CN111919813B - Water body oxygenation device for breeding - Google Patents

Abstract

An aquaculture water body oxygenation device, comprising: the two sides of the bottom of the mounting frame are connected with guide frames; a guide block slidably coupled within the guide frame; a fixed shaft connected between the guide blocks at both sides; the oxygenation mechanism is arranged between the fixed shaft and the guide block; and the lifting mechanism is connected to the mounting frame and is connected with the guide block. The oxygenation device can continuously oxygenate the water body through the oxygenation mechanism and the lifting mechanism, does not need to consume energy, saves the culture cost of farmers, and improves the practicability of the oxygenation device; when the water level in the culture pond rises or falls, the position of the water wheel can be automatically adjusted through the buoyancy barrel, so that a hand wheel does not need to be rotated frequently, and the effect of convenient operation is achieved.

Description

Water body oxygenation device for breeding

Technical Field

The invention relates to an oxygenation device, in particular to a water body oxygenation device for cultivation.

Background

At present, in order to ensure the oxygen content of high-density aquaculture water during pond fish culture, various pond oxygen increasing machines are used for ensuring the more common types of oxygen increasing machines in the aquaculture industry, but the oxygen increasing machines of the types generally have the defects of high power consumption and high use cost.

Through search, the patent publication numbers are: the patent of CN208113806U discloses a pontoon water-pushing automatic aerator which enables water to circularly flow, has high aeration efficiency, uniform dissolved oxygen and low energy consumption, and the concrete technical scheme is as follows: the floating pontoon water pushing aerator comprises a floating pontoon, a fan, a bracket, an aeration grid and a water pushing plate; the floating boats are fixed on two sides of the top of the support, the fan is fixed on the top of the support, the aeration grid is arranged at the bottom of the support and positioned in the support, and the fan is connected with the aeration grid through a vent pipe; push away the inside that the water board slope was installed at the support, above-mentioned patent is when oxygenating the water, though can reach the effect that the energy consumption is low, nevertheless when oxygenating to great pond, need many equipment to work, and the energy consumption improves, has directly improved raiser's breed cost.

Disclosure of Invention

The purpose of the invention is: the water body oxygenation device for aquaculture, which does not need to consume energy and save the aquaculture cost of farmers, is provided for overcoming the defects of high power consumption and high use cost of the existing oxygenation machine.

The technical scheme of the invention is as follows: an aquaculture water body oxygenation device, comprising: the two sides of the bottom of the mounting frame are connected with guide frames; a guide block slidably coupled within the guide frame; the fixed shaft is connected between the guide blocks on the two sides; the oxygenation mechanism is arranged between the fixed shaft and the guide block; and the lifting mechanism is connected to the mounting frame and is connected with the guide block.

Preferably, the oxygenation mechanism comprises: the fixed disc is provided with at least one fixed disc, and the fixed disc is connected to the fixed shaft; at least one air supply pipe is arranged, and the air supply pipe is connected to the fixed disc; a screw shaft rotatably connected to the air supply pipe; a pinion connected to a tail end of the screw shaft; an annular pipe connected to one end of the air supply pipe away from the pinion; the multi-head air outlet pipe is connected to the annular pipe; the connecting rod is connected between the multi-head air outlet pipe and the guide block; the water wheel is rotatably connected to the fixed shaft; and the arc-shaped rack is connected to the side surface of the water wheel and meshed with the pinion.

Preferably, the lifting mechanism comprises: a connecting shaft rotatably mounted on the upper portion of the mounting frame; a winding roll connected to an end of the connecting shaft; the lifting rope is wound on the winding roll, and the tail end of the lifting rope is connected with the guide block; a hand wheel rotatably connected to an upper portion of the mounting frame; a worm connected to the hand wheel; and the worm wheel is connected to the winding roll and meshed with the worm.

Preferably, also include the wind power and add oxygen subassembly, the wind power adds oxygen subassembly includes: the shaft sleeve is arranged on the top of the mounting frame; the rhombic telescopic rod is rotatably connected in the shaft sleeve; at least one wind wheel is arranged and connected to the diamond-shaped telescopic rod; the fixed disc is fixedly connected with the bracket; the one-way clutch is rotatably arranged on the bracket and is connected with the diamond-shaped telescopic rod; a rotating shaft rotatably connected to the bracket; the bevel gear transmission component is connected between the rotating shaft and the one-way clutch; the transmission gear is fixedly connected to the rotating shaft; and the gear ring is connected to the outside of the water wheel and meshed with the transmission gear.

Preferably, also include: at least one connecting arm is arranged and fixedly connected to the guide block; and the buoyancy barrel is connected to the tail end of the connecting arm.

Preferably, also include: the protective cover is connected to the top of the mounting frame; the protective cover is sleeved on the outer side of the wind wheel.

Advantageous effects

1. The water body can be continuously oxygenated by the oxygenation mechanism and the lifting mechanism, energy consumption is not needed, and the culture cost of farmers is saved;

2. when the water in the culture pond is not circulated, the water body in the culture pond can be oxygenated by the wind power oxygenation assembly, and energy sources do not need to be consumed, so that the practicability of the oxygenation device is improved;

3. when the water level in the culture pond rises or falls, the position of the water wheel can be automatically adjusted through the buoyancy barrel, so that a hand wheel does not need to be rotated frequently, and the effect of convenient operation is achieved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a first perspective view of a partial structure of the present invention;

FIG. 3 is a second perspective view of a partial structure of the present invention;

FIG. 4 is a schematic partial perspective view of the oxygenation mechanism of the present invention;

fig. 5 is a schematic perspective view of the lifting mechanism of the present invention.

The symbols in the drawings are: 1-mounting frame, 2-guiding frame, 3-guiding block, 4-fixing shaft, 5-oxygenation mechanism, 51-fixing disc, 52-air supply pipe, 53-spiral shaft, 54-pinion, 55-annular pipe, 56-connecting rod, 57-multi-head air outlet pipe, 58-water wheel, 59-arc rack, 6-lifting mechanism, 61-connecting shaft, 62-winding disc, 63-lifting rope, 64-hand wheel, 65-worm, 66-worm wheel, 7-wind oxygenation component, 71-shaft sleeve, 72-diamond telescopic rod, 73-wind wheel, 74-bracket, 75-one-way clutch, 76-rotating shaft, 77-bevel gear transmission component, 78-transmission gear, 79-gear ring, 8-connecting arm, 9-buoyancy barrel, 10-protective cover.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

As shown in fig. 1-5, a water body oxygenation device for aquaculture comprises a mounting bracket 1, a guide frame 2, guide blocks 3, a fixed shaft 4, an oxygenation mechanism 5 and a lifting mechanism 6, wherein the guide frame 2 is connected to the front side and the rear side of the bottom of the mounting bracket 1, the guide block 3 is connected to the guide frame 2 in a sliding manner, the fixed shaft 4 is connected between the guide blocks 3 on the front side and the rear side, the oxygenation mechanism 5 is installed between the fixed shaft 4 and the guide block 3, the lifting mechanism 6 is installed on the upper portion of the mounting bracket 1, and the lifting mechanism 6 is connected with the guide blocks 3.

The oxygenation mechanism 5 comprises a fixed disc 51, air supply pipes 52, a spiral shaft 53, a pinion 54, annular pipes 55, connecting rods 56, a multi-head air outlet pipe 57, a water wheel 58 and an arc-shaped rack 59, the fixed disc 51 is connected with the front side and the rear side of the fixed disc 4, six air supply pipes 52 are connected between the outer sides of the fixed discs 51 on the two sides, the six air supply pipes 52 are uniformly distributed along the circumferential direction of the fixed disc 51, the openings of three air supply pipes 52 face forwards, the openings of the other three air supply pipes 52 face backwards, the spiral shaft 53 is rotatably connected in the air supply pipes 52, the pinion 54 is connected with the tail end of the spiral shaft 53, the annular pipe 55 is connected between the non-opened ends of every three air supply pipes 52, the multi-head air outlet pipe 57 is connected with the left side of the annular pipe 55, the connecting rods 56 are connected between the multi-head air outlet pipe 57 and the guide block 3, the water wheels 58 are rotatably connected with the front side and the rear side of the fixed shaft 4, and the inner side of the water wheel 58 is connected with the arc-shaped rack 59, the arc-shaped rack 59 is engaged with the pinion 54.

The lifting mechanism 6 comprises a connecting shaft 61, a winding roll 62, a lifting rope 63, a hand wheel 64, a worm 65 and a worm wheel 66, the upper portion of the mounting frame 1 is rotatably connected with the connecting shaft 61, the front side and the rear side of the connecting shaft 61 are both connected with the winding roll 62, the winding roll 62 is wound with the lifting rope 63, the tail end of the lifting rope 63 is connected with the top of the guide block 3, the front side of the top of the mounting frame 1 is rotatably connected with the hand wheel 64, the bottom of the hand wheel 64 is connected with the worm 65, the front side winding roll 62 is connected with the worm wheel 66, and the worm wheel 66 is meshed with the worm 65.

When the aquaculture water body needs to be oxygenated, the mounting frame 1 is erected on the ground, the water wheel 58 is positioned at the water inlet of the aquaculture pond, the multi-head air outlet pipe 57 is connected with the soft air outlet pipe, the soft air outlet pipe is placed in the water body, the hand wheel 64 is rotated to drive the worm wheel 66 to rotate through the worm 65, the winding disc 62 rotates along with the soft air outlet pipe to lengthen the lifting rope 63, the guide block 3 moves downwards along the guide frame 2, when the water wheel 58 enters the water body of the aquaculture pond, the hand wheel 64 stops rotating, the water wheel 58 is driven to rotate under the action of water flow, the arc-shaped rack 59 rotates along with the soft wheel to drive the pinion 54 to rotate, the pinion 54 rotates through the spiral shaft 53 to eject air through the air supply pipe 52, the annular pipe 55 and the multi-head air outlet pipe 57, the air ejected by the multi-head 57 is conveyed into the water body through the soft air outlet pipe, the water body can be oxygenated, and the water body can be continuously oxygenated, and moreover, energy consumption is not needed, and the breeding cost of farmers is saved.

Example 2

On the basis of embodiment 1, as shown in fig. 2 to 3, the wind power oxygenation assembly 7 is further included, the wind power oxygenation assembly 7 includes a shaft sleeve 71, a diamond-shaped telescopic rod 72, wind wheels 73, a bracket 74, a one-way clutch 75, a rotating shaft 76, a bevel gear transmission assembly 77, a transmission gear 78 and a gear ring 79, the shaft sleeve 71 is connected to the top of the mounting frame 1 in an embedded manner, the diamond-shaped telescopic rod 72 is rotatably connected to the inside of the shaft sleeve 71, the two wind wheels 73 are connected to the upper portion of the diamond-shaped telescopic rod 72, the bracket 74 is connected between the tops of the fixed disks 51 on the front and rear sides, the one-way clutch 75 is rotatably installed on the top of the bracket 74, the inner ring of the one-way clutch 75 is connected to the bottom of the diamond-shaped telescopic rod 72, the rotating shaft 76 is rotatably connected to the middle of the bracket 74, the bevel gear transmission assembly 77 is connected between the middle of the rotating shaft 76 and the outer ring of the one-way clutch 75, the transmission gear 78 is connected to the front and rear sides of the rotating shaft 76, the water wheel 58 is externally connected with a ring gear 79, and the ring gear 79 is meshed with the transmission gear 78.

When wind blows from other directions, the bevel gear transmission assembly 77 and the rotating shaft 76 cannot rotate under the action of the one-way clutch 75, so that the spiral shaft 53 can be prevented from rotating reversely.

Example 3

On the basis of the embodiment 2, as shown in fig. 2, the buoyancy module further comprises a connecting arm 8 and a buoyancy bucket 9, the connecting arm 8 is connected to the front and rear side guide blocks 3 in a bolt connection mode, and the buoyancy bucket 9 is connected to the tail end of the connecting arm 8.

Place water wheels 58 in the water, keep water wheels 58 on the surface of water through buoyancy bucket 9, manually rotate hand wheel 64 and make lifting rope 63 relax, when the water level in the breed pond rises or descends, but through buoyancy bucket 9 automatically regulated water wheels 58's position, do not so need artifical frequent rotation hand wheel 64, reached convenient operation's effect.

On the basis of the embodiment 2, as shown in fig. 1, the wind turbine further comprises a protective cover 10, the top of the mounting frame 1 is connected with the protective cover 10, and the protective cover 10 is sleeved on the outer side of the wind wheel 73.

The protective cover 10 can prevent garbage such as plastic bags and the like from falling on the wind wheel 73, prevent the wind wheel 73 from being blocked, ensure the stability of the oxygenation device during working, prevent the wind wheel 73 from scratching other people when rotating, and ensure the use safety.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that various changes, modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, and all are intended to be included within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (3)

1. The utility model provides a breed and use water body oxygenation device which characterized in that, including:

the two sides of the bottom of the mounting frame (1) are connected with guide frames (2);

a guide block (3) slidably connected in the guide frame (2);

a fixed shaft (4) connected between the guide blocks (3) on both sides;

an oxygenation mechanism (5) mounted between the fixed shaft (4) and the guide block (3);

the lifting mechanism (6) is connected to the mounting frame (1), and the lifting mechanism (6) is connected with the guide block (3);

the oxygenation mechanism (5) comprises:

the fixed disc (51) is provided with at least one fixed disc (51), and the fixed disc (51) is connected to the fixed shaft (4);

at least one air supply pipe (52) is arranged, and the air supply pipe (52) is connected to the fixed disc (51);

a screw shaft (53) rotatably connected to the inside of the air supply pipe (52);

a pinion gear (54) connected to the tail end of the screw shaft (53);

an annular pipe (55) connected to one end of the air supply pipe (52) away from the pinion (54);

a multi-head air outlet pipe (57) connected to the annular pipe (55);

the connecting rod (56) is connected between the multi-head air outlet pipe (57) and the guide block (3);

a water wheel (58) rotatably connected to the fixed shaft (4);

an arc-shaped rack (59) connected to the side surface of the water wheel (58), wherein the arc-shaped rack (59) is meshed with the pinion (54);

the lifting mechanism (6) comprises:

a connecting shaft (61) rotatably mounted on the upper part of the mounting frame (1);

a winding roll (62) connected to an end of the connecting shaft (61);

a lifting rope (63) wound on the winding roll (62), wherein the tail end of the lifting rope (63) is connected with the guide block (3);

a hand wheel (64) which is rotatably connected to the upper part of the mounting rack (1);

a worm (65) connected to the hand wheel (64);

a worm wheel (66) connected to the winding roll (62), the worm wheel (66) meshing with the worm (65);

still including wind-force oxygenation subassembly (7), wind-force oxygenation subassembly (7) including:

the shaft sleeve (71) is arranged on the top of the mounting frame (1);

a rhombic expansion link (72) rotatably connected in the shaft sleeve (71);

at least one wind wheel (73) is arranged, and the wind wheel (73) is connected to the rhombic expansion rod (72);

the bracket (74) is fixedly connected to the fixed disc (51);

the one-way clutch (75) is rotatably arranged on the bracket (74), and the one-way clutch (75) is connected with the rhombic telescopic rod (72);

a rotating shaft (76) which is rotatably connected to the bracket (74);

a bevel gear transmission assembly (77) connected between the rotating shaft (76) and the one-way clutch (75);

a transmission gear (78) fixedly connected to the rotating shaft (76);

and a ring gear (79) connected to the outside of the water wheel (58), wherein the ring gear (79) is meshed with the transmission gear (78).

2. The aquaculture water oxygenation device of claim 1, further comprising: at least one connecting arm (8) is arranged, and the connecting arm (8) is fixedly connected to the guide block (3);

a buoyancy barrel (9) connected to the tail end of the connecting arm (8).

3. The aquaculture water oxygenation device of claim 2, further comprising:

the protective cover (10) is connected to the top of the mounting frame (1); the protective cover (10) is sleeved on the outer side of the wind wheel (73).

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