CN219125141U - Oxygenation equipment for aquaculture - Google Patents

Abstract

The utility model provides oxygenation equipment for aquaculture, which comprises an electric motor, a shell, a first rotating shaft, an oxygenation system, a feeding device, a suspension box, a moving device, an iron net and a mounting block, wherein: the bottom of the electric motor is connected with the upper part of the mounting block through a bolt, and the other end of the mounting block is connected with the shell through welding. According to the oxygenation system, the feeding device and the moving devices are arranged, through the installation of the wave beating plate, water flow is well thrown into the air, mutual fusion of air and water molecules is achieved, the oxygen content of the water flow is improved, the discharging rotating plate is driven to rotate through movement of equipment, feed is evenly scattered into the water, the two moving devices are arranged, the equipment can be moved to two sides, oxygenation of different places of a pond is achieved, oxygen in the pond is guaranteed to be even, no oxygen exists in the boundary, omnibearing oxygen supply is achieved, the use requirements of people are met, and the oxygenation system is convenient for market popularization and application.

Description

Oxygenation equipment for aquaculture

Technical Field

The utility model belongs to the technical field of oxygenation equipment, and particularly relates to oxygenation equipment for aquaculture.

Background

Dissolved oxygen in water environment is the most important factor for the survival of cultured organisms, and low dissolved oxygen possibly brings high mortality, so that the regulation and control of the dissolved oxygen become one of the most important measures in aquaculture management, and the traditional mode of first culturing the shrimp by culturing algae mainly realizes oxygen supply to fishes and shrimps. It is difficult to ensure that the algae are too much and too little and various bacteria cause hypoxia to the fish and the shrimp under various conditions, so that the fish and the shrimp die in large quantity.

The utility model discloses an oxygenation device for aquaculture, which comprises a base, wherein a cylinder is arranged at the top of the base, a water inlet pipe is arranged on one side of the top of the cylinder, a cover plate is hinged to the bottom end of the water inlet pipe, an air pump is arranged on the other side of the top of the base, and an exhaust pipe is arranged at the output end of the air pump. But traditional oxygenation equipment is only carried the aquatic with outside air through the fan, is used for improving the content of aquatic oxygen, and this mode is comparatively single, and oxygenation effect is not good, and efficiency is lower when actual operation, and the practicality is not good, and can't remove in the aquatic, and oxygenation scope is limited, can't guarantee the oxygen content at boundary, does not have feedway yet, and the feeder fodder throws the problem that effect is not ideal, can't even throw the fodder.

Therefore, the utility model of the oxygenation equipment for aquaculture is very necessary.

Disclosure of Invention

In order to solve the technical problems, the utility model provides oxygen increasing equipment for aquaculture, which aims to solve the problems that the traditional oxygen increasing equipment only conveys external air into water through a fan to increase the oxygen content in water, the mode is single, the oxygen increasing effect is poor, the efficiency is low in practical operation, the practicability is poor, the oxygen increasing equipment cannot move in water, the oxygen increasing range is limited, the oxygen content of a boundary cannot be ensured, a feeding device does not exist, the throwing effect of a feeder feed is not ideal, and the feed cannot be uniformly thrown. The utility model provides an oxygenation equipment for aquaculture, includes electric motor, casing, first pivot, oxygenation system, feedway, suspension box, mobile device, iron mesh and installation piece, wherein: the bottom of the electric motor is connected with the upper part of the mounting block through a bolt, and the other end of the mounting block is connected with the shell through welding; the side part of the electric motor is connected with the first rotating shaft through a flat key connection, and the other end of the first rotating shaft is connected with the oxygenation system through a flat key connection; the side part of the suspension box is connected with the bottom of the shell through welding, the side part of the suspension box is provided with a box door, and the number of the suspension boxes is equal; the moving device is connected and arranged at the bottom of the suspension box through bolts, and the moving device is provided with a left moving device and a right moving device; the feeding device is connected and arranged on the side part of the shell through a bolt; the iron net is connected and installed at the bottom of the shell through a set screw.

Further, the oxygenation system comprises a driving gear, a driven gear, a driving belt, a driven belt pulley, a transmission shaft, an oxygenation box, a protection net, blades, a second rotating shaft, a driven bevel gear, a driving bevel gear, a third rotating shaft, a wave beating plate and a driving belt pulley, wherein the driving gear is connected with the first rotating shaft through a flat key connection, the side part of the driving gear is connected with the driven gear through meshing, the driven gear is connected with the third rotating shaft through a half key connection, the driving belt pulley is arranged on the third rotating shaft through a flat key connection, the driving belt pulley is connected with the driving belt through friction transmission, the driving belt is connected with the driven belt pulley through friction transmission, and the driven belt pulley is connected with the transmission shaft through a flat key connection; the wave plate is connected with the third rotating shaft through interference fit, and the outer surface of the wave plate is provided with uneven rubber bulges; the driving bevel gear is connected with the transmission shaft through a semicircular key connection, the driving bevel gear is connected with the driven bevel gear through meshing, the driven bevel gear is connected with the second rotating shaft through a spline connection, and the second rotating shaft is provided with blades through a bolt connection; the side part of the oxygenation box is connected with a protection net through bolts.

Further, the feeding device comprises a box door, a box body, a collecting plate and a discharging rotating plate, wherein the box door is connected with the box body through a hinge, the collecting plate is installed inside the box body through a set screw connection, the discharging rotating plate is installed at the bottom of the box body, and the discharging rotating plate is integrated with the box body.

Further, the mobile device comprises a mounting plate, a connecting column, a waterproof box, a motor, a connecting shaft, a fixed block and a propeller, wherein the mounting plate is mounted at the bottom of the suspension box through bolt connection, the connecting column is mounted on the other side of the mounting plate through welding, and the waterproof box is mounted on the other end of the connecting column through riveting; the waterproof box is internally provided with a motor through bolt connection, and the side part of the motor is connected with a connecting shaft through welding; the fixed block is arranged at the other end of the connecting shaft through riveting; the screw is installed in the lateral part of fixed block through bolted connection.

Further, the number of the moving devices is two and the moving devices are arranged at the bottom of the equipment, and the number of the suspension boxes is four and the moving devices are arranged around the equipment.

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

1. according to the utility model, the setting of the oxygenation system is beneficial to fully throwing water flow into the air through the installation of the wave beating plate, so that the mutual fusion of air and water molecules is realized, the oxygen content of the water flow is improved, and the stirring of the water in the culture pond is completed through the rotation of the blades, so that the effects of good oxygenation effect and low oxygenation cost are achieved.

2. According to the feeding device, the discharging rotating plate is driven to rotate through movement of the device, the feed is uniformly scattered into water, and the collecting plate is arranged in the feeding device, so that the effect of collecting the feed is achieved, and the situation that the feed at the bottom cannot be scattered is prevented.

3. The mobile device is provided with two mobile devices, so that equipment can be moved to two sides to finish oxygenation of different places of the pond, the uniformity of oxygen in the pond is ensured, the situation that no oxygen exists at the boundary is avoided, the omnibearing oxygen supply is realized, and the use requirement of people is met.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic view of the oxygenation system of the utility model.

Fig. 3 is a schematic diagram of a mobile device of the present utility model.

Fig. 4 is a schematic view of a feeding device of the present utility model.

In the figure:

the device comprises a 1-electric motor, a 2-shell, a 3-first rotating shaft, a 4-oxygenation system, a 41-driving gear, a 42-driven gear, a 43-driving belt, a 44-driven belt pulley, a 45-transmission shaft, a 46-oxygenation box, a 47-protection net, 48-blades, a 49-second rotating shaft, a 410-driven bevel gear, a 411-driving bevel gear, a 412-third rotating shaft, a 413-wave beating plate, a 414-driving belt pulley, a 5-feeding device, a 51-box door, a 52-box body, a 53-collecting plate, a 54-discharging rotating plate, a 6-suspension box, a 7-moving device, a 71-mounting plate, a 72-connecting column, a 73-waterproof box, a 74-motor, a 75-connecting shaft, a 76-fixing block, a 77-screw, an 8-iron net and a 9-mounting block.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

embodiment one:

as shown in figure 1

The utility model provides oxygenation equipment for aquaculture, which comprises an electric motor 1, a shell 2, a first rotating shaft 3, an oxygenation system 4, a feeding device 5, a suspension box 6, a moving device 7, an iron net 8 and a mounting block 9, wherein: the bottom of the electric motor 1 is connected with the upper part of the mounting block 9 through bolts, and the other end of the mounting block 9 is connected with the shell 2 through welding; the side part of the electric motor 1 is connected with the first rotating shaft 3 through a flat key connection, and the other end of the first rotating shaft 3 is connected with the oxygenation system 4 through a flat key connection; the side part of the suspension box 6 is connected with the bottom of the shell 2 through welding, the side part of the suspension box 6 is provided with a box door, and the number of the suspension boxes 6 is 4; the moving device 7 is arranged at the bottom of the suspension box 6 through bolt connection, and the moving device 7 is provided with a left moving device and a right moving device; the feeding device 5 is arranged on the side part of the shell 2 through bolt connection; the iron net 8 is connected and installed at the bottom of the shell 2 through a set screw.

Embodiment one:

as shown in fig. 2, the oxygenation system 4 includes a driving gear 41, a driven gear 42, a driving belt 43, a driven pulley 44, a transmission shaft 45, an oxygenation tank 46, a protection net 47, blades 48, a second rotation shaft 49, a driven bevel gear 410, a driving bevel gear 411, a third rotation shaft 412, a wave plate 413 and a driving pulley 414, the driving gear 41 is connected with the first rotation shaft 3 through a flat key connection, the side of the driving gear 41 is connected with the driven gear 42 through engagement, the driven gear 42 is connected with the third rotation shaft 412 through a half-round key connection, the driving pulley 414 is mounted on the third rotation shaft 412 through a flat key connection, the driving pulley 414 is connected with the driving belt 43 through a friction transmission, the driving belt 43 is connected with the driven pulley 44 through a friction transmission, and the driven pulley 44 is connected with the transmission shaft 45 through a flat key connection; the wave plate 413 is connected with the third rotating shaft 412 through interference fit, and the outer surface of the wave plate 413 is provided with uneven rubber substances for increasing the contact area between the outer surface and water; the drive bevel gear 411 is connected with the transmission shaft 45 through a half-round key connection, the drive bevel gear 411 is connected with the driven bevel gear 410 through meshing, the driven bevel gear 410 is connected with the second rotating shaft 49 through a spline connection, and the second rotating shaft 49 is provided with the blades 48 through a bolt connection; the protection network 47 is installed through bolted connection to oxygenation case 46 lateral part, and electric motor's model is T90L-2, and the setting of clapping plate 413 is favorable to throwing rivers abundant to the sky, realizes that air fuses each other in the hydrone, improves the oxygen content of rivers, accomplishes stirring the water in the breed pond through the rotation of blade 48 to the oxygenation is effectual, oxygenation with low costs effect has been reached.

As shown in fig. 3, the feeding device 5 includes a box door 51, a box 52, a collecting plate 53 and a discharging rotating plate 54, the box door 51 is connected with the box 52 through a hinge, the collecting plate 53 is installed inside the box 52 through a fastening screw, the discharging rotating plate 54 is installed at the bottom of the box 52, the discharging rotating plate 54 and the box 52 are integrated, the discharging rotating plate 54 is driven to rotate through movement of equipment, feed is uniformly scattered into water, the collecting plate 53 is installed inside the feeding device, the gathering effect on the feed is completed, and the feed at the bottom is prevented from being unable to be scattered.

As shown in fig. 4, the moving device 7 comprises a mounting plate 71, a connecting column 72, a waterproof box 73, a motor 74, a connecting shaft 75, a fixed block 76 and a propeller 77, wherein the mounting plate 71 is mounted at the bottom of the suspension box 6 through bolt connection, the connecting column 72 is mounted on the other side of the mounting plate 71 through hearing welding, and the waterproof box 73 is mounted on the other end of the connecting column 72 through riveting; the waterproof box 73 is internally provided with a motor 74 through bolt connection, and the side part of the motor 74 is connected with a connecting shaft 75 through welding; the fixed block 76 is installed at the other end of the connection shaft 75 by caulking; the screw 77 is installed in the lateral part of fixed block 76 through bolted connection, and the model of motor is Y80M1-2, installs two mobile device 7, can remove equipment to both sides, accomplishes the oxygenation to the different places in pond, guarantees that the oxygen in the pond is even, can not appear the condition of boundary no oxygen, has realized the omnidirectional oxygen suppliment, has satisfied people's operation requirement.

As shown in fig. 1, the number of the moving devices 7 is two, and the moving devices are arranged at the bottom of the equipment, the number of the suspension boxes 6 is four, and the moving devices are arranged around the equipment, so that the buoyancy of the equipment is increased to the greatest extent, and the balance of the equipment is maintained.

Working principle: in the utility model, a worker firstly turns on the electric motor 1, the electric motor 1 rotates to drive the driving gear 41 to rotate, the driven gear 42 is rotated by the engagement of the driving gear 41 and the driven gear 42 to drive the third rotating shaft 412 to rotate, thereby driving the wave beating plate 413 to rotate, water flow is fully thrown into the air, the third rotating shaft 412 rotates to drive the driving belt pulley 414 to rotate, the driving belt 43 is driven to rotate through friction transmission, thereby driving the driven belt pulley 44 to rotate, and the driving shaft 45 is driven to rotate through key connection, then the driving bevel gear 411 and the driven bevel gear 410 are driven to rotate, thereby driving the second rotating shaft 49 to rotate, and driving the blades 48 on the second rotating shaft 49 to stir water, thereby increasing oxygen in water, and the motor 74 is turned on to drive the connecting shaft 75 to rotate, thereby driving the propeller 77 to move left and right, and the discharging rotating plate 54 is driven by the water flow pressure to uniformly throw the feed into the water.

By using the technical scheme of the utility model or under the inspired by the technical scheme of the utility model, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical effects fall into the protection scope of the utility model.

Claims (5)

1. An oxygenation equipment for aquaculture, its characterized in that: including electric motor (1), casing (2), first pivot (3), oxygenation system (4), feedway (5), suspension case (6), mobile device (7), iron mesh (8) and installation piece (9), wherein: the bottom of the electric motor (1) is connected with the upper part of the mounting block (9) through a bolt, and the other end of the mounting block (9) is connected with the shell (2) through welding; the side part of the electric motor (1) is connected with the first rotating shaft (3) through a flat key connection, and the other end of the first rotating shaft (3) is connected with the oxygenation system (4) through a flat key connection; the side parts of the suspension boxes (6) are connected with the bottom of the shell (2) through welding, the box doors are arranged on the side parts of the suspension boxes (6), and the number of the suspension boxes (6) is 4; the moving device (7) is connected and arranged at the bottom of the suspension box (6) through a bolt, and the moving device (7) is provided with a left moving device and a right moving device; the feeding device (5) is connected and arranged on the side part of the shell (2) through a bolt; the iron net (8) is connected and installed at the bottom of the shell (2) through a set screw.

2. The oxygenation apparatus for aquaculture of claim 1 wherein: the oxygenation system (4) comprises a driving gear (41), a driven gear (42), a driving belt (43), a driven belt wheel (44), a transmission shaft (45), an oxygenation box (46), a protection net (47), a blade (48), a second rotating shaft (49), a driven bevel gear (410), a driving bevel gear (411), a third rotating shaft (412), a wave beating plate (413) and a driving belt wheel (414), wherein the driving gear (41) is connected with the first rotating shaft (3) through a flat key connection, the side part of the driving gear (41) is connected with the driven gear (42) through meshing, the driven gear (42) is connected with the third rotating shaft (412) through a half-round key connection, a driving belt wheel (414) is arranged on the third rotating shaft (412) through a flat key connection, the driving belt wheel (414) is connected with the driving belt (43) through a friction transmission, and the driven belt wheel (44) is connected with the transmission shaft (45) through a flat key connection; the wave beating plate (413) is connected with the third rotating shaft (412) through interference fit, and uneven rubber bulges are arranged on the outer surface of the wave beating plate (413); the driving bevel gear (411) is connected with the transmission shaft (45) through a semicircular key connection, the driving bevel gear (411) is connected with the driven bevel gear (410) through meshing, the driven bevel gear (410) is connected with the second rotating shaft (49) through a spline connection, and the second rotating shaft (49) is provided with a blade (48) through a bolt connection; the side part of the oxygenation box (46) is connected with a protection net (47) through bolts.

3. The oxygenation apparatus for aquaculture of claim 1 wherein: the feeding device comprises a box door (51), a box body (52), a material collecting plate (53) and a discharging rotating plate (54), wherein the box door (51) is connected with the box body (52) through a hinge, the material collecting plate (53) is installed inside the box body (52) through a fastening screw, the discharging rotating plate (54) is installed at the bottom of the box body (52), and the discharging rotating plate (54) and the box body (52) are integrated.

4. The oxygenation apparatus for aquaculture of claim 1 wherein: the moving device (7) comprises a mounting plate (71), a connecting column (72), a waterproof box (73), a motor (74), a connecting shaft (75), a fixed block (76) and a propeller (77), wherein the mounting plate (71) is mounted at the bottom of the suspension box (6) through bolt connection, the connecting column (72) is mounted on the other side of the mounting plate (71) through hearing welding, and the waterproof box (73) is mounted on the other end of the connecting column (72) through riveting; the waterproof box (73) is internally provided with a motor (74) through bolt connection, and the side part of the motor (74) is connected with a connecting shaft (75) through welding; the fixed block (76) is installed at the other end of the connecting shaft (75) through riveting; the screw propeller (77) is mounted on the side of the fixed block (76) through a bolt connection.

5. The oxygenation apparatus for aquaculture of claim 1 wherein: the number of the moving devices (7) is two, the moving devices are arranged at the bottom of the equipment, and the number of the suspension boxes (6) is four and the moving devices are arranged around the equipment.

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