CN219939388U

CN219939388U - Fry breeding oxygen enrichment equipment

Info

Publication number: CN219939388U
Application number: CN202321707865.2U
Authority: CN
Inventors: 赵进杰; 张高立; 吴刚; 吕维娜
Original assignee: Hangzhou Huoshuiyuan Intelligent Environment Technology Co ltd
Current assignee: Hangzhou Huoshuiyuan Intelligent Environment Technology Co ltd
Priority date: 2023-07-03
Filing date: 2023-07-03
Publication date: 2023-11-03
Anticipated expiration: 2033-07-03

Abstract

The utility model discloses oxygen-enriched equipment for fish fry cultivation, which relates to the technical field of fish fry cultivation and comprises a cultivation shell, a filtering component, a cleaning component and an oxygen dissolving component; the rear side of the cultivation shell is provided with a first supporting leg; the filtering component is arranged at the rear side of the culture shell; the cleaning component is arranged at the upper end of the rear side of the culture shell; the dissolved oxygen subassembly contains air pump, landing leg two, input tube, air duct, turbofan, pivot two, conical gear one, conical gear two, jet-propelled pipe and bracing piece, the front end of breeding the shell is equipped with landing leg two, the upper end fixedly connected with air pump of landing leg two, the output fixedly connected with input tube of air pump, the rear end of input tube extends to the inside of breeding the shell, through the dissolved oxygen subassembly, makes jet-propelled pipe rotatory jet on the surface of water, can increase the oxygen content of breeding pond on a large scale to through filtering component, can filter some impurity, and clear up out impurity through the clearance subassembly is automatic, guaranteed the dissolved oxygen rate of breeding the pond.

Description

Fry breeding oxygen enrichment equipment

Technical Field

The utility model relates to the technical field of fry breeding, in particular to an oxygen enrichment device for fry breeding.

Background

The aerator is a machine which is commonly applied to fishery breeding industry, and has the main effects of increasing the oxygen content in water to ensure that fishes in water cannot be anoxic, inhibiting the growth of anaerobic bacteria in water and preventing pool water from deteriorating to threaten the living environment of fishes, and the aerator is generally used for pumping air into water by using an air pump provided by the aerator so as to achieve the purpose of increasing the oxygen content in water, but has a too slow air water dissolution rate, and has better aeration effect in a mode of spraying water under high pressure and then falling into a breeding pool.

The fry culture oxygen-enriched equipment provided by the prior art with the authorized bulletin number of CN108887226A comprises a bracket, an air pump, an air inlet pipe, an air outlet pipe, a mounting frame, a dispersion disc and a filter screen; the mounting frame is arranged in the middle of the bracket; the plurality of dispersing discs are rotatably arranged at the bottom of the mounting frame; the dispersion disc comprises a disc body, a rotating shaft and a plurality of flow dividing plates; the lower end of the rotating shaft passes through the tray body; the splitter plate is obliquely arranged on the tray body; the splitter plate is connected with the periphery of the rotating shaft in a cutting way; the air outlet pipe is positioned below the mounting frame, and a plurality of air jet heads are arranged on the air outlet pipe; the plurality of jet heads are arranged in one-to-one correspondence with the plurality of dispersion discs, and the jet direction of the jet heads faces the center of the dispersion discs; the air outlet pipe is communicated with the air pump; the air pump is arranged on the bracket; the filter screen sets up on the support, and the filter screen is located the top of mounting bracket.

The air is conveyed to the air jet head through the air pump, the air jet head jets out, when the air is jetted on the dispersion disc, the air drives the dispersion disc to rotate, and the dispersion disc drives surrounding water flow to flow along the direction away from the dispersion disc in the rotating process of the dispersion disc; the bubbles are dispersed along with the water flow under the action of centrifugal force; the plurality of jet heads are obliquely arranged on the air outlet pipe, so that the distribution plate is stressed to rotate rapidly, the flowing effect on gas and water is improved, the air bubbles are difficult to be conveyed to the whole culture pond in a large range, and the oxygen production efficiency is low.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides the fry breeding oxygen-enriched equipment, wherein the oxygen dissolving component is used for enabling the air ejector pipe to jet on the water surface in a rotating way, so that the large-range oxygen content of the breeding pond can be increased, the filtering component is used for filtering out some impurities, and the cleaning component is used for automatically cleaning out the impurities, so that the oxygen dissolving rate of the breeding pond is ensured, and the problems in the background art can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an oxygen enrichment device for fish fry cultivation comprises a cultivation shell, a filtering component, a cleaning component and an oxygen dissolving component;

and (3) cultivating the shell: the rear side is provided with a first supporting leg;

and (3) a filtering assembly: the device is arranged at the rear side of the culture shell;

cleaning assembly: the upper end of the rear side of the cultivation shell is provided with a plurality of grooves;

and an oxygen dissolving component: contain air pump, landing leg two, input tube, air duct, turbofan, pivot two, conical gear one, conical gear two, jet pipe and bracing piece, the front end of breeding the shell is equipped with landing leg two, the upper end fixedly connected with air pump of landing leg two, the output fixedly connected with input tube of air pump, the rear end of input tube extends to the inside of breeding the shell, the left and right sides fixedly connected with bracing piece of input tube, the upper end of bracing piece is equipped with the air duct, inner wall one side rotation of air duct is connected with pivot two, the side left side circular cone array of pivot two has the turbofan, the right-hand member of pivot two extends to air duct outside fixedly connected with conical gear one, the upper end rotation of air duct is connected with the jet pipe, the bottom periphery side fixedly connected with conical gear two of jet pipe, conical gear two and conical gear one intermesh, the input electricity of air pump is connected with the control switch group output, conveys the air through the input tube to the air duct in the air duct, drives the turbofan through the air current to the air duct, makes two circular cone gears rotate to make two, thereby makes two circular cone gears make each oxygen jet pipe rotate, makes each pool rotate, thereby makes each oxygen can all the final oxygen to reach the rotation.

Further, the upper end fixedly connected with water pump of landing leg one, the front end fixedly connected with of water pump trades the water pipe, trade the water pipe and extend to the inside left side of breeding the shell, the input electricity connection control switch group output of water pump, it is bitter behind the switch-on power of water pump will breed the sewage in the pond and take away through trading the water pipe.

Further, filtering component contains buffer shell, inlet opening and filter screen, the inside of breeding the shell is located the front end of trading the water pipe and is equipped with the buffer shell, the front end bottom of buffer shell is equipped with the inlet opening, the rear end bottom of buffer shell is equipped with the filter screen, and the buffer shell is arranged in gathering the taut in the pond of breeding together, and the filter screen blocks rubbish filter screen, prevents that the water pipe from being blocked.

Further, filtering component still contains supporting leg, motor, threaded rod, slide bar, slide and backup pad, the rear side upper end of breeding the shell is equipped with the supporting leg, the lower extreme fixedly connected with vertical motor of supporting leg, the output shaft fixedly connected with threaded rod of motor, the lower extreme of supporting leg is located two slide bars of motor left and right sides fixedly connected with respectively, the periphery sideslip connection slide of slide bar, the middle part screw threaded connection threaded rod of slide, the rear end downside fixed connection backup pad of slide, the input electricity of motor connects control switch group output, and the output shaft rotates and makes the threaded rod rotate after the motor switch-on, makes the slide be bitter along slide bar vertical slip to can make clearance subassembly decline or rise.

Further, the clearance subassembly contains electric putter, mounting groove, connecting rod one and assembly shell, the middle part of slide is equipped with electric putter, electric putter's output extends to the downside fixedly connected with assembly shell of slide, two mounting grooves have been seted up respectively to the left and right sides of assembly shell, the mounting groove has connecting rod one through pivot swing joint, electric putter's input electricity connection control switch group output, and electric putter switches on the work of power back output and makes the assembly shell can remove to make connecting rod one rotate.

Further, the cleaning assembly further comprises a first rotating shaft and a cleaning arm, the lower end of the first connecting rod is movably connected with the cleaning arm through the first rotating shaft, the left side and the right side of the lower end of the supporting plate are respectively fixedly connected with the first rotating shaft, the peripheral side of the first rotating shaft is rotationally connected with the middle side end of the cleaning arm, the first connecting rod rotates to enable the cleaning arm to rotate around the first rotating shaft, and finally the garbage clamp inside the buffer shell can be taken out to ensure the oxygen enrichment amount of the water body of the culture pond.

Compared with the prior art, the utility model has the beneficial effects that: the fry breeding oxygen enrichment device has the following advantages:

1. this fry breeds oxygen boosting equipment has set up dissolved oxygen subassembly, in the air pump switch on the power later passes through the input tube conveying air to the air duct, through the drive of air current to turbofan, makes pivot two rotate to make conical gear one rotate, make conical gear two rotate through the meshing, finally make the jet pipe rotate, thereby reach and make and breed each angle in pond can both dash oxygen.

2. This oxygen boosting equipment is bred to fry has set up filtering component, and the buffer shell is arranged in gathering the tensioning in the pond of breeding together, and the filter screen blocks rubbish filter check, prevents that the water pipe from being stopped up, and output shaft rotation makes the threaded rod rotate after the motor switch-on, makes the slide be bitter along the vertical slip of slide bar to can make clearance subassembly decline or rise.

3. This fry breed oxygen boosting equipment has set up the clearance subassembly, and output work makes the assembly shell can remove after electric putter switch-on to make first rotation of connecting rod, first rotation of connecting rod makes the clearance arm rotate around pivot, can take out the rubbish clamp of buffer shell inside at last, guarantees the oxygen boosting volume of breed pond water.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the right side cross-sectional structure of the present utility model;

FIG. 3 is a schematic view of the structure of the present utility model shown in FIG. 2 at a partially enlarged scale;

FIG. 4 is a schematic view of a partial structure of an oxygen dissolving module according to the present utility model;

FIG. 5 is a schematic view of a partial structure of an oxygen dissolving module according to the present utility model.

In the figure: 1 breeding shell, 2 landing leg I, 3 water pump, 4 water exchange pipe, 5 filter unit, 51 supporting leg, 52 motor, 53 threaded rod, 54 slide bar, 55 slide, 56 backup pad, 57 buffer shell, 58 water inlet, 59 filter screen, 6 cleaning unit, 61 electric putter, 62 mounting groove, 63 connecting rod I, 64 pivot I, 65 cleaning arm, 66 assembly shell, 7 dissolved oxygen subassembly, 71 air pump, 72 landing leg II, 73 input tube, 74 air duct, 75 turbofan, 76 pivot II, 77 conical gear I, 78 conical gear II, 79 air jet tube, 710 bracing piece.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present embodiment provides a technical solution: an oxygen enrichment device for fish fry cultivation comprises a cultivation shell 1, a filtering component 5, a cleaning component 6 and an oxygen dissolving component 7;

cultivation shell 1: the rear side is provided with a first supporting leg 2;

filter assembly 5: is arranged at the rear side of the cultivation shell 1; the filter assembly 5 comprises a buffer shell 57, a water inlet 58 and a filter screen 59, wherein the buffer shell 57 is arranged at the front end of the water exchange tube 4 inside the culture shell 1, the water inlet 58 is arranged at the bottom of the front end of the buffer shell 57, the filter screen 59 is arranged at the bottom of the rear end of the buffer shell 57, the buffer shell 57 is used for gathering the tensioning in the culture pond, and the filter screen 59 blocks the garbage filter grid to prevent the water exchange tube 4 from being blocked.

The filter assembly 5 further comprises supporting legs 51, a motor 52, threaded rods 53, sliding rods 54, sliding plates 55 and supporting plates 56, the supporting legs 51 are arranged at the upper end of the rear side of the culture shell 1, the lower ends of the supporting legs 51 are fixedly connected with the vertical motor 52, the output shafts of the motor 52 are fixedly connected with the threaded rods 53, the lower ends of the supporting legs 51 are located at the left side and the right side of the motor 52 and are respectively fixedly connected with two sliding rods 54, the peripheries of the sliding rods 54 are in sliding connection with the sliding plates 55, middle screw holes of the sliding plates 55 are in threaded connection with the threaded rods 53, the lower sides of the rear ends of the sliding plates 55 are fixedly connected with the supporting plates 56, the input ends of the motor 52 are electrically connected with the output ends of the control switch group, the output shafts of the motor 52 are rotated after being connected with a power supply, the threaded rods 53 are rotated, the sliding plates 55 are enabled to slide along the vertical sliding of the sliding rods 54, and accordingly the cleaning assembly can descend or ascend.

Cleaning assembly 6: the upper end of the rear side of the culture shell 1 is provided with a plurality of grooves; the cleaning assembly 6 comprises an electric push rod 61, a mounting groove 62, a first connecting rod 63 and an assembly shell 66, the electric push rod 61 is arranged in the middle of the sliding plate 55, the assembly shell 66 is fixedly connected with the lower side of the sliding plate 55, two mounting grooves 62 are respectively formed in the left side and the right side of the assembly shell 66, the first connecting rod 63 is movably connected to the mounting grooves 62 through a rotating shaft, the output end of the control switch group is electrically connected to the input end of the electric push rod 61, the assembly shell 66 can move due to the fact that the output end works after the electric push rod 61 is connected with a power supply, and accordingly the first connecting rod 63 rotates.

The cleaning assembly 6 further comprises a first rotating shaft 64 and a cleaning arm 65, the lower end of the first connecting rod 63 is movably connected with the cleaning arm 65 through the first rotating shaft, the left side and the right side of the lower end of the supporting plate 56 are respectively fixedly connected with the first rotating shaft 64, the outer peripheral side of the first rotating shaft 64 is rotationally connected with the middle side end of the cleaning arm 65, the first connecting rod 63 rotates to enable the cleaning arm 65 to rotate around the first rotating shaft 64, and finally the garbage clamp inside the buffer shell 57 can be taken out to ensure the oxygen enrichment amount of the water body of the culture pond.

Dissolved oxygen assembly 7: the air pump comprises an air pump 71, a second supporting leg 72, an input pipe 73, an air duct 74, a turbofan 75, a second rotating shaft 76, a first conical gear 77, a second conical gear 78, an air ejector 79 and a supporting rod 710, wherein the front end of a culture shell 1 is provided with the second supporting leg 72, the upper end of the second supporting leg 72 is fixedly connected with the air pump 71, the output end of the air pump 71 is fixedly connected with the input pipe 73, the rear end of the input pipe 73 extends to the inside of the culture shell 1, the left side and the right side of the input pipe 73 are fixedly connected with the supporting rod 710, the upper end of the supporting rod 710 is provided with the air duct 74, one side of the inner wall of the air duct 74 is rotatably connected with the second rotating shaft 76, the side of the second rotating shaft 76 is provided with the turbofan 75, the right end of the second rotating shaft 76 extends to the outer side of the air duct 74 and is fixedly connected with the first conical gear 77, the upper end of the air duct 74 is rotatably connected with the air ejector 79, the outer periphery of the bottom end of the air ejector 79 is fixedly connected with the second conical gear 78, the second conical gear 78 is meshed with the first conical gear 77, the input end of the air pump 71 is electrically connected with the output end of a control switch set, air pump 71 is connected with the power supply, and then air is transmitted to the air duct 74 through the input pipe 74, the air fan 75, and the air is rotated to the air fan 75, and finally, and the air is rotated to the first rotating shaft 76 and the air ejector 79 through the rotating fan.

The upper end fixedly connected with water pump 3 of landing leg one 2, the front end fixedly connected with of water pump 3 trades water pipe 4, trades water pipe 4 and extends to the inside left side of breed shell 1, and the input electricity of water pump 3 connects control switch group output, and water pump 3 is bitter behind the switch-on power will breed the sewage in the pond through trading water pipe 4 and take away.

The utility model provides a fry breeding oxygen-enriched device, which has the following working principle: the buffer shell 57 is used for gathering the tensioning in the culture pond together, the filter screen 59 blocks the rubbish filter grid, the water exchange tube 4 is prevented from being blocked, the output shaft rotates to enable the threaded rod 53 to rotate after the motor 52 is connected with a power supply, the sliding plate 55 is enabled to vertically slide along the sliding rod 54, the cleaning assembly can be lowered or lifted, the assembly shell 66 can be moved by the operation of the output end after the electric push rod 61 is connected with the power supply, the first connecting rod 63 is enabled to rotate, the cleaning arm 65 can rotate around the first rotating shaft 64, finally the rubbish clamp in the buffer shell 57 can be taken out, the oxygen enrichment amount of the culture pond water body is guaranteed, the air pump 71 is enabled to transmit air into the air guide tube 74 through the input tube 73 after being connected with the power supply, the second rotating shaft 76 is enabled to rotate through the air flow, the first conical gear 77 is enabled to rotate through meshing, the second conical gear 78 is enabled to rotate, and finally the air guide tube 79 is enabled to rotate, and therefore all angles of the culture pond can be inflated.

It should be noted that, in the above embodiment, the core chip of the external control switch set is selected from a PLC single chip, the specific model is siemens S7-500, the water pump 3 is selected from a centrifugal water pump, the motor 52 is selected from a stepper motor, the electric push rod 61 is selected from an L-shaped electric push rod, and the external control switch set controls the motor 51, the water pump 3 and the electric push rod 61 to work by a method commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims

1. An oxygen-enriched equipment is bred to fry, its characterized in that: comprises a breeding shell (1), a filtering component (5), a cleaning component (6) and an oxygen dissolving component (7);

cultivation shell (1): the rear side is provided with a first supporting leg (2);

filter assembly (5): is arranged at the rear side of the cultivation shell (1);

cleaning assembly (6): the upper end of the rear side of the cultivation shell (1) is provided with a plurality of grooves;

dissolved oxygen assembly (7): the novel multifunctional air pump comprises an air pump (71), a second supporting leg (72), an input pipe (73), an air duct (74), a turbofan (75), a second rotating shaft (76), a first conical gear (77), a second conical gear (78), an air jet pipe (79) and a supporting rod (710), wherein the second supporting leg (72) is arranged at the front end of the culture shell (1), the air pump (71) is fixedly connected with the upper end of the second supporting leg (72), the input pipe (73) is fixedly connected with the output end of the air pump (71), the rear end of the input pipe (73) extends to the inside of the culture shell (1), the supporting rod (710) is fixedly connected with the left side and the right side of the input pipe (73), the upper end of the supporting rod (710) is provided with the air duct (74), one side of the inner wall of the air duct (74) is rotatably connected with the second rotating shaft (76), the left side conical array of the second rotating shaft (76) is provided with the turbofan (75), the right end of the second rotating shaft (76) extends to the outer side of the air duct (74) to be fixedly connected with the first conical gear (77), the upper end of the air duct (74) is rotatably connected with the second conical gear (79), the second conical gear (78) is fixedly meshed with the first conical gear (78), the input end of the air pump (71) is electrically connected with the output end of the control switch group.

2. The fry rearing oxygen-enriched apparatus of claim 1, wherein: the upper end fixedly connected with water pump (3) of landing leg one (2), the front end fixedly connected with water exchange pipe (4) of water pump (3), water exchange pipe (4) extend to the inside left side of breed shell (1), the input electricity of water pump (3) is connected with control switch group output.

3. The fry rearing oxygen-enriched apparatus of claim 2, wherein: the filter assembly (5) comprises a buffer shell (57), a water inlet hole (58) and a filter screen (59), wherein the buffer shell (57) is arranged at the front end of the water exchange pipe (4) in the culture shell (1), the water inlet hole (58) is arranged at the bottom of the front end of the buffer shell (57), and the filter screen (59) is arranged at the bottom of the rear end of the buffer shell (57).

4. The fry rearing oxygen-enriched apparatus of claim 1, wherein: the filter assembly (5) further comprises supporting legs (51), a motor (52), threaded rods (53), sliding rods (54), sliding plates (55) and supporting plates (56), the supporting legs (51) are arranged at the upper end of the rear side of the cultivation shell (1), the lower ends of the supporting legs (51) are fixedly connected with vertical motors (52), output shafts of the motors (52) are fixedly connected with the threaded rods (53), the lower ends of the supporting legs (51) are located at the left side and the right side of the motors (52) and are fixedly connected with two sliding rods (54) respectively, the periphery of each sliding rod (54) is slidingly connected with the corresponding sliding plate (55), the threaded rods (53) are connected with the threaded holes in the middle of each sliding plate (55), the lower sides of the rear ends of the sliding plates (55) are fixedly connected with the supporting plates (56), and the input ends of the motors (52) are electrically connected with the output ends of the control switch groups.

5. The fry rearing oxygen-enriched apparatus of claim 4, wherein: the cleaning assembly (6) comprises an electric push rod (61), a mounting groove (62), a first connecting rod (63) and an assembly shell (66), the electric push rod (61) is arranged in the middle of the sliding plate (55), the output end of the electric push rod (61) extends to the lower side of the sliding plate (55) and is fixedly connected with the assembly shell (66), two mounting grooves (62) are respectively formed in the left side and the right side of the assembly shell (66), the first connecting rod (63) is movably connected to the mounting groove (62) through a rotating shaft, and the input end of the electric push rod (61) is electrically connected with the output end of the control switch group.

6. The fry rearing oxygen-enriched apparatus of claim 5, wherein: the cleaning assembly (6) further comprises a first rotating shaft (64) and a cleaning arm (65), the lower end of the first connecting rod (63) is movably connected with the cleaning arm (65) through the first rotating shaft, the left side and the right side of the lower end of the supporting plate (56) are respectively fixedly connected with the first rotating shaft (64), and the peripheral side of the first rotating shaft (64) is rotationally connected with the middle side end of the cleaning arm (65).