CN113598111A

CN113598111A - Intelligent feeding device for marine fish culture

Info

Publication number: CN113598111A
Application number: CN202111022026.2A
Authority: CN
Inventors: 蔡有森; 蔡建顺; 蔡春有; 黄春仁; 赵广文; 蔡四川; 蔡建和; 蔡金泉; 蔡惠明; 蔡智怀; 王景宝; 蔡艺新; 陈猛猛; 刘赐福; 陈艺斌
Original assignee: Lingshui Chenhai Seed Industry Co ltd
Current assignee: Lingshui Chenhai Seed Industry Co ltd
Priority date: 2021-09-01
Filing date: 2021-09-01
Publication date: 2021-11-05

Abstract

The invention provides an intelligent feeding device for marine fish culture, which comprises a floating body, a storage box, an air pushing assembly, a telescopic feeding assembly and a control unit, wherein the storage box is fixed on the floating body, the output end of the storage box is communicated with the air pushing assembly, the telescopic feeding assembly is fixed at the bottom of the floating body, the output end of the air pushing assembly is communicated with the telescopic feeding assembly, the air pushing assembly is used for dispersing and accelerating feed to be rapidly pushed out of the telescopic feeding assembly, a propeller used for propelling and adjusting the direction of the floating body is fixed at the bottom of one side of the floating body, and the control unit is in signal connection with the controlled ends of the air pushing assembly, the telescopic feeding assembly and the propeller. According to the invention, the telescopic feeding assembly can be adjusted to stretch to different water depths to feed according to the living water depth of the marine fishes, the air pushing assembly can accelerate the feeding speed, shorten the floating time of the feed, avoid the dissipation of the feed in water, and realize the purpose of accelerating the feeding of the feed and simultaneously improving the oxygen content in water.

Description

Intelligent feeding device for marine fish culture

Technical Field

The invention relates to the technical field of cultured fish feeding equipment, in particular to an intelligent feeding device for marine fish culture.

Background

When the fishes are cultivated, food needs to be put in at regular time and aeration is carried out on the cultivation area in time so as to ensure the growth efficiency of the seawater fishes and improve the oxygen content of the cultivation water area, moreover, because the culture area is generally larger, the manual feeding of food takes long time and has large difficulty coefficient, and the feed feeding and the aeration are separately finished, so that the breeding process is complicated, the feed of the existing feeding device is generally thrown on the water surface, different marine fishes have different depths in water, when the feed is thrown, the feed diffuses and sinks downwards from the self weight of the feed, and the sinking speed of the feed is slower due to the resistance of water, in the process, the feed is easy to dissipate in water, is not beneficial to feeding fishes living in deep water areas, and the dissipated feed can cause pollution to the water area, so that the feeding effect cannot be well achieved, and the water resource quality of the culture water area is also influenced.

For example, a fish feed particle spraying device with the patent number of CN201721868615.1 discloses a fish feed particle spraying device comprising a bin for containing fish feed particles, wherein the bin is connected with a distribution device at the lower end through a conveying pipe, a conveying auger with adjustable rotating speed is arranged in the conveying pipe, the distribution device comprises a plurality of distribution pipelines, the distribution pipelines are communicated with a plurality of scattering disks below the distribution device, the disk surfaces of the scattering disks are horizontally arranged, the scattering disks are sequentially arranged along the vertical direction, the center of each scattering disk is provided with a rotating shaft perpendicular to the disk surface, the rotating shaft is connected with a centrifugal motor, a material storage cavity in a hollow structure is arranged in each scattering disk, a plurality of scattering holes are uniformly distributed at the edge of each scattering disk, and the scattering holes are communicated with the material storage cavity; the spraying device is fixedly connected to the buoyancy tank, the electric spiral propeller is arranged on the side face of the buoyancy tank, and the buoyancy tank is further connected with a fixed anchor line. This application function singleness only realizes that the fodder is thrown something and feed, and can not throw the material device according to the degree of depth regulation of marine fish in aqueous, causes the fodder to throw something and feeds the effect not good.

Disclosure of Invention

Therefore, the invention provides an intelligent feeding device for marine fish culture, which can adjust the telescopic feeding component to stretch to different water depths to feed according to the living water depth of marine fish, and the air pushing component can accelerate the feeding speed, so that the feeding speed is accelerated, and the oxygen content in water is improved while the feeding speed is accelerated.

The technical scheme of the invention is realized as follows:

the utility model provides a marine fish breeds with intelligent feeding device, throws material subassembly and the control unit including body, storage case, air propelling movement subassembly, concertina type, the storage case is fixed in on the body, the output intercommunication of storage case has the air propelling movement subassembly, the body is equipped with logical groove, the input that the subassembly was thrown to the concertina type passes logical groove is fixed in the bottom of body, the output of air propelling movement subassembly with the subassembly intercommunication is thrown to the concertina type, the air propelling movement subassembly is used for the dispersion and promotes the fodder and release fast the subassembly is thrown to the concertina type, one side bottom of body is fixed with and is used for propelling and adjusting the propeller of body direction, the control unit with the controlled end signal connection of subassembly, concertina type throw material subassembly and propeller is thrown.

Preferably, the telescopic pushing assembly comprises a telescopic sleeve, a counterweight dog-house and a furling assembly, two ends of the telescopic sleeve are respectively communicated with the air pushing assembly and the counterweight dog-house, the furling assembly is fixed at the bottom of the floating body and is used for driving the telescopic sleeve to contract.

Preferably, the counterweight feeding port is provided with a protective layer.

Preferably, the furling assembly comprises a motor, a set of furling drum and two sets of furling ropes, an output shaft of the motor is connected with a set of transmission shaft through a first bevel gear set, and an output end of the transmission shaft is driven by a second bevel gear set to furl the furling drum furling the set of furling ropes.

Preferably, the bottom of body is equipped with the holding tank, the subassembly can be accomodate in the holding tank is thrown to the concertina type.

Preferably, the air pushing assembly comprises a pushing cavity, a feed dispersing hopper, an air deflector and a fan, the output end of the fan is communicated with the air deflector, the output end of the storage box is communicated with the feed dispersing hopper, the output ends of the air deflector and the feed dispersing hopper are communicated with the pushing cavity, and the output end of the pushing cavity is communicated with the telescopic feeding assembly.

Preferably, the feed dispersing hopper comprises a material guide pipe and a bulk material cover, the material guide pipe is respectively communicated with the material storage box and the propelling cavity, and the bulk material cover connected to the inner output end of the material guide pipe is used for uniformly dispersing materials in the propelling cavity.

Preferably, a cavity is arranged inside the air deflector, and the air deflector is provided with a plurality of air guide holes for communicating the cavity with the propulsion cavity.

Preferably, the control unit comprises a timer and a controller, the timer is in signal connection with the controller, and the controller is in signal connection with the controlled ends of the air pushing assembly, the telescopic feeding assembly and the propeller.

Preferably, the output end of the material storage box is provided with an electric control valve, and the controller is in signal connection with the electric control valve.

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

the intelligent feeding device for marine fish culture provided by the invention can control and adjust the telescopic feeding component to stretch according to the living water depth of the marine fish through the control unit, so that the telescopic feeding component extends to the living water depth area of the marine fish to feed, and is matched with the air pushing component for use, when the feed is output by the storage box, the feed can be uniformly dispersed, the air pushing component accelerates the feed feeding speed, the floating time of the feed in water is shortened, the feed is prevented from dissipating in water to cause feed waste, the oxygen content in water is increased while the feed feeding is accelerated, and the efficiency of the marine fish culture is increased; and the feed can be put in at regular time through the control of the control unit.

Drawings

FIG. 1 is a schematic sectional view of an intelligent feeding device for marine fish culture according to the present invention;

FIG. 2 is an enlarged schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic side view of the intelligent feeding device for marine fish culture according to the present invention;

FIG. 4 is a schematic top view of the retraction assembly of the present invention;

FIG. 5 is a schematic cross-sectional view of the feed dispersing hopper of the present invention;

FIG. 6 is a schematic circuit connection diagram of an intelligent feeding device for marine fish culture according to the present invention;

in the figure, 1 float, 2 storage bin, 3 air pushing component, 4 pushing cavity, 5 feed dispersing hopper, 6 guide pipe, 7 bulk material cover, 8 air deflector, 9 cavity, 10 air guide hole, 11 blower, 12 telescopic feeding component, 13 telescopic sleeve, 14 counterweight feeding port, 15 protective layer, 16 furling component, 17 motor, 18 furling drum, 19 furling rope, 20 first bevel gear set, 21 transmission shaft, 22 second bevel gear set, 23 control unit, 24 timer, 25 controller, 26 through groove, 27 propeller, 28 holding groove, 29 electric control valve.

Detailed Description

In order to better understand the technical content of the invention, specific embodiments are provided below, and the invention is further described with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 6, the intelligent feeding device for marine fish culture provided by the invention comprises a floating body 1, a storage tank 2, an air pushing assembly 3, a telescopic feeding assembly 12 and a control unit 23, wherein the storage tank 2 is fixed on the floating body 1 to play a role of fixing the storage tank 2, the storage tank 2 is fixed in the middle of a floating platform to play a stabilizing role, the output end of the storage tank 2 is communicated with the air pushing assembly 3 to uniformly disperse feed and push the feed out through air pressurization to shorten the time for the feed to float in water, the floating body 1 is provided with a through groove 26, the input end of the telescopic feeding assembly 12 passes through the through groove 26 to be fixed at the bottom of the floating body 1 to play a role of holding and fixing, the output end of the air pushing assembly 3 is communicated with the telescopic feeding assembly 12, the air pushing assembly 3 is used for dispersing and accelerating the feed to quickly push out the telescopic feeding assembly 12, the bottom of one side of the floating body 1 is fixed with a propeller 27 for propelling and adjusting the direction of the floating body 1, the propeller 27 is the existing equipment, which is not described herein any more, the control unit 23 is in signal connection with the controlled ends of the air propelling component 3, the telescopic feeding component 12 and the propeller 27, and intelligent feeding of feed can be realized within a set time.

The working principle is as follows: when the device is used, the control unit 23 controls and starts the air pushing assembly 3, the telescopic feeding assembly 12 and the propeller 27 according to the living depth of the marine fishes in water, the telescopic feeding assembly 12 extends downwards to a corresponding depth, the propeller 27 drives the floating body 1 to sail in the water, feed in the storage box 2 enters the air pushing assembly 3, the air pushing assembly 3 disperses the feed, the feed is accelerated to be pushed out through the telescopic feeding assembly 12, the time of the feed drifting in the water is shortened, the feed is effectively prevented from being dispersed in the water, the feeding efficiency of the feed is improved, the air pushing assembly 3 accelerates the feed to be pushed out, oxygen carried in the air can improve the oxygen content in the water, and the metabolism of microorganisms in the water is promoted.

Specifically, the telescopic pushing assembly comprises a telescopic sleeve 13, a counterweight dog-house 14 and a furling assembly 16, two ends of the telescopic sleeve 13 are respectively communicated with the air pushing assembly and the counterweight dog-house 14, the furling assembly 16 is fixed at the bottom of the floating body 1, and the furling assembly 16 is used for driving the telescopic sleeve 13 to contract. According to the life of sea fish

Specifically, the counterweight feeding port 14 is provided with a protective layer 15. Prevent the seawater fish from entering the telescopic tube 13 through the counterweight feeding port 14.

Specifically, the furling assembly 16 comprises a motor 17, a set of furling drums 18 and two sets of furling ropes 19, an output shaft of the motor 17 is connected with a set of transmission shaft 21 through a first bevel gear set 20, and an output end of the transmission shaft 21 drives the furling drums 18 to furl a set of furling ropes 19 through a second bevel gear set 22. The motor 17 is started, the motor 17 drives the furling drum 18 to release or furl through the matching of the first bevel gear set 20, the conveying shaft 21 and the second bevel gear set 22, and the depth of the telescopic type pushing assembly feed put in the culture water collection is adjusted.

Specifically, the bottom of the floating body 1 is provided with a receiving groove 28, and the telescopic feeding assembly 12 can be received in the receiving groove 28. The retractable feeding component 12 is convenient to store, and the occupied space is reduced.

Example 2

Referring to fig. 1 to 5, the present embodiment differs from embodiment 1 in that: the air pushing assembly 3 comprises a pushing cavity 4, a feed dispersing hopper 5, an air deflector 8 and a fan 11, the output end of the fan 11 is communicated with the air deflector 8, the output end of the storage box 2 is communicated with the feed dispersing hopper 5, the output ends of the air deflector 8 and the feed dispersing hopper 5 are communicated with the pushing cavity 4, and the output end of the pushing cavity 4 is communicated with the telescopic feeding assembly 12. Starting fan 11, fan 11 evenly gets into the propulsion chamber 4 with the air through aviation baffle 8 in, the air is pushing forward the fodder of 5 outputs of fodder dispersion fill along the telescopic type in chamber 4 and is thrown the material subassembly 12 and push out with higher speed, and the fodder bulk cargo is in breeding the water territory, and the air admission breeds the oxygen content that the waters can improve the aquatic, promotes the metabolism, improves marine fish breeding efficiency.

Specifically, the feed dispersing hopper 5 comprises a material guide pipe 6 and a material dispersing cover 7, wherein the material guide pipe 6 is respectively communicated with the material storage box 2 and the propelling cavity 4, and the material dispersing cover 7 connected to the output end inside the material guide pipe 6 is used for uniformly dispersing materials into the propelling cavity 4. The fodder is guided into on the bulk cargo cover 7 through the passage 6, when the fodder exports along bulk cargo cover 7, plays the effect of dispersed fodder.

Specifically, a cavity 9 is arranged inside the air deflector 8, and the air deflector 8 is provided with a plurality of air guide holes 10 communicating the cavity 9 with the propulsion chamber 4. The air guide can be realized, and the air uniformly enters the propelling cavity 4 through the air guide holes 10.

Example 3

Referring to fig. 1 to 6, the present embodiment differs from embodiment 1 in that: the control unit 23 comprises a timer 24 and a controller 25, the timer 24 is in signal connection with the controller 25, and the controller 25 is in signal connection with the controlled ends of the air pushing assembly 3, the telescopic feeding assembly 12 and the propeller 27. The timer 24 can set feeding time, the controller 25 controls the controlled ends of the air pushing assembly 3, the telescopic feeding assembly 12 and the propeller 27 according to a time signal of the timer 24, the air pushing assembly 3, the telescopic feeding assembly 12 and the propeller 27 are started to work, intelligent feeding is achieved, and the model of the controller 25 can be AT89s 51.

Specifically, the output end of the storage tank 2 is provided with an electric control valve 29, and the controller 25 is in signal connection with the electric control valve 29. The controller 25 can control the electric control valve 29 to open within a set time, so as to realize blanking.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a sea water fish is bred with intelligence device of throwing something and feeding which characterized in that: including body, storage case, air propelling movement subassembly, concertina type throw material subassembly and the control unit, the storage case is fixed in on the body, the output intercommunication of storage case has the air propelling movement subassembly, the body is equipped with logical groove, the input that the subassembly was thrown to the concertina type passes logical groove is fixed in the bottom of body, the output of air propelling movement subassembly with the subassembly intercommunication is thrown to the concertina type, the air propelling movement subassembly is used for the dispersion and promotes the fodder and release fast the subassembly is thrown to the concertina type, one side bottom of body is fixed with and is used for impeling and adjusting the propeller of body direction, the control unit with the controlled end signal connection of subassembly, concertina type throw material subassembly and propeller is thrown.

2. The intelligent feeding device for marine fish culture as claimed in claim 1, wherein: the telescopic pushing assembly comprises a telescopic sleeve, a counterweight feed port and a furling assembly, two ends of the telescopic sleeve are respectively communicated with the air pushing assembly and the counterweight feed port, the furling assembly is fixed at the bottom of the floating body and is used for driving the telescopic sleeve to contract.

3. The intelligent feeding device for marine fish culture as claimed in claim 2, wherein: the counterweight feeding port is provided with a protective layer.

4. The intelligent feeding device for marine fish culture as claimed in claim 2, wherein: the winding assembly comprises a motor, a set of winding drum and two sets of winding ropes, an output shaft of the motor is connected with a set of conveying shaft through a first bevel gear set, and an output end of the conveying shaft is driven through a second bevel gear set to wind the winding drum into a set of winding ropes.

5. The intelligent feeding device for marine fish culture as claimed in claim 1, wherein: the bottom of body is equipped with the holding tank, the subassembly can be accomodate in to the concertina type is thrown in the holding tank.

6. The intelligent feeding device for marine fish culture as claimed in claim 1, wherein: the air pushing assembly comprises a pushing cavity, a feed dispersing hopper, an air deflector and a fan, the output end of the fan is communicated with the air deflector, the output end of the storage box is communicated with the feed dispersing hopper, the output end of the air deflector and the output end of the feed dispersing hopper are both communicated with the pushing cavity, and the output end of the pushing cavity is communicated with the telescopic feeding assembly.

7. The intelligent feeding device for marine fish culture as claimed in claim 6, wherein: the feed dispersing hopper comprises a material guide pipe and a bulk material cover, the material guide pipe is respectively communicated with the material storage box and the propelling cavity, and the bulk material cover connected to the inner output end of the material guide pipe is used for uniformly dispersing materials in the propelling cavity.

8. The intelligent feeding device for marine fish culture as claimed in claim 6, wherein: the air deflector is characterized in that a cavity is arranged inside the air deflector, and a plurality of air guide holes communicated with the cavity and the propulsion cavity are formed in the air deflector.

9. The intelligent feeding device for marine fish culture as claimed in claim 1, wherein: the control unit comprises a timer and a controller, the timer is in signal connection with the controller, and the controller is in signal connection with the controlled ends of the air pushing assembly, the telescopic feeding assembly and the propeller.

10. The intelligent feeding device for marine fish culture of claim 9, wherein: the output end of the material storage box is provided with an electric control valve, and the controller is in signal connection with the electric control valve.