CN216452698U

CN216452698U - Intelligent fishpond management ship

Info

Publication number: CN216452698U
Application number: CN202122996858.6U
Authority: CN
Inventors: 杨彬月; 张玉良; 刘文斌; 任顺; 刘梦语; 刘佳辉; 耿春雷
Original assignee: Qingdao Huanghai University
Current assignee: Qingdao Huanghai University
Priority date: 2021-12-01
Filing date: 2021-12-01
Publication date: 2022-05-10
Anticipated expiration: 2031-12-01

Abstract

The utility model belongs to the technical field of fishery culture management, and particularly relates to an intelligent fishpond management ship which comprises a ship body, wherein a cabin is arranged in the ship body, a solar photovoltaic panel and a diesel generator are fixedly arranged on the inner bottom wall of the cabin, a power chamber is arranged in the ship body, a storage battery, a left driving motor and a right driving motor are fixedly arranged in the inner cavity of the power chamber, output shafts of the two driving motors are fixedly connected with a propeller, a feed throwing and feeding device is fixedly arranged on the inner bottom wall of the cabin and the top of the power chamber together, a data monitoring processing and control chamber is fixedly arranged on the inner bottom wall of the cabin, an industrial personal computer and a sampling detection device are fixedly arranged in the inner cavity of the data monitoring processing and control chamber, and a 4.5G wireless network communication module is arranged in the industrial personal computer, promote shoal of fish distribution homogeneity, can effectively improve the fish and eat the effect of throwing something and feeding.

Description

Intelligent fishpond management ship

Technical Field

The utility model belongs to the technical field of fishery culture management, and particularly relates to an intelligent fishpond management ship.

Background

The fishpond refers to a place for catching or culturing fish, in particular to an internal compartment of the fishpond or a purse seine for enclosing the fish. The general ideal pond has the advantages of large required area, deep pond water, sufficient illumination, smooth water source, rich water quality and convenient traffic, is favorable for the growth of fishes and the improvement of yield, is favorable for production management, and is two main works for monitoring the water quality and feeding feed in the daily production management work of fish pond culture.

SUMMERY OF THE UTILITY MODEL

Among the prior art, to the water quality testing of pond and fish eat and throw something and feed and adopt the mode that sets up detection device and throw something and feed the device at the fixed point in the pond more, unable free choice water quality sampling point, easily cause the inaccuracy of detected data, throw something and feed the fixed setting of point simultaneously, make the shoal of fish gather near each point of throwing something and feeding easily, cause the pond shoal of fish to distribute unevenly, the shoal of fish too concentrates and also can cause the shoal of fish to fight to eat, make the effect variation of throwing something and feeding, influence some fry growth. The utility model provides an intelligent fishpond management ship which can be used for sampling and detecting water at any position of a fishpond, improving data accuracy, covering all positions of the fishpond by feeding, improving fish school distribution uniformity and effectively improving fish food feeding effect.

The utility model provides the following technical scheme: an intelligent fishpond management ship comprises a ship body, wherein a cabin is arranged inside the ship body, a solar photovoltaic panel and a diesel generator are fixedly installed on the inner bottom wall of the cabin, a power chamber is arranged in the hull, a storage battery and a left driving motor and a right driving motor are fixedly arranged in an inner cavity of the power chamber, output shafts of the two driving motors are fixedly connected with a propeller, the inner bottom wall of the cabin and the top of the power chamber are fixedly provided with an anti-blocking feed scattering and feeding device, a data monitoring processing and control room is fixedly arranged on the inner bottom wall of the cabin, an industrial personal computer and a sampling detection device are fixedly arranged in the inner cavity of the data monitoring processing and control room, the inside of industrial computer is equipped with 4.5G wireless network communication module, the top fixed mounting of data monitoring processing and control room has receiving and dispatching antenna, the interior diapire of cabin still fixed mounting have the oxygenation pump.

The anti-blocking feed scattering and feeding device comprises two groups, and comprises telescopic modules fixedly mounted on the bottom wall in the cabin, a feedbox is fixedly mounted at the top of each telescopic module, a feed hopper is fixedly connected to the top of each feedbox, a vibration motor is fixedly mounted at the bottom of each feedbox, a screen is fixedly mounted in an inner cavity of each feedbox, the right side wall of each feedbox is communicated and hinged with a discharge door, a corrugated pipe is fixedly connected to the bottom of each feedbox, the bottom of each corrugated pipe is fixedly connected with an electric butterfly valve, and the bottom of each electric butterfly valve is fixedly connected with the scattering module; add the fodder to the feedbox through the feeder hopper, in-process traveles at the hull, industrial computer control vibrating motor, electric butterfly valve, throwing charging tray driving motor opens, vibrating force that vibrating motor produced drives the feedbox at the telescopic tube, the vibration of direction about going on under the cooperation of telescopic link and spring, the fodder that drives in the feedbox carries out the sieve of direction about going on moves, sieve the fodder, carry out the separation through the screen cloth with the too big fodder of granule, and the fodder that the granule size is up to standard then falls on the disk body of throwing the charging tray through bellows and electric butterfly valve through the sieve mesh of screen cloth, play and avoid the too big fodder of granule to drop into the feed safety that influences the fish in the aquatic.

The telescopic module comprises a telescopic sleeve, a telescopic rod is inserted into an inner cavity of the telescopic sleeve, spring fixing plates are fixedly arranged on the outer side of the telescopic sleeve and the outer side of the telescopic rod, and a spring is fixedly connected between the upper spring fixing plate and the lower spring fixing plate; when the vibrating motor drives the feed box to vibrate in the vertical direction, the telescopic rod and the telescopic sleeve perform telescopic action under the action of the vibrating force, and the telescopic motion amount is kept within a certain range through the elasticity of the spring.

The throwing module comprises a support frame fixedly mounted at the top of the power chamber, a throwing bin is fixedly mounted at the top of the support frame, a throwing port penetrates through the right side of the throwing bin, a rotating shaft is rotatably mounted between the inner top wall and the inner bottom wall of the throwing bin through a bearing, a throwing disc is sleeved and mounted on the outer side of the rotating shaft, a throwing disc driving motor is fixedly mounted at the bottom of the throwing bin, and an output shaft of the throwing disc driving motor is fixedly connected with the rotating shaft; the feed throwing tray is driven by the feed throwing tray driving motor to rotate at a high speed, feed on the tray body is thrown to the ship through the feed throwing port on the feed throwing bin by utilizing centrifugal force, the throwing surface is a sector surface, the throwing effect is uniform, and the width of the throwing surface is large.

The material throwing disc comprises a disc body, and a plurality of partition plates are integrally formed at the top of the disc body; the division plate is used for driving the feed on the disc body to rotate when the disc body rotates at a high speed, so that the feed can obtain enough acceleration before being thrown out.

Wherein, the sampling detection device comprises a sampling detection device body, a PH value detection chamber, an oxygen content detection chamber, a temperature monitoring chamber and a turbidity detection chamber are fixedly arranged in an inner cavity of the sampling detection device body, a PH value sensor, an oxygen content sensor, a temperature sensor and a turbidity sensor are respectively and fixedly arranged in the inner cavity of the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber, liquid level sensors are respectively arranged in the inner cavity of the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber, the PH value detection chamber, the oxygen content detection chamber, the bottom of the temperature monitoring chamber and the turbidity detection chamber are fixedly connected with a shunt pipe, a first electromagnetic valve is arranged on the shunt pipe, the bottom of the shunt pipe is fixedly connected with a sampling water pump, the bottoms of the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber are also fixedly connected with a waste liquid drainage confluence pipe, and a second electromagnetic valve is fixedly arranged on the waste liquid drainage confluence pipe; when the ship body moves to a sampling water area, an instruction is given to the industrial personal computer to enable the industrial personal computer to control the first electromagnetic valve to be opened, the sampling water pump is controlled to rotate, pond water is pumped into the shunt pipe by the sampling water pump and is uniformly input into the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber, after the water level in the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber reaches the liquid level sensor to sense the water level, the industrial personal computer automatically controls the first electromagnetic valve and the sampling water pump to be closed, the PH value sensor, the oxygen content sensor, the temperature sensor and the turbidity sensor are used for respectively carrying out PH value detection, oxygen content detection, water temperature detection and turbidity detection on the water in the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber, after one-time detection is finished, the second electromagnetic valve is opened, the PH value detection chamber, the oxygen content detection chamber, the turbidity detection chamber and the turbidity detection chamber are controlled to be opened, The waste water in the temperature monitoring chamber and the turbidity detection chamber can be discharged back to the pond through the waste liquid drainage confluence pipe.

The oxygen increasing pumps are two in number and are respectively connected with a hose, and the two hoses are respectively bound on the front side and the rear side of the ship body and extend into the position below a waterline; when the oxygen content in the water of the fishpond is detected to be insufficient, the oxygenation pump can be opened, and the oxygenation pump and the hose stretching into the water are utilized to carry out oxygenation operation on the water body.

And the industrial personal computer is in communication connection with the remote control device through the 4.5G wireless network communication module.

The utility model has the beneficial effects that:

when the ship body moves to a sampling water area, an instruction is given to the industrial personal computer to enable the industrial personal computer to control the first electromagnetic valve to be opened and control the sampling water pump to operate, the sampling water pump pumps pond water into the shunt pipe and uniformly inputs the pond water into the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber, when the water levels in the PH value detection chamber, the oxygen content detection chamber, the temperature monitoring chamber and the turbidity detection chamber reach the liquid level sensor to sense the water level, the industrial personal computer automatically controls the first electromagnetic valve and the sampling water pump to be closed, the PH value sensor, the oxygen content sensor, the temperature sensor and the turbidity sensor are used for respectively carrying out PH value detection, oxygen content detection, water temperature detection and turbidity detection on the water in the PH value detection chamber, the oxygen content detection chamber, the temperature detection and the turbidity detection, and detection data are transmitted to the remote control device through the 4.5G wireless network communication module for an operator to watch records, the device is characterized in that a part of data is stored in a storage module in the industrial personal computer, and the data is transmitted to the on-line through a 4.5G wireless network communication module, so that on-line monitoring of various data of pond water is realized, on-line software data analysis, copying and storage are facilitated, and the device can sample and detect water at any position of a fish pond through the movement of a ship body;

the feed is added into the feed box through the feed hopper, the industrial personal computer controls the vibration motor, the electric butterfly valve and the material throwing disc driving motor to be opened in the running process of the ship body, the vibration force generated by the vibration motor drives the feed box to vibrate in the vertical direction under the matching of the telescopic sleeve, the telescopic rod and the spring, the feed in the feed box is driven to sieve in the vertical direction, and the feed is sieved, so that the feed is prevented from being caked and difficult to discharge, the feed with overlarge particles can be separated through the screen, and the feed safety of fishes is prevented from being influenced by the overlarge feed put into water;

the feed with the up-to-standard particle size falls on the plate body of the material throwing plate through the corrugated pipe and the electric butterfly valve through the sieve pores of the screen, the material throwing plate is driven by the material throwing plate driving motor to rotate at a high speed, the feed on the plate body is thrown to a ship through the material throwing port on the material throwing bin by utilizing centrifugal force, the throwing face is a sector face, the throwing effect is uniform, the width of the throwing face is large, the whole position of the fishpond can be covered by feeding along with the reciprocating advance of the ship body in the fishpond, the distribution uniformity of the fish school is improved, and the fish feeding effect can be effectively improved.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

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

FIG. 2 is a schematic top cross-sectional view of the present invention;

FIG. 3 is a schematic sectional top view of the power cell of the present invention;

FIG. 4 is a schematic right sectional view of the anti-clogging feed scattering and feeding device of the present invention;

FIG. 5 is a left side sectional view of the sampling inspection device according to the present invention;

FIG. 6 is a right sectional view of the sampling inspection device according to the present invention;

FIG. 7 is a schematic view of the structure of the throwing disk of the present invention;

FIG. 8 is an enlarged view of part A of the present invention;

FIG. 9 is an enlarged view of the part B of the present invention;

FIG. 10 is an enlarged view of the part C of the present invention;

in the figure: 1. a hull; 2. a cabin; 3. a solar photovoltaic panel; 4. a diesel generator; 5. a power chamber; 6. a storage battery; 7. a drive motor; 8. a propeller; 9. the anti-blocking feed scattering and feeding device; 10. A data monitoring processing and control room; 11. an industrial personal computer; 12. 4.5G wireless network communication module; 13. a transmit-receive antenna; 14. an oxygenation pump; 15. a feed bin; 16. a feed hopper; 17. a vibration motor; 18. screening a screen; 19. a discharge gate; 20. a bellows; 21. an electric butterfly valve; 22. a telescopic sleeve; 23. a telescopic rod; 24. a spring fixing plate; 25. a spring; 26. a support frame; 27. throwing a bin; 28. a material throwing port; 29. a rotating shaft; 30. a material throwing disc driving motor; 31. a tray body; 32. a partition plate; 33. a sampling detection device body; 34. a PH value detection chamber; 35. an oxygen content detection chamber; 36. a temperature monitoring chamber; 37. a turbidity detection chamber; 38. a pH value sensor; 39. an oxygen content sensor; 40. a temperature sensor; 41. a turbidity sensor; 42. a liquid level sensor; 43. a shunt tube; 44. a first solenoid valve; 45. sampling a water pump; 46. a waste liquid drainage confluence pipe; 47. a second solenoid valve; 48. a hose.

Detailed Description

Referring to fig. 1-10, the present invention provides the following technical solutions: an intelligent fishpond management ship comprises a ship body 1, wherein a cabin 2 is arranged inside the ship body 1, a solar photovoltaic panel 3 and a diesel generator 4 are fixedly installed on the inner bottom wall of the cabin 2, a power chamber 5 is arranged inside the ship body 1, a storage battery 6 and a left driving motor and a right driving motor 7 are fixedly installed in the inner cavity of the power chamber 5, output shafts of the two driving motors 7 are fixedly connected with a propeller 8, an anti-blocking feed scattering and feeding device 9 is fixedly installed on the inner bottom wall of the cabin 2 and the top of the power chamber 5 together, a data monitoring processing and control room 10 is fixedly installed on the inner bottom wall of the cabin 2, a data monitoring processing and control room 11 and a sampling detection device are fixedly installed in the inner cavity of the data monitoring processing and control room 10, a 4.5G wireless network communication module 12 is arranged inside the industrial personal computer 11, and a receiving and transmitting antenna 13 is fixedly installed on the top of the data monitoring processing and control room 10, an oxygenation pump 14 is also fixedly arranged on the inner bottom wall of the cabin 2.

The anti-blocking feed scattering and feeding device 9 comprises two groups, and comprises telescopic modules fixedly mounted on the inner bottom wall of the cabin 2, wherein a feed box 15 is fixedly mounted at the top of each telescopic module, a feed hopper 16 is fixedly connected to the top of each feed box 15, a vibration motor 17 is fixedly mounted at the bottom of each feed box 15, a screen 18 is fixedly mounted in an inner cavity of each feed box 15, the right side wall of each feed box 15 is communicated and hinged with a discharge door 19, a corrugated pipe 20 is fixedly connected to the bottom of each feed box 15, the bottom of each corrugated pipe 20 is fixedly connected with an electric butterfly valve 21, and the bottom of each electric butterfly valve 21 is fixedly connected with the scattering module; add the fodder to feedbox 15 through feeder hopper 16, in the hull driving process, industrial computer 11 control vibrating motor 17, electric butterfly valve 21, throwing charging tray driving motor 30 opens, vibrating force that vibrating motor 17 produced drives feedbox 15 at telescopic tube 22, telescopic rod 23 and spring 25's cooperation is carried out the vibration of direction from top to bottom, the fodder that drives in feedbox 15 carries out the sieve of direction from top to bottom moves, sieve the fodder, carry out the separation with the too big fodder of granule through screen cloth 18, and the fodder that the granule size is up to standard then drops on the disk body 31 of throwing the charging tray through bellows 20 and electric butterfly valve 21 through the sieve mesh of screen cloth 18, avoid the too big fodder of granule to put into the aquatic and influence the food safety of fish.

The telescopic module comprises a telescopic sleeve 22, a telescopic rod 23 is inserted into an inner cavity of the telescopic sleeve 22, spring fixing plates 24 are fixedly arranged on the outer side of the telescopic sleeve 22 and the outer side of the telescopic rod 23, and a spring 25 is fixedly connected between the upper spring fixing plate 24 and the lower spring fixing plate 24; when the vibration motor 17 drives the feedbox 15 to vibrate up and down, the telescopic rod 23 and the telescopic tube 22 are extended and contracted by the vibration force, and the amount of the extension and contraction motion is kept within a certain range by the elastic force of the spring 25.

The throwing module comprises a supporting frame 26 fixedly installed at the top of the power chamber 5, a throwing bin 27 is fixedly installed at the top of the supporting frame 26, a throwing port 28 penetrates through the right side of the throwing bin 27, a rotating shaft 29 is rotatably installed between the inner top wall and the inner bottom wall of the throwing bin 27 through a bearing, a throwing disc is installed on the outer side of the rotating shaft 29 in a sleeved mode, a throwing disc driving motor 30 is fixedly installed at the bottom of the throwing bin 27, and an output shaft of the throwing disc driving motor 30 is fixedly connected with the rotating shaft 28; the throwing disc is driven by a throwing disc driving motor 30 to rotate at a high speed, feed on the disc body 31 is thrown to a ship through the throwing port 28 on the throwing bin 27 by utilizing centrifugal force, the throwing surface is a sector surface, the throwing effect is uniform, and the width of the throwing surface is large.

The throwing disc comprises a disc body 31, and a plurality of partition plates 32 are integrally formed at the top of the disc body 31; the partition plate 32 is used for driving the feed on the disc body 31 to rotate when the disc body 31 rotates at a high speed, so that the feed can obtain sufficient acceleration before being thrown out.

The sampling detection device comprises a sampling detection device body 33, a PH value detection chamber 34, an oxygen content detection chamber 35, a temperature monitoring chamber 36 and a turbidity detection chamber 37 are fixedly installed in an inner cavity of the sampling detection device body 33, the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the inner cavity of the turbidity detection chamber 37 are respectively and fixedly provided with a PH value sensor 38, an oxygen content sensor 39, a temperature sensor 40 and a turbidity sensor 41, the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the inner cavity of the turbidity detection chamber 37 are respectively provided with a liquid level sensor 42, the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the bottom of the turbidity detection chamber 37 are fixedly connected with an oxygen content shunt pipe 43, and a first electromagnetic valve 44 is installed on the shunt pipe 43, the bottom of the shunt tube 43 is fixedly connected with a sampling water pump 45, the bottoms of the PH detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37 are also fixedly connected with a waste liquid drainage confluence tube 46, and a second electromagnetic valve 47 is fixedly installed on the waste liquid drainage confluence tube 46; when the ship body moves to a sampling water area, an instruction is given to the industrial personal computer 11 to enable the industrial personal computer 11 to control the first electromagnetic valve 44 to be opened and control the sampling water pump 45 to operate, the sampling water pump 45 pumps pond water into the shunt pipe 43 and uniformly inputs the pond water into the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37, when the water levels in the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37 reach the liquid level sensor 42 to sense the water level, the industrial personal computer 11 automatically controls the first electromagnetic valve 44 and the sampling water pump 45 to be closed, and the PH value sensor 38, the oxygen content sensor 39, the temperature sensor 40 and the turbidity sensor 41 are utilized to respectively carry out PH value detection, oxygen content detection, water temperature detection and turbidity detection on the water in the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37, after the primary detection is finished, the second electromagnetic valve 47 is opened, and the wastewater in the pH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37 can be discharged back to the pond through the waste liquid drainage confluence pipe 46.

The number of the oxygenation pumps 14 is two, and the oxygenation pumps are respectively connected with a hose 48, and the two hoses 48 are respectively bound on the front side and the rear side of the ship body 1 and extend below a waterline; when the oxygen content in the water in the fishpond is detected to be insufficient, the oxygenation pump 14 can be started, and the oxygenation pump 14 and the hose 48 extending into the water are utilized to carry out oxygenation operation on the water body.

The industrial personal computer 11 is in communication connection with the remote control device through the 4.5G wireless network communication module 12.

The working principle and the using process of the utility model are as follows: the device supplies power through the storage battery 6, supplies power to the storage battery 6 through two power generation modes of the solar photovoltaic panel power generation 3 and the diesel generator 4, when the sunlight is sufficient and the power generation amount of the solar photovoltaic panel 3 is enough to supply to the storage battery 6, the diesel generator 4 does not work, when the power generation amount of the solar photovoltaic panel 3 is not enough to supply to the storage battery 6, the diesel generator 4 starts to work, and achieves the effects of energy conservation and emission reduction in class to a certain extent, the device transmits a control instruction to the industrial personal computer 11 through a remote control device by using a wireless network, controls all parts on the ship body 1 to work by using the execution instruction of the industrial personal computer 11, drives the propeller 8 to rotate at high speed by using the driving motor 7 to propel the ship, can simultaneously perform two works of water quality detection and fish food feeding, when the ship body moves to a sampling water area, sends an instruction to the industrial personal computer 11 to enable the industrial personal computer 11 to control the first electromagnetic valve 44 to be opened, and controlling the sampling water pump 45 to operate, the sampling water pump 45 pumps pond water into the shunt pipe 43, and the pond water is uniformly input into the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37, when the water levels in the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37 reach the liquid level sensor 42 to sense the water level, the industrial personal computer 11 automatically controls the first electromagnetic valve 44 and the sampling water pump 45 to close, the PH value sensor 38, the oxygen content sensor 39, the temperature sensor 40 and the turbidity sensor 41 are used for respectively carrying out PH value detection, oxygen content detection, water temperature detection and turbidity detection on the water in the PH value detection chamber 34, the oxygen content detection chamber 35, the temperature monitoring chamber 36 and the turbidity detection chamber 37, the detection data are transmitted to the remote control device through the 4.5G wireless network communication module 12 for an operator to watch and record, and storing a piece of data in a storage module in an industrial personal computer 11, transmitting the data to the on-line through a 4.5G wireless network communication module 12, realizing on-line monitoring of various data of pond water, facilitating on-line software data analysis, copying and storage, after one-time detection is finished, opening a second electromagnetic valve 47, discharging the wastewater in a PH value detection chamber 34, an oxygen content detection chamber 35, a temperature monitoring chamber 36 and a turbidity detection chamber 37 to the pond through a waste liquid drainage confluence pipe 46, adding feed into a feed box 15 through a feed hopper 16, controlling a vibration motor 17, an electric butterfly valve 21 and a feed throwing disk driving motor 30 to be opened by the industrial personal computer 11 during the driving of a ship body, driving the feed box 15 to vibrate in the up-and-down direction under the cooperation of a telescopic sleeve 22, a telescopic rod 23 and a spring 25 by the vibration force generated by the vibration motor 17, driving the feed in the feed box 15 to sieve in the up-and-down direction, the feed is screened, the feed with overlarge particles is blocked by the screen 18, the feed with the particles reaching the standard falls on the plate body 31 of the throwing plate through the sieve pores of the screen 18 by the corrugated pipe 20 and the electric butterfly valve 21, the throwing plate is driven by the throwing plate driving motor 30 to rotate at high speed, the feed on the plate body 31 is thrown to a ship through the throwing port 28 on the throwing bin 27 by utilizing centrifugal force, the throwing surface is a sector surface, the throwing effect is uniform, the width of the throwing surface is large, the whole position of a fishpond can be covered along with the reciprocating advance of the ship body 1 in the fishpond, the fish food feeding efficiency can be effectively improved, the fish school distribution uniformity is improved, after the feeding is finished, the discharge door 19 is opened, the feed with larger particles blocked by the screen 18 can be discharged for treatment, and when the oxygen content in water of the fishpond is detected to be insufficient, the oxygenation pump 14 can be opened, the water body is oxygenated by the oxygenation pump 14 and the hose 48 which extends into the water.

Claims

1. The utility model provides an intelligence pond management ship which characterized in that: comprises a ship body, wherein a cabin is arranged in the ship body, a solar photovoltaic panel and a diesel generator are fixedly arranged on the inner bottom wall of the cabin, a power chamber is arranged in the hull, a storage battery and a left driving motor and a right driving motor are fixedly arranged in an inner cavity of the power chamber, output shafts of the two driving motors are fixedly connected with a propeller, the inner bottom wall of the cabin and the top of the power chamber are fixedly provided with an anti-blocking feed scattering and feeding device, a data monitoring processing and control room is fixedly arranged on the inner bottom wall of the cabin, an industrial personal computer and a sampling detection device are fixedly arranged in the inner cavity of the data monitoring processing and control room, the inside of industrial computer is equipped with 4.5G wireless network communication module, the top fixed mounting of data monitoring processing and control room has receiving and dispatching antenna, the interior diapire of cabin still fixed mounting have the oxygenation pump.

2. The intelligent pond management ship of claim 1, wherein: prevent blockking up the fodder and shed and throw feeding device and be equipped with two sets ofly altogether, including fixed mounting flexible module on the cabin interior diapire, the top fixed mounting of flexible module has the feedbox, the top fixedly connected with feeder hopper of feedbox, the bottom fixed mounting of feedbox has vibrating motor, fixed mounting has the screen cloth in the inner chamber of feedbox, the right side wall of feedbox link up and articulate has the bin gate, the bottom fixedly connected with bellows of feedbox, the bottom and the electric butterfly valve fixed connection of bellows, electric butterfly valve's bottom and the module fixed connection that spills.

3. The intelligent pond management ship of claim 2, wherein: the telescopic module comprises a telescopic sleeve, a telescopic rod is inserted into an inner cavity of the telescopic sleeve, spring fixing plates are fixedly mounted on the outer side of the telescopic sleeve and the outer side of the telescopic rod, and a spring is fixedly connected between the upper spring fixing plate and the lower spring fixing plate.

4. The intelligent pond management ship of claim 2, wherein: the module of shedding includes fixed mounting and is in the support frame at power house top, the top fixed mounting of support frame has the throwing feed bin, the right side of throwing the feed bin is link up there is the throwing material mouth, it has the pivot to rotate the ann through the bearing between interior roof and the interior diapire of feed bin to throw, the outside of pivot is cup jointed and is installed the throwing charging tray, the bottom fixed mounting who throws the feed bin has throwing charging tray driving motor, throwing charging tray driving motor's output shaft and pivot fixed connection.

5. The intelligent pond management ship of claim 4, wherein: the material throwing disc comprises a disc body, and a plurality of partition plates are integrally formed at the top of the disc body.

6. The intelligent pond management ship of claim 1, wherein: sample detection device includes the sample detection device body, fixed mounting has PH value to detect room, oxygen content detection room, temperature monitoring room and turbidity detection room in the inner chamber of sample detection device body, the PH value detect the room the oxygen content detects the room the temperature monitoring room with respectively fixed mounting have PH value sensor, oxygen content sensor, temperature sensor and turbidity sensor in the inner chamber of turbidity detection room, just the PH value detect the room the oxygen content detects the room the temperature monitoring room with all install level sensor in the inner chamber of turbidity detection room, the PH value detects the room the oxygen content detects the room the temperature monitoring room with the bottom and the shunt tubes fixed connection of turbidity detection room, install first solenoid valve on the shunt tubes, the bottom and the sampling water pump fixed connection of shunt tubes, PH value detection room, the bottom of the oxygen content detection chamber, the bottom of the temperature monitoring chamber and the bottom of the turbidity detection chamber are also fixedly connected with a waste liquid drainage confluence pipe, and a second electromagnetic valve is fixedly installed on the waste liquid drainage confluence pipe.

7. The intelligent pond management ship of claim 1, wherein: the number of the oxygenation pumps is two, the oxygenation pumps are respectively connected with a hose, and the two hoses are respectively bound on the front side and the rear side of the ship body and extend into the position below the waterline.

8. The intelligent pond management ship of claim 1, wherein: the industrial personal computer is in communication connection with the remote control device through the 4.5G wireless network communication module.