CN115176751B - Intelligent fishpond oxygenation and material scattering device and use method - Google Patents

Abstract

The invention discloses an intelligent fishpond oxygenation material spreading device which comprises a framework, a propelling device, a single material spreading oxygenation device, a solar device and a water body purification device, wherein the framework is connected with a floating pipe through a main support frame in the framework, so that the oxygenation material spreading device is supported in water, a propelling function is realized through the mutual matching of a shaft cover, a shaft hole cover, a propelling rotary vane and a propelling air frame in the propelling device, the single material spreading oxygenation device comprises a rotating ring, a buoyancy bracket, a driving motor, a filtering port, an exhaust fan, an air outlet, a material spreading shell and a material spreading filter, the single material spreading oxygenation device is driven by the driving motor, the spreading range of bait feed is enlarged, and the solar device comprises an energy device, a transmission table and a solar panel.

Description

Intelligent fishpond oxygenation and material scattering device and use method

Technical Field

The invention relates to the technical field of intelligent agriculture, in particular to an intelligent fishpond oxygenation and material scattering device and a using method thereof.

Background

In recent years, the scale and the yield of agricultural machinery are increasing. Among the products with greater profit growth are: livestock machinery increases by 33% in comparison, fishery machinery increases by 34% in comparison, and so on. In addition, livestock machines and fishery machines have been widely developed and applied to related mechanical equipment while profits are increased. Along with the increasingly scientific and technological cultivation of the fishing ground, the requirements of the market on mechanized cultivation are increasingly greater, so that the development of automatic cultivation equipment is promoted in order to obtain more efficient and more convenient automatic machines, and the rapid development and continuous innovation of the fishing ground machinery are promoted.

However, the existing intelligent mechanical device for the fishing ground is lack, and the common old-fashioned aerator has the defects of low aeration efficiency, short service life and single function.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an intelligent fishpond oxygenation and spreading device capable of assisting fishpond culture and providing the functions of intelligent fishpond timing and fixed-point spreading, water oxygenation and water quality detection and a use method thereof.

In order to achieve the above purpose, the present invention provides the following technical solutions: an intelligent fishpond oxygenation and material scattering device comprises a framework, a propulsion device, a single material scattering and oxygenation device, a solar device and a water body purification device;

the frame comprises floating pipes and a total support frame, the total support frame is in a cross structure, the floating pipes are respectively positioned between adjacent wall surfaces of the total support frame and are connected with the wall surfaces of the total support frame through screws, so that the oxygenation material scattering device is supported in water, and the total support frame is automatically inflated or exhausted according to the detected feed amount, so that the machine body is stabilized;

the propelling device comprises a shaft cover, a shaft hole cover, a propelling rotary vane and a propelling air frame, wherein the propelling air frame is positioned at the lower end of the total support frame, the propelling rotary vane is respectively positioned in the wall surface of the propelling air frame, the shaft cover and the shaft hole cover are respectively positioned at two sides of the propelling rotary vane, and the single propelling rotary vane is integrally sealed and isolated from water-electricity intersection;

the single material scattering oxygenation device comprises a rotating ring, a buoyancy bracket, a driving motor, a filtering port, an exhaust fan, an air outlet, a material scattering shell and a material scattering filter, wherein the material scattering shell is positioned at the lower end of the material scattering filter, the interior of the material scattering filter is connected with the material scattering shell through a pipeline, feed is added into the material scattering filter and enters the material scattering shell along the pipeline, the driving motor is positioned at the lower end of the material scattering filter, the exhaust fan is positioned at the lower end of the driving motor, the filtering port is positioned at the lower end of the exhaust fan, the rotating ring is positioned at the lower end of the material scattering shell, the middle of the buoyancy bracket is connected with the upper end of the filtering port, the outer side of the buoyancy bracket is connected with the outer wall of the rotating ring, a plurality of the rotating rings are respectively connected with the periphery of the main support frame, and the air outlet is positioned at the lower end of the filtering port.

The solar device comprises an energy device, a transmission table and a solar panel, wherein the energy device is positioned on the upper end surface of the total support frame, the lower ends of the transmission table are respectively positioned on the upper surfaces around the energy device, and the lower ends of the solar panel are connected with the upper ends of the transmission table through transmission pipes;

the water body purifying device comprises a water quality and oxygen detecting device, and the water quality and oxygen detecting device is positioned at the center of the lower end of the propulsion air frame.

Preferably, the material scattering shell and the material scattering filter are connected independently, so that the discharging speed of the feed is independently controlled.

Preferably, the driving motor is connected with a bearing arranged between the material scattering filters, the exhaust fan is connected with the filtering port through a rotary shaft arranged between the exhaust fan and the filtering port, the filtering port is connected with the air outlet through a bearing shaft arranged between the filtering port and the air outlet, and an oxygen discharge rotary blade is arranged between the bearing shaft and the air outlet.

Preferably, the driving motor drives the single-body material scattering and oxygenation device.

Preferably, the upper and lower ends of the exhaust fan are respectively provided with an upper air inlet and a lower air inlet.

Preferably, the pushing and moving function consisting of the shaft cover, the shaft hole cover and the pushing rotary vane is operated by remote control.

Preferably, the air outlet and the oxygen discharge rotary vane are called to regulate and control the area where the air outlet and the oxygen discharge rotary vane are positioned according to the information fed back by the water quality and oxygen detection device.

Preferably, the transmission table controls the transmission pipe to rotate, so as to control the angle of the solar panel, and the light source is received.

An application method of an intelligent fishpond oxygenation and material scattering device comprises the following steps:

s1, before the device is used, firstly, after the device is assembled, initializing the angle and the direction of a solar panel, ensuring enough buoyancy of a floating pipe, and detecting the driving performance of a driving motor;

s2, when the device is used, firstly, a feed to be fed is filled in a feed scattering filter in the single feed scattering oxygenation device, then the device is controlled to move to a designated position by a remote control propulsion device, a water quality and oxygen detection device is started, the discharging speed is controlled intelligently, and the oxygenation function is opened at fixed time;

s3, when the angle of sunlight is detected, the angle of the solar panel is intelligently adjusted by preliminarily setting a time zone and the weather condition of the intelligent linkage computer terminal;

and S4, after one round of material scattering is finished, the remote control device returns to the bank to add the feed, and controls the discharge holes on the inner and outer material scattering shells to be staggered in the feeding process, so that the refilling is finished, and the material scattering work is executed again.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention has compact structure, and each part can be independently disassembled in multiple stages, thereby being convenient for maintenance and cleaning.

2. The invention utilizes the rotation advantage of the aerator, has wide spreading range and even spreading, and avoids the accumulation of bait and feed.

3. The invention is additionally provided with a plurality of rotatable solar panels, so that light energy can be effectively utilized, clean energy is used, and energy consumption is reduced; the use of external wires is reduced, and the safety and the sustainability of products are improved.

4. According to the invention, the oxygen-enriched water is discharged by the outer rotor and the mixing effect is enhanced by arranging the oxygen-discharging rotary vane at the air outlet, so that the water body state is effectively maintained.

5. The invention integrates automatic control and remote control, is convenient for intelligent operation, realizes the movement of the whole product in different directions by the remote control of the propelling device, and ensures intelligent feeding and oxygenation by additionally arranging the water quality and oxygen detection device at the lower end of the propelling gas frame.

6. The invention integrates all control systems, can be more sealed, is beneficial to maintenance, combines single products into one machine group, and increases the linkage of the machine. Can effectively increase the covered water area and enlarge the action range. The support is utilized to combine the modules, so that the control and cable laying are facilitated.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic view of the whole structure of the oxygenation spreading device of the invention;

FIG. 2 is a schematic structural view of a single-body material-scattering oxygenation device according to the invention;

FIG. 3 is an exploded view of the whole oxygenation spreading device of the invention;

FIG. 4 is a partial exploded view of the propulsion device of the present invention;

FIG. 5 is a schematic view of the bottom of the propulsion device according to the present invention;

reference numerals in the drawings: 001. a rotating ring; 002. an air outlet; 003. an oxygen discharge rotary vane; 004. a receiving shaft; 005. a filtering port; 006. a buoyancy support; 007. rotating the shaft; 008. a lower air inlet; 009. an exhaust fan; 010. an upper air inlet; 011. a driving motor; 012. a bearing; 013. a material scattering shell; 014. a spreading filter; 015. a transmission station; 016. a solar panel; 017. a transmission tube; 018. a floating pipe; 019. a general support frame; 020. an energy source device; 023. a water quality and oxygen detection device; 024. a shaft cover; 025. pushing the air inlet frame; 026. advancing the rotating sheet; 027. and a shaft hole cover.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: 1-4, an intelligent fishpond oxygenation and material spreading device comprises a framework, a propulsion device, a single material spreading and oxygenation device, a solar device and a water body purification device;

the framework comprises floating pipes 018 and a total support 019, wherein the total support 019 is in a cross structure, the floating pipes 018 are respectively positioned between adjacent wall surfaces of the total support 019 and are connected with the wall surfaces of the total support 019 through screws, so that the oxygenation material scattering device is supported in water, and the total support 019 is automatically inflated or exhausted according to the detected feed amount, so that the machine body is stabilized;

the propulsion device comprises a shaft cover 024, a shaft hole cover 027, propulsion rotary blades 026 and a propulsion air frame 025, wherein the propulsion air frame 025 is positioned at the lower end of the overall support frame 019, the propulsion rotary blades 026 are respectively positioned in the wall surface of the propulsion air frame 025, the shaft cover 024 and the shaft hole cover 027 are respectively positioned at two sides of the propulsion rotary blades 026, the single propulsion rotary blades 026 are integrally sealed and isolated from water and electricity, and the propulsion movement function consisting of the shaft cover 024, the shaft hole cover 027 and the propulsion rotary blades 026 is operated by remote control to control the oxygenation material scattering device to move;

wherein, can replace the universal shaft of integral type with axle cap 024, shaft hole cover 027, impel spiral slice 026, lighten whole weight and consumptive material.

The single material scattering oxygenation device comprises a rotating ring 001, a buoyancy bracket 006, a driving motor 011, a filter outlet 005, an exhaust fan 009, an air outlet 002, a material scattering housing 013 and a material scattering filter 014, wherein the parts are all arranged on the same axis, the material scattering housing 013 is arranged at the lower end of the material scattering filter 014, the inside of the material scattering filter 014 is connected with the material scattering housing 013 through a pipeline, the material scattering housing 006 is internally added with feed along the pipeline, the material scattering housing 006 is provided with the inlet, the driving motor 011 is simultaneously connected with the material scattering housing 013 through the pipeline, the material scattering housing 013 is connected with the material scattering filter 014 in a mutually independent mode, the material scattering speed of the single material scattering housing 013 is further controlled, the driving motor 011 is arranged at the lower end of the material scattering filter 014, the exhaust fan 009 is arranged at the lower end of the driving motor 011, the upper end and the lower end of the exhaust fan 009 are respectively provided with an upper air inlet 010 and a lower air inlet 008, the rotating ring 001 is arranged at the lower end of the material scattering housing 013, the floating motor housing 006 is arranged at the middle of the material scattering housing 006, the buoyancy bracket is further connected with the outer side of the filter outlet 005 through the pipeline, the filter outlet is connected with the filter outlet 005 through the air outlet sleeve-shaped filter housing 005, the rotating housing 005 is connected with the outer wall is further connected with the air outlet 011 through the rotating housing 011, the air outlet is connected with the filter housing 011, the overall rotary control device is connected with the rotary housing through the filter inlet 011, the filter end is connected with the 3 through the filter inlet 011 and the filter end through the 3. An oxygen discharge rotary vane 003 is arranged between the bearing shaft 004 and the air outlet 002;

wherein, can replace the connected mode of integral axle in the monomer spills material oxygenation device for integrated into one piece, partial screw bolted connection can guarantee holistic integration and simplify the assembly degree of difficulty, can replace oxygenation equipment lower air inlet 008, exhaust fan 009 and last air inlet 010 in the monomer spills material oxygenation device simultaneously and be the oxygenation stick under water, realizes more efficient oxygenation scheme.

The solar device comprises an energy device 020, a transmission table 015 and a solar panel 016, wherein the energy device 020 is positioned on the upper end surface of the total support 019, the lower ends of the transmission tables 015 are respectively positioned on the upper surfaces around the energy device 020, the lower ends of the solar panel 016 are connected with the upper ends of the transmission tables 015 through transmission pipes 017, the transmission tables 015 control the transmission pipes 017 to rotate, and then the angle of the solar panel 016 is controlled, so that the light source receiving work is realized, and the solar device provides energy for the oxygenation spreading device;

the water body purifying device comprises a water quality and oxygen detecting device 023, the water quality and oxygen detecting device 023 is positioned at the center of the lower end of the propulsion air frame 025, and the air outlet 002 and the oxygen discharging rotary blade 003 are called to regulate and control the area where the water body purifying device is positioned through the information fed back by the water quality and oxygen detecting device 023.

An application method of an intelligent fishpond oxygenation and material scattering device comprises the following steps:

s1, before the device is used, after the device is assembled, initializing the angle and the direction of a solar panel 016, ensuring enough buoyancy of a floating pipe 018 and detecting the driving performance of a driving motor 011;

s2, when the device is used, firstly, feed to be fed is filled in a feed scattering filter 014 in the single feed scattering oxygenation device, then the feed is moved to a designated position by a remote control propulsion device, a water quality and oxygen detection device 023 is started, the discharging speed is intelligently controlled, the oxygenation function is opened at regular time, data such as the oxygen content of water quality, the temperature and the profile of underwater fish school can be collected, the oxygen content of water quality can be monitored, and information such as water temperature, fish school distribution and the like can be detected at multiple positions and multiple angles, so that the feed can be fed at regular time and fixed point, the feed scattering range is wide, the scattering is uniform, and the fish feed accumulation is avoided;

s3, when the angle of sunlight is detected, the angle of the solar panel 016 is intelligently adjusted by preliminarily setting a time zone and the weather condition of an intelligent linkage computer terminal, solar power generation is adopted, the floating body is environment-friendly and low in cost, the floating body is made of a floating pipe 018, the rotation resistance is smaller, meanwhile, the propelling device is provided with a remote control module, the loading and transportation cost and the storage cost are lower, and the interface is fixed by a curved surface and double bolts, so that the multi-directional force is effectively born;

and S4, after one round of material scattering is finished, the remote control device returns to the bank to add feed, and controls the discharge holes on the inner and outer material scattering shells 013 to be staggered in the feeding process, so that the refilling is finished, and the material scattering work is executed again.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. An intelligent fishpond oxygenation material scattering device which is characterized in that: comprises a framework, a propulsion device, a single body material scattering and oxygenation device, a solar device and a water body purification device;

the frame comprises floating pipes and a total support frame, the total support frame is in a cross structure, the floating pipes are respectively positioned between adjacent wall surfaces of the total support frame and are connected with the wall surfaces of the total support frame through screws, so that the oxygenation material scattering device is supported in water, and the total support frame is automatically inflated or exhausted according to the detected feed amount, so that the machine body is stabilized;

the propelling device comprises a shaft cover, a shaft hole cover, propelling rotary blades and a propelling air frame, wherein the propelling air frame is positioned at the lower end of the main support frame, the propelling rotary blades are respectively positioned in the wall surface of the propelling air frame, the shaft cover and the shaft hole cover are respectively positioned at two sides of the propelling rotary blades, and the single propelling rotary blades are integrally sealed and isolated from water-electricity intersection;

the single material scattering oxygenation device comprises a rotating ring, a buoyancy bracket, a driving motor, a filtering port, an exhaust fan, an air outlet, a material scattering shell and a material scattering filter, wherein parts are all on the same axis, the material scattering shell is positioned at the lower end of the material scattering filter, the interior of the material scattering filter is connected with the material scattering shell through a pipeline, feed is added into the material scattering filter and enters the material scattering shell along the pipeline, the driving motor is positioned at the lower end of the material scattering filter, the exhaust fan is positioned at the lower end of the driving motor, the filtering port is positioned at the lower end of the exhaust fan, the rotating ring is positioned at the lower end of the material scattering shell, the middle of the buoyancy bracket is connected with the upper end of the filtering port, the outer side of the buoyancy bracket is connected with the outer wall of the rotating ring, a plurality of the rotating rings are respectively connected with the periphery of the total support, and the air outlet is positioned at the lower end of the filtering port;

the solar device comprises an energy device, a transmission table and a solar panel, wherein the energy device is positioned on the upper end surface of the total support frame, the lower ends of the transmission table are respectively positioned on the upper surfaces around the energy device, and the lower ends of the solar panel are connected with the upper ends of the transmission table through transmission pipes;

the water body purifying device comprises a water quality and oxygen detecting device, and the water quality and oxygen detecting device is positioned at the center of the lower end of the propulsion air frame;

the driving motor is connected with the material scattering filter through a bearing, the exhaust fan is connected with the filtering port through a rotating shaft, the filtering port is connected with the air outlet through a receiving shaft, and an oxygen discharge rotary vane is arranged between the receiving shaft and the air outlet;

the upper and lower ends of the exhaust fan are respectively provided with an upper air inlet and a lower air inlet.

2. The intelligent fishpond oxygenation material spreading device according to claim 1, wherein: the material scattering shell is connected with the material scattering filter independently, so that the discharging speed of the feed is independently controlled by rotation.

3. The intelligent fishpond oxygenation material spreading device according to claim 1, wherein: the driving motor drives the single body material scattering and oxygenation device.

4. The intelligent fishpond oxygenation material spreading device according to claim 1, wherein: the propelling movement function consisting of the shaft cover, the shaft hole cover and the propelling rotary vane is operated by remote control.

5. The intelligent fishpond oxygenation material spreading device according to claim 1, wherein: and calling the air outlet and the oxygen discharge rotary vane to regulate and control the area by the information fed back by the water quality and oxygen detection device.

6. The intelligent fishpond oxygenation material spreading device according to claim 1, wherein: the transmission table controls the transmission pipe to rotate, so as to control the angle of the solar panel, and the light source is received.

7. Use of an intelligent fishpond oxygenation spreading device according to any of the preceding claims 1-6, characterized in that it comprises the following steps:

s1, before the device is used, firstly, after the device is assembled, initializing the angle and the direction of a solar panel, ensuring enough buoyancy of a floating pipe, and detecting the driving performance of a driving motor;

s2, when the device is used, firstly, a feed to be fed is filled in a feed scattering filter in the single feed scattering oxygenation device, then the device is controlled to move to a designated position by a remote control propulsion device, a water quality and oxygen detection device is started, the discharging speed is controlled intelligently, and the oxygenation function is opened at fixed time;

s3, when the angle of sunlight is detected, the angle of the solar panel is intelligently adjusted by preliminarily setting a time zone and the weather condition of the intelligent linkage computer terminal;

and S4, after one round of material scattering is finished, the remote control device returns to the bank to add the feed, and controls the inner and outer discharging holes on the material scattering shell to be staggered in the feeding process, so that the refilling is finished, and the material scattering work is executed again.