of thick bamboo 2, air through the fast flow drives a plurality of blade 4 and rotates, make rotation post 3 and dwang 5 rotate in step, it rotates to drive brush board 6, make 7 rotations of brush and clean 2 bottoms of output section of thick bamboo, it will increase oxygen supply hole 8 and block up to avoid the suspension filth debris of aquatic to depend on 2 bottoms of output section of thick bamboo, increase the oxygen supply volume of aquatic.

The adjusting component 11 comprises a mounting frame 13 arranged above the gas pipe 1, two vertical plates 14 are symmetrically fixed on the inner side of the bottom end of the mounting frame 13, a rotary drum a15 and a rotary drum b16 are rotatably connected between the two vertical plates 14, grooves 17 are formed on the outer surfaces of the rotary drum a15 and the rotary drum b16 in a surrounding mode, the top end of the gas pipe 1 penetrates through the two grooves 17, gears 18 are coaxially fixed on the outer sides of the rotary drum a15 and the rotary drum b16, the two gears 18 are meshed with each other, a long rod 19 is fixed in the center of the rotary drum b16, a ratchet 20 is tightly sleeved at one end of the long rod 19 penetrating through the mounting frame 13, a pawl 21 is clamped on the outer side of the ratchet 20, the pawl 21 is rotatably connected with the outer side wall of the mounting frame 13, a push plate 22 is fixed on the outer side wall of the mounting frame 13, a return spring 24 is fixed between the connecting block 23 and the push plate 22, the rotary drum b16 is driven by the long rod 19, the two gears 18, so that the rotary drum b16 and the rotary drum a15 rotate synchronously, when the traction air delivery pipe 1 descends, the one-way ratchet wheel 20 and pawl 21 mechanism prevents the long rod 19 from rotating when the traction air delivery pipe 1 ascends, the push plate 22 is pushed outwards so that the pawl 21 is separated from the ratchet wheel 20 to drag the air delivery pipe 1 to ascend, and the ratchet wheel 20 stops rotating by loosening the push plate 22, so that the function of controlling and adjusting the water penetration depth of the air delivery pipe 1 is realized.

The moving component 12 comprises a connecting frame 25 fixed at the top end of the mounting frame 13, a servo motor 26 is fixed at the inner side of the connecting frame 25, a belt pulley a27 is coaxially fixed at the outer side of the servo motor 26, a roller 28 is rotatably connected at the top end of the connecting frame 25, a belt pulley b29 is coaxially fixed at one side of the roller 28, a transmission belt 30 is fixed between the belt pulley a27 and the belt pulley b29, suspension ropes 31 are arranged between the roller 28 and the connecting frame 25, the roller 28 is suspended on the suspension ropes 31, two ends of a plurality of suspension ropes 31 are suspended at two sides of the shrimp breeding pond, the servo motor 26 is started to drive the belt pulley a27 to rotate, the belt pulley b29 is driven to synchronously rotate after being transmitted by the transmission belt 30, the roller 28 is driven to roll on the suspension cable 31 in a reciprocating way, and then drive a plurality of output section of thick bamboo 2 reciprocating motion in shrimp is grown seedlings and is bred the pond for the dissolved oxygen volume in each region in shrimp is grown seedlings and is bred the pond and all obtain promoting, has reduced the quantity that the gas-supply pipe 1 that needs arrange simultaneously and has reduced the breed cost.

A hand wheel 32 is coaxially fixed at one end of the long rod 19 far away from the ratchet wheel 20, a friction groove 33 is formed in the outer surface of the hand wheel 32 in a surrounding mode, and the long rod 19 is convenient to rotate through the hand wheel 32 provided with the friction groove 33.

The brush board 6 is provided with threely, and three brush board 6 encircles and is fixed in 5 bottoms of dwang, through setting up the efficiency that three brush board 6 improved the clearance filth.

The rotary drum a15 and the rotary drum b16 are arranged from top to bottom between two vertical plates 14, a plurality of U-shaped grooves 34 are formed in the inner sides of the two grooves 17, the friction coefficient between the outer surface of the air delivery pipe 1 and the inner sides of the grooves 17 is improved by arranging the plurality of U-shaped grooves 34, and the air delivery pipe 1 can be conveniently pulled to ascend and descend.

The working principle is as follows: the output cylinder 2 is placed in a shrimp breeding pond, an air pump is started to rapidly convey air into the output cylinder 2 through an air pipe 1, the blades 4 are driven to rotate through the rapidly flowing air, the rotating post 3 and the rotating rod 5 are driven to synchronously rotate, the brush plate 6 is driven to rotate, the brush 7 is driven to rotate to brush the bottom end of the output cylinder 2, suspended dirt impurities in water are prevented from attaching to the bottom end of the output cylinder 2 to block an oxygenation hole 8, oxygen supply in the water is increased, the rotating cylinder b16 is driven to rotate through the rotating long rod 19, after transmission of two gears 18, the rotating cylinder b16 and the rotating cylinder a15 are synchronously rotated, the air pipe 1 is pulled to descend, when the air pipe 1 ascends, the long rod 19 is prevented from rotating by the unidirectional ratchet 20 and pawl 21 mechanism, the push-push plate 22 is pushed outwards to enable the air pipe 21 to be separated from the ratchet 20, so that the air pipe 1 can be pulled to ascend, and the ratchet 20 can be stopped by loosening the push plate 22, the function of controlling and adjusting the water penetration depth of the gas transmission pipe 1 is realized; suspend a plurality of root suspension cable 31 both ends in both sides of shrimp breeding breed pond in midair, drive belt pulley a27 through starting servo motor 26 and rotate, drive belt pulley b29 synchronous rotation after the transmission of drive belt 30, drive gyro wheel 28 and reciprocate to roll on suspension cable 31, and then drive a plurality of output section of thick bamboo 2 reciprocating motion in shrimp breeding breed pond, make the dissolved oxygen volume of each region in shrimp breeding breed pond all obtain promoting, the quantity that has reduced the gas-supply pipe 1 that needs to arrange simultaneously has reduced the cost of farming.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The intelligent oxygen increasing device based on the shrimp seedling raising comprises a gas conveying pipe (1) and is characterized in that an output cylinder (2) is fixed at the bottom end of the gas conveying pipe (1), a rotating column (3) is arranged in the output cylinder (2), a plurality of blades (4) are fixed on the outer surface of the rotating column (3) in a surrounding mode, a rotating rod (5) is fixed at the bottom end of the rotating column (3), a brush plate (6) is fixed at the bottom end of the rotating rod (5), a brush (7) is fixed on the top surface of the brush plate (6), a plurality of oxygen increasing holes (8) are formed in the bottom end of the output cylinder (2), a plurality of protective strips (9) are fixed at the outer edge of the bottom end of the output cylinder (2), and a protective ring (10) is fixed at the bottom end of each protective strip (9);

the adjusting component (11), the adjusting component (11) is arranged above the gas pipe (1);

a moving assembly (12), the moving assembly (12) being arranged above the adjusting assembly (11).

2. The intelligent oxygen increasing device based on the shrimp breeding and breeding as claimed in claim 1, wherein the adjusting component (11) comprises a mounting frame (13) arranged above the air delivery pipe (1), two vertical plates (14) are symmetrically fixed on the inner side of the bottom end of the mounting frame (13), a rotating drum a (15) and a rotating drum b (16) are rotatably connected between the two vertical plates (14), grooves (17) are formed around the outer surfaces of the rotating drum a (15) and the rotating drum b (16), the two grooves (17) are formed through the top end of the air delivery pipe (1), gears (18) are coaxially fixed on the outer sides of the rotating drum a (15) and the rotating drum b (16), the two gears (18) are meshed with each other, a long rod (19) is fixed at the center of the rotating drum b (16), and a ratchet wheel (20) is fixedly sleeved at one end of the long rod (19) through the mounting frame (13), ratchet (20) outside joint has pawl (21), pawl (21) rotate with installing frame (13) lateral wall and are connected, pawl (21) lateral wall is fixed with push pedal (22), installing frame (13) lateral wall is fixed with connecting block (23), be fixed with reset spring (24) between connecting block (23) and push pedal (22).

3. The intelligent oxygen increasing device based on the shrimp breeding and breeding of the claim 2 is characterized in that the moving assembly (12) comprises a connecting frame (25) fixed to the top end of the mounting frame (13), a servo motor (26) is fixed to the inner side of the connecting frame (25), a belt pulley a (27) is coaxially fixed to the outer side of the servo motor (26), a roller (28) is rotatably connected to the top end of the connecting frame (25), a belt pulley b (29) is coaxially fixed to one side of the roller (28), a transmission belt (30) is fixed between the belt pulley a (27) and the belt pulley b (29), a suspension rope (31) is arranged between the roller (28) and the connecting frame (25), and the roller (28) is suspended on the suspension rope (31).

4. The intelligent oxygen increasing device based on the shrimp breeding and culture of the claim 2 is characterized in that a hand wheel (32) is coaxially fixed at one end of the long rod (19) far away from the ratchet wheel (20), and a friction groove (33) is formed on the outer surface of the hand wheel (32) in a surrounding mode.

5. The intelligent oxygen increasing device based on the shrimp breeding and culture of the claim 1 is characterized in that the number of the brush plates (6) is three, and the three brush plates (6) are fixed at the bottom end of the rotating rod (5) in a surrounding mode.

6. The intelligent oxygen increasing device based on the shrimp breeding and culture of the claim 2 is characterized in that the rotating cylinder a (15) and the rotating cylinder b (16) are arranged up and down between the two vertical plates (14), and the inner sides of the two grooves (17) are provided with a plurality of U-shaped grooves (34).

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