CN118020694A - Automatic feeding device for sea intestine culture - Google Patents

Abstract

The invention relates to the technical field of sea intestine feeding, and particularly discloses an automatic feeding device for sea intestine breeding, which comprises a feeding pond, wherein a feed bucket is arranged above the feeding pond, a blanking rod is arranged along the width direction of the feeding pond, the lower end of the blanking rod is provided with a blanking opening, a stirring blade is arranged on one side of the blanking rod and can synchronously move along with the blanking rod, a cleaning assembly comprises four cleaning discs, each cleaning disc is arranged on one side of the blanking rod far away from the stirring blade and can synchronously move along with the blanking rod, each cleaning disc is provided with four cleaning openings, the lower end of each cleaning disc is provided with a first baffle plate and a second baffle plate, the inner rotation of each cleaning disc is provided with a filter plate, the lower end of each filter plate is provided with a scraping plate, and the upper part of each cleaning disc is provided with a water absorbing part and a flushing part; the invention can uniformly distribute the feed in the feeding pool, reduce the sinking speed of the feed, improve the utilization rate of the feed, and collect excrement in the feeding pool through the cleaning component.

Description

Automatic feeding device for sea intestine culture

Technical Field

The invention relates to the technical field of sea intestine feeding, in particular to an automatic feeding device for sea intestine cultivation.

Background

The sea intestine is an invertebrate, belongs to urechis unicinctus of urechidaceae of urechis of urechidaceae, has fresh meat flavor, is rich in protein and various essential amino acids of human body, has higher nutritive value, but the wild resources of the sea intestine are about to be exhausted at present, and development of artificial culture is urgent.

When the feed is fed to the sea intestines, the powder feed is easy to sink to the water bottom after being fed into the water, but the sea intestines are provided with filter feeding, nutrition is mainly obtained by filtering tiny food particles in the water, and the sinking feed cannot be ingested, so that the sea intestines cannot eat normally, normal feeding of the sea intestines is influenced, the utilization rate of the feed can be reduced, waste is caused, in addition, excrement of the sea intestines can be released into the water in the sea intestines feeding process, water pollution can be caused if the excrement is not cleaned timely, and the health of the sea intestines is influenced.

Disclosure of Invention

The invention provides an automatic feeding device for sea intestine culture, which aims to solve the problems that when feed is fed to sea intestine in the related technology, the feed is easy to sink, normal feeding of sea intestine is affected, the utilization rate of the feed is reduced, and in addition, if excrement of the sea intestine is not cleaned in time, the health of the sea intestine is affected.

The invention relates to an automatic feeding device for sea intestine culture, which comprises the following components:

A feeding pool;

the feed barrel is arranged above the feeding pool, the upper end of the feed barrel is provided with a feed inlet and a water injection inlet, and the lower end of the feed barrel is provided with a discharge outlet;

The blanking rod is arranged along the width direction of the feeding pool, a plurality of blanking openings are formed in the lower end of the blanking rod, and a telescopic blanking pipe is connected between the blanking rod and the discharging opening;

the stirring blade is arranged on one side of the blanking rod and can synchronously move along with the blanking rod;

the cleaning assembly comprises four cleaning discs, the four cleaning discs are arranged on one side, far away from the stirring blade, of the blanking rod and can synchronously move along with the blanking rod, four cleaning ports are formed in each cleaning disc, the cleaning ports are in a quarter circle shape, a first baffle is fixedly arranged at the lower end of each cleaning disc, the first baffle can simultaneously seal the lower ends of three cleaning ports, a second baffle is arranged at the lower end of each cleaning disc in a rotating mode, the lower end of the last cleaning port can be sealed by the second baffle, a filter plate is arranged in each cleaning disc in a rotating mode, a scraping plate is arranged at the lower end of each filter plate, the filter plate is equally divided into four parts, each part is in a quarter circle shape, a water absorbing part and a flushing part are arranged above each cleaning disc, a water absorbing port of the water absorbing part corresponds to the last cleaning port, and a pipeline is connected between a water outlet of the water absorbing part and a water inlet of the flushing part;

the first driving assembly can drive the blanking rod to move along the length direction of the feeding pool;

The second driving assembly can drive the stirring blade to rotate;

And the third driving assembly can drive the filter plate to rotate, and the filter plate can rotate 90 degrees each time.

Preferably, the first fixed block is fixedly arranged on the second baffle, the second fixed block is fixedly arranged on the outer side of the filter plate, and the second fixed block can be contacted with the first fixed block in the process of rotating along with the filter plate and drives the first fixed block to synchronously rotate.

Preferably, the upper end of unloading pole has set firmly the member, be equipped with the slider on the member, first drive assembly includes first motor, first gear and pinion rack, first motor is located on the slider, first gear cover is established on first output shaft of motor, just first gear rotates and locates in the slider, first pinion rack sets firmly in the inside of raising the pond, and the length direction of first pinion rack is unanimous with the length direction of raising the pond, the outside at first pinion rack is established to the slider slip cap, first gear with first pinion rack meshing is connected.

Preferably, the lower extreme of slider is connected with the connecting rod, second drive assembly includes pivot one, first bevel gear and second bevel gear, pivot one is established to a plurality ofly, and a plurality of pivot one all rotate with the connecting rod and are connected, all overlap between two adjacent pivot one and be equipped with the drive belt to make a plurality of pivot one can carry out synchronous rotation, the equal vertical setting of every pivot one, and a plurality of stirring vane correspond respectively and connect the lower extreme in a plurality of pivot one, first bevel gear is connected on the output of motor one, the upper end at one of them pivot one is connected to the second bevel gear, and first bevel gear and second bevel gear meshing are connected.

Preferably, the outside slip cap of pinion rack one is equipped with the slide bar, the slide bar with fixed connection between the slide bar to make the slide bar can carry out synchronous motion along with the slide bar, third drive assembly includes pivot two, gear three and pinion rack two, and pivot two, gear two and pinion rack two all set up to four, and four the filter plate corresponds the cover respectively and establishes in the outside of four pivot two, so that both can carry out synchronous rotation, four gear two corresponds the cover respectively and establishes in the outside of four filter plates, and the meshing of gear two on two adjacent filter plates is connected, gear three rotates and locates in the slide bar, and gear three and pinion rack two can be meshed, and four pinion rack two all is located on the pinion rack one, and along the length direction interval arrangement in proper order of pinion rack one for gear three is along raising the length direction of pond every one fourth stroke, and gear three all can be meshed with pinion rack two, the cover is equipped with the drive belt between gear three and the pivot two to make this two can carry out synchronous rotation along with gear three.

Preferably, the water absorbing member is located above the cleaning port far away from the blanking rod in the four cleaning ports, the flushing member is arranged adjacent to the water absorbing member, the flushing members above the two cleaning discs are located at the same position on the corresponding cleaning disc, the flushing members above the two adjacent cleaning discs are symmetrically arranged, and after the filter plate part below each water absorbing member rotates by 90 degrees, the flushing members can be located below the corresponding flushing member.

Preferably, the feeding tank is slidably provided with a supporting rod, the supporting rod is arranged along the width direction of the feeding tank, the supporting rod is fixedly connected with the sliding rod, so that the supporting rod can synchronously move along with the sliding rod, the supporting rod is hollow, the water outlets of the water absorbing pieces are communicated with the inside of the supporting rod, and a telescopic water pipe is connected between the supporting rod and a water injection port of the feed barrel.

Preferably, the first baffle and the second baffle are both permeable to water.

Preferably, the blanking rod is rotatably provided with a rotating shaft III, a plurality of rotating wheel pieces are arranged on the outer side of the rotating shaft III along the length direction of the rotating shaft III, the rotating wheel pieces are respectively arranged corresponding to a plurality of blanking openings of the blanking rod, and one end of the rotating shaft III is connected with a motor II.

Preferably, the upper end of the feed barrel is provided with a third motor, the feed barrel is internally provided with a stirring roller in a rotating way, and the output end of the third motor stretches into the feed barrel and is connected with the upper end of the stirring roller.

The beneficial effects of the invention are as follows:

1. According to the invention, the first driving component drives the blanking rod to move along the length direction of the feeding pool, so that the feed is uniformly distributed in the feeding pool, the feed dispersing efficiency is improved, and meanwhile, the second driving component drives the stirring blade to rotate, so that the sinking speed of the feed can be reduced, and the feed utilization rate is improved.

2. The invention is provided with the cleaning component, can drive the plurality of cleaning discs to synchronously move in the feeding process, can absorb water in the feeding pool through the water absorbing piece, can absorb excrement in the water at the lower end of the filter plate, can flow into the pipeline after filtering, and can carry out backflushing cleaning on the filter screen through the flushing piece.

3. According to the invention, the excrement in the feeding pond is cleaned through the cleaning disc, the excrement can be respectively collected into the four cleaning openings on the cleaning disc, and the distribution condition of the sea intestines in the feeding pond can be confirmed by observing the excrement in each cleaning opening, so that the baiting amount can be controlled according to the sea intestines distribution conditions at different positions, and the feed feeding accuracy is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of a part of the structure of the present invention.

Fig. 3 is a schematic structural view of the blanking rod, the stirring blade, the first driving assembly and the second driving assembly of the present invention.

Fig. 4 is a schematic view of the structure of the cleaning assembly of the present invention.

Fig. 5 is an enlarged schematic view of the structure of fig. 4a according to the present invention.

Fig. 6 is a schematic view of a portion of the structure of the cleaning assembly of the present invention.

Fig. 7 is a schematic structural view of a first baffle and a second baffle according to the present invention.

Fig. 8 is a schematic view showing an assembled structure of the cleaning tray and the filter sheet of the present invention.

Fig. 9 is a schematic view of the structure of the filter sheet of the present invention.

Fig. 10 is a schematic view of the structure of the blanking bar of the present invention cut in the longitudinal direction.

Fig. 11 is a schematic structural view of the feed barrel of the present invention.

Reference numerals:

1. A feeding pool; 11. a feed barrel; 111. a feed inlet; 112. a water filling port; 12. a blanking rod; 121. a feed opening; 13. a telescopic blanking pipe; 14. stirring blades; 15. a rod piece; 151. a slide block; 152. a connecting rod; 16. a support rod; 17. a telescopic water pipe; 18. a third motor; 19. a stirring roller; 21. a cleaning plate; 211. cleaning the mouth; 22. a first baffle; 23. a second baffle; 231. a first fixed block; 24. a filter plate; 241. a scraper; 242. a second fixed block; 25. a water absorbing member; 26. a flushing member; 27. a pipe; 31. a first motor; 32. a first gear; 33. a toothed plate I; 34. a first rotating shaft; 35. a first bevel gear; 36. a second bevel gear; 41. a slide bar; 42. a second rotating shaft; 43. a second gear; 44. a third gear; 45. a toothed plate II; 51. a third rotating shaft; 52. rotating the wheel piece; 53. and a second motor.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

As shown in fig. 1 to 11, the automatic feeding device for sea intestine culture of the invention comprises a feeding pool 1, a feed bucket 11, a blanking rod 12, a stirring blade 14, a cleaning assembly, a first driving assembly, a second driving assembly and a third driving assembly.

The top in feeding pond 1 is located to feed vat 11, and the upper end of feed vat 11 is equipped with feed inlet 111 and water injection mouth 112, and the lower extreme of feed vat 11 is equipped with the discharge gate, and feed beam 12 sets up along the width direction in feeding pond 1, and a plurality of feed inlets 121 have been seted up to the lower extreme of feed beam 12, are connected with flexible unloading pipe 13 between feed beam 12 and the discharge gate, and first drive assembly can drive feed beam 12 and remove along the length direction in feeding pond 1, and stirring vane 14 locates one side of feed beam 12, and can carry out synchronous movement along with feed beam 12, and second drive assembly can drive stirring vane 14 and rotate.

Specifically, as shown in fig. 1 to 3, when the automatic feeding device of the invention is used, after the feed is uniformly mixed in the feed barrel 11, the feed enters the feed rod 12 along the telescopic feed pipe 13, and enters the feeding pond 1 from the plurality of feed openings 121 at the lower end of the feed rod 12, in the process, the feed rod 12 is driven to move by the first driving component, so that the feed is uniformly distributed in the feeding pond 1, the feed dispersing efficiency is improved, meanwhile, the stirring blade 14 is driven to rotate by the second driving component, the floating time of the feed in water can be prolonged, the falling speed of the feed is reduced, the feeding of sea intestines is facilitated, and the feed utilization rate is improved.

The cleaning assembly comprises four cleaning discs 21, one side of a blanking rod 12 far away from a stirring blade 14 is arranged on the four cleaning discs 21, the cleaning discs 21 can synchronously move along with the blanking rod 12, four cleaning openings 211 are formed in each cleaning disc 21, the cleaning openings 211 are in a quarter circle shape, a first baffle 22 is fixedly arranged at the lower end of each cleaning disc 21, the first baffle 22 can simultaneously seal the lower ends of three cleaning openings 211, a second baffle 23 is rotatably arranged at the lower end of each cleaning disc 21, the second baffle 23 can seal the lower end of the last cleaning opening 211, the first baffle 22 and the second baffle 23 are respectively provided with water permeability, a filter plate 24 is rotatably arranged in each cleaning disc 21, a scraping plate 241 is arranged at the lower end of each filter plate 24, each scraping plate 241 is in a quarter circle shape, the four parts are respectively corresponding to the four cleaning openings 211, a water absorbing member 25 and a flushing member 26 are respectively arranged above each cleaning disc 21, a water outlet and a water absorbing member 25 and a water absorbing member 26 are respectively arranged at the upper end and the lower end of each cleaning disc 21, the second baffle 23 can seal the lower end of the last cleaning opening 211, the first baffle 22 and the second baffle 23 are respectively provided with a water absorbing member 25, the water inlet and the water absorbing member 25 are respectively connected with the water inlet 25 and the water absorbing member 26, the water inlet is respectively, the water absorbing member is rotatably driven by the water absorbing member and the water absorbing member is respectively, and the water inlet assembly is respectively, the water absorbing member and the water absorbing member is respectively and the water can be driven by the water and the water absorbing member and the water is respectively.

Specifically, as shown in fig. 1 to 9, the first driving assembly drives the discharging rod 12 to move, and simultaneously drives the four cleaning discs 21 to move synchronously, in the process, water in the feeding tank 1 is sucked through the water sucking member 25, excrement contained in the water is accumulated at the lower end of the filter plate 24 positioned below the water sucking member 25, the water is filtered by the filter plate 24 and then enters the pipeline 27 between the water sucking member 25 and the flushing member 26, then is discharged from the water leakage port at the lower end of the flushing member 26, the filter plate 24 positioned below the flushing member 26 is subjected to backflushing cleaning, then the water can pass through the first baffle 22 to return to the feeding tank 1, when the cleaning discs 21 move for a quarter of travel along the length direction of the feeding tank 1, the third driving assembly drives the filter plate 24 to rotate for 90 degrees, the water absorbing member 25 can continue to work through the new filter plate 24 part, meanwhile, the filter plate 24 part below the water absorbing member 25 can rotate to the lower part of the flushing member 26, so that the flushing member 26 can perform backflushing cleaning on the part of the filter plate 24 adhered with excrement, the excrement can fall on the first baffle 22 below the cleaning port 211, and along with the continuing rotation of the filter plate 24, the excrement can be synchronously rotated by the scraping plate 241 below the filter plate 24, so that the excrement can move into the next cleaning port 211, in the process, the filter plate 24 can be rotated by 90 degrees under the action of the third driving assembly every quarter stroke of the cleaning disc 21 until the cleaning disc 21 moves to the other end of the feeding pool 1, the second baffle 23 can close the lower end of the last cleaning port 211, after the water absorbing member 25 is closed, the excrement adhered to the portion of the filter sheet 24 located under the water absorbing member 25 does not fall back into the feeding pool 1 again, and then the excrement in each cleaning port 211 is cleaned manually.

In some embodiments, the first fixing block 231 is fixed on the second baffle 23, the second fixing block 242 is fixed on the outer side of the filter plate 24, and the second fixing block 242 can contact with the first fixing block 231 and drive the first fixing block 231 to synchronously rotate in the process of rotating along with the filter plate 24.

Specifically, as shown in fig. 1 to 9, when the cleaning disc 21 moves three-quarters of the way along the length direction of the feeding tank 1, under the action of the third driving component, the filter plate 24 is driven to rotate, at this time, the filter plate 24 is rotated 270 degrees, and at the same time, the second fixing block 242 arranged on the filter plate 24 is also rotated 270 degrees, at this time, the second fixing block 242 can be in contact with the first fixing block 231 on the second baffle plate 23, when the cleaning disc 21 moves to the other end of the feeding tank 1, under the action of the third driving component, the filter plate 24 is driven to continue to rotate, and the second fixing block 242 is driven to synchronously rotate, at this time, the second baffle plate 23 can be driven to synchronously rotate by pushing the first fixing block 231 through the second fixing block 242 until the filter plate 24 stops rotating, at this time, the second baffle plate 23 just rotates below the water absorbing member 25, and the lower end of the cleaning port 211 below the water absorbing member 25 is closed, so that excrement adhered to the filter plate 24 below the water absorbing member 25 can not fall back into the feeding tank 1 again, at this time, and the first baffle plate 22 and the second baffle plate 23 can simultaneously clean the fourth baffle plate 211.

In some embodiments, the rod 15 is fixed at the upper end of the blanking rod 12, the rod 15 is provided with a sliding block 151, the first driving component includes a first motor 31, a first gear 32 and a first toothed plate 33, the first motor 31 is arranged on the sliding block 151, the first gear 32 is sleeved on the output shaft of the first motor 31, the first gear 32 is rotationally arranged in the sliding block 151, the first toothed plate 33 is fixedly arranged in the feeding pool 1, the length direction of the first toothed plate 33 is consistent with the length direction of the feeding pool 1, the sliding block 151 is slidably sleeved on the outer side of the first toothed plate 33, and the first gear 32 is meshed with the first toothed plate 33.

Specifically, as shown in fig. 1 to 3, when the first motor 31 is started to drive the first gear 32 to rotate, the first gear 32 can be driven to move along the length direction of the first gear 33 through the meshing transmission between the first gear 32 and the first gear 33, and in the process of moving the first gear 32, the sliding block 151 can be driven to synchronously move, so that the discharging rod 12 can be driven to move along the length direction of the feeding pool 1.

In some embodiments, the lower end of the slider 151 is connected with a connecting rod 152, the second driving assembly includes a plurality of first rotating shafts 34, a first bevel gear 35 and a second bevel gear 36, the first rotating shafts 34 are rotatably connected with the connecting rod 152, a driving belt is sleeved between two adjacent first rotating shafts 34, so that the first rotating shafts 34 can synchronously rotate, each first rotating shaft 34 is vertically arranged, the plurality of stirring blades 14 are respectively and correspondingly connected to the lower ends of the first rotating shafts 34, the first bevel gear 35 is connected to the output end of the first motor 31, the second bevel gear 36 is connected to the upper end of one of the first rotating shafts 34, and the first bevel gear 35 is in meshed connection with the second bevel gear 36.

Specifically, as shown in fig. 1 to 3, the first motor 31 is started to drive the first gear 32 to rotate and simultaneously drive the first bevel gear 35 to rotate, the second bevel gear 36 can be driven to rotate through the meshing transmission between the first bevel gear 35 and the second bevel gear 36, and the first rotating shafts 34 connected with the second bevel gear 36 are driven to synchronously rotate, so that the first rotating shafts 34 are driven to synchronously rotate, the stirring blades 14 connected to the lower ends of the first rotating shafts 34 are driven to rotate, and the dropping time of the feed can be prolonged through the rotation of the stirring blades 14.

In some embodiments, a sliding rod 41 is slidably sleeved on the outer side of the toothed plate one 33, the sliding rod 41 is fixedly connected with the sliding rod 151, so that the sliding rod 41 can synchronously move along with the sliding rod 151, the third driving assembly comprises a second rotating shaft 42, a second gear 43, a third gear 44 and a second toothed plate 45, the second rotating shaft 42, the second gear 43 and the second toothed plate 45 are respectively and correspondingly sleeved on the outer side of the second rotating shaft 42, so that the two rotating shafts can synchronously rotate, the second gear 43 is respectively and correspondingly sleeved on the outer side of the second rotating shaft 24, the second gears 43 on the two adjacent filter plates 24 are in meshed connection, the third gear 44 is rotationally arranged in the sliding rod 41, the third gear 44 can be meshed with the second toothed plate 45, the second toothed plate 45 is arranged on the first toothed plate 33, and is sequentially arranged at intervals along the length direction of the first toothed plate 33, each time the third gear 44 moves a quarter stroke along the length direction of the feeding pool 1, the third gear 44 can be meshed with the second toothed plate 45, and a transmission belt 42 is sleeved between the third gear 44 and the second rotating shaft 42, so that the third gear 44 can synchronously rotate along with the second rotating shaft 42.

Specifically, as shown in fig. 1 to 9, in the process that the sliding block 151 moves along the length direction of the toothed plate one 33, the sliding rod 41 can be driven to move synchronously, and the gear three 44 arranged in the sliding rod 41 is driven to move synchronously, when the gear three 44 moves for a quarter of a stroke along the length direction of the feeding pool 1, the gear three 44 can be meshed with the toothed plate two 45 arranged on the toothed plate one 33, the gear three 44 is driven to rotate through the meshing transmission between the gear three 44 and the toothed plate two 45, so that the corresponding rotating shaft two 42 is driven to rotate synchronously, the filter plate 24 sleeved outside the rotating shaft two 42 can be driven to rotate in the rotating process of the rotating shaft two 42, the gear two 43 sleeved outside the filter plate 24 is driven to rotate synchronously, and the gears two 43 arranged on the adjacent two cleaning discs 21 can be driven to rotate through the meshing transmission between the gears two 43, so that the filter plates 24 are driven to rotate each time, and each filter plate 24 rotates by 90 degrees.

It should be noted that, the water absorbing member 25 is located above the cleaning opening 211 far from the blanking rod 12 in the four cleaning openings 211, so as to ensure the distance between the water absorbing member 25 and the blanking rod 12, avoid the water absorbing member 25 absorbing the feed fed by the blanking rod 12, the flushing member 26 is adjacent to the water absorbing member 25, the flushing members 26 above two cleaning discs 21 are located at the same position on the corresponding cleaning disc 21, and the flushing members 26 above two adjacent cleaning discs 21 are symmetrically arranged, so that after the filter plate 24 below each water absorbing member 25 rotates by 90 degrees, the flushing members 24 below the corresponding flushing members 26 can all be located.

In some embodiments, the support rod 16 is slidably disposed in the feeding tank 1, the support rod 16 is disposed along the width direction of the feeding tank 1, and the support rod 16 is fixedly connected with the slide rod 41, so that the support rod 16 can move synchronously with the slide rod 41, the support rod 16 is hollow, water outlets of the water absorbing members 25 are all communicated with the inside of the support rod 16, and a telescopic water pipe 17 is connected between the support rod 16 and the water injection port 112 of the feed barrel 11.

Specifically, as shown in fig. 1 to 7, after the water absorbed by the water absorbing member 25 is filtered by the filter plate 24, a part of the water can enter the flushing member 26 through the pipeline 27 to recoil and clean the filter plate 24, and the other part of the water can enter the supporting rod 16 and enter the feed bucket 11 through the telescopic water pipe 17 for mixing and stirring the feed, and meanwhile, the water absorbing member 25 can re-inhale the last residual feed in the feeding pool 1 into the feed bucket 11 for re-feeding, so that the utilization rate of the feed is improved.

In some embodiments, a third rotating shaft 51 is rotatably disposed on the blanking rod 12, a plurality of rotating wheel pieces 52 are disposed on the outer side of the third rotating shaft 51 along the length direction of the third rotating shaft, the plurality of rotating wheel pieces 52 are respectively disposed corresponding to a plurality of blanking openings 121 of the blanking rod 12, and a second motor 53 is connected to one end of the third rotating shaft 51.

The sea intestines prefer to be hidden in sand, so that a worker may not intuitively observe the specific distribution situation of the sea intestines in the feeding pool 1, and therefore the feeding amount cannot be controlled according to the distribution density of the sea intestines during feeding, the feeding of the sea intestines is affected, specifically, as shown in fig. 1,3, 4 and 10, each time the cleaning disc 21 moves for a quarter stroke along the length direction of the feeding pool 1, the filter plate 24 can rotate 90 degrees, excrement in the area in the feeding pool 1 is collected in the corresponding cleaning port 211, after feeding is completed, the distribution situation of the sea intestines in the feeding pool 1 is confirmed by observing the excrement in the four cleaning ports 211, so that in the next feeding process, the feeding amount of the lower sea intestines can be controlled according to the quantity of the lower sea intestines in the moving process of the feeding rod 12, the rotating shaft three 51 is driven by the motor two 53, the rotating wheel piece 52 is driven to rotate, the discharging amount of the feeding port 121 is controlled, and the feeding rate of the feed can be controlled accurately according to the distribution situation of the sea intestines.

As shown in fig. 1 and 11, the upper end of the feed barrel 11 is provided with a third motor 18, the feed barrel 11 is rotationally provided with a stirring roller 19, the output end of the third motor 18 extends into the feed barrel 11 and is connected with the upper end of the stirring roller 19, specifically, after the feed is poured into the feed barrel 11 from the feed inlet 111, the third motor 18 is started to drive the stirring roller 19 to rotate, so that the feed in the feed barrel 11 is fully stirred without manual operation, and the labor intensity is reduced.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (10)

1. Automatic feeding device is bred to sea intestine, characterized by, include:

A feeding pool (1);

The feed barrel (11), the feed barrel (11) is arranged above the feeding pool (1), the upper end of the feed barrel (11) is provided with a feed inlet (111) and a water injection inlet (112), and the lower end of the feed barrel (11) is provided with a discharge outlet;

the blanking rod (12) is arranged along the width direction of the feeding pool (1), a plurality of blanking openings (121) are formed in the lower end of the blanking rod (12), and a telescopic blanking pipe (13) is connected between the blanking rod (12) and the discharging openings;

The stirring blade (14) is arranged on one side of the blanking rod (12), and can synchronously move along with the blanking rod (12);

The cleaning assembly comprises four cleaning discs (21), the four cleaning discs (21) are arranged on one side, far away from the stirring blade (14), of the blanking rod (12) and can synchronously move along with the blanking rod (12), four cleaning ports (211) are formed in each cleaning disc (21), the cleaning ports (211) are in a quarter circle shape, a first baffle (22) is fixedly arranged at the lower end of each cleaning disc (21), the first baffle (22) can simultaneously seal the lower ends of three cleaning ports (211), a second baffle (23) is arranged at the lower end of each cleaning disc (21) in a rotating mode, the second baffle (23) can seal the lower end of the last cleaning port (211), a filter plate (24) is arranged in each cleaning disc (21) in a rotating mode, a scraping plate (241) is arranged at the lower end of each filter plate (24) and equally divides the filter plate (24) into four parts, each part is in a quarter circle shape, a water absorbing piece (25) and a flushing piece (26) are arranged above each cleaning disc (21), a water absorbing piece (25) and a water absorbing piece (26) are arranged at the upper end of the cleaning disc, and a water inlet (27) is connected with the water absorbing piece (25) and the water absorbing piece (26) is arranged between the water absorbing piece and the water absorbing piece (25) and the water absorbing piece (27) respectively;

The first driving assembly can drive the blanking rod (12) to move along the length direction of the feeding pool (1);

The second driving assembly can drive the stirring blade (14) to rotate;

and the third driving assembly can drive the filter plate (24) to rotate, and the filter plate can rotate 90 degrees each time.

2. The automatic feeding device for sea and intestine culture according to claim 1, wherein the first fixed block (231) is fixedly arranged on the second baffle plate (23), the second fixed block (242) is fixedly arranged on the outer side of the filter plate (24), and the second fixed block (242) can be contacted with the first fixed block (231) and drive the first fixed block (231) to synchronously rotate in the process of rotating along with the filter plate (24).

3. The automatic feeding device for sea and intestine culture according to claim 1, wherein a rod piece (15) is fixedly arranged at the upper end of the blanking rod (12), a sliding block (151) is arranged on the rod piece (15), the first driving component comprises a first motor (31), a first gear (32) and a first toothed plate (33), the first motor (31) is arranged on the sliding block (151), the first gear (32) is sleeved on an output shaft of the first motor (31), the first gear (32) is rotationally arranged in the sliding block (151), the first toothed plate (33) is fixedly arranged in the feeding pool (1), the length direction of the first toothed plate (33) is consistent with the length direction of the feeding pool (1), the sliding block (151) is slidably sleeved on the outer side of the first toothed plate (33), and the first gear (32) is in meshed connection with the first toothed plate (33).

4. The automatic feeding device for sea and intestine culture according to claim 3, wherein the lower end of the sliding block (151) is connected with a connecting rod (152), the second driving assembly comprises a plurality of first rotating shafts (34), a plurality of first bevel gears (35) and a plurality of second bevel gears (36), the first rotating shafts (34) are rotatably connected with the connecting rod (152), a transmission belt is sleeved between every two adjacent first rotating shafts (34) so that the first rotating shafts (34) can synchronously rotate, each first rotating shaft (34) is vertically arranged, a plurality of stirring blades (14) are correspondingly connected to the lower ends of the first rotating shafts (34), the first bevel gears (35) are connected to the output end of the first motor (31), the second bevel gears (36) are connected to the upper end of one first rotating shaft (34), and the first bevel gears (35) are meshed with the second bevel gears (36).

5. The automatic feeding device for sea and intestine culture according to claim 4, wherein a slide bar (41) is sleeved on the outer side of the toothed plate I (33) in a sliding manner, the slide bar (41) is fixedly connected with the slide bar (151) so that the slide bar (41) can synchronously move along with the slide bar (151), the third driving assembly comprises a rotating shaft II (42), a gear II (43), a gear III (44) and a toothed plate II (45), the rotating shaft II (42), the gear II (43) and the toothed plate II (45) are four, the four filter plates (24) are respectively sleeved on the outer sides of the four rotating shaft II (42) correspondingly, so that the four filter plates II (43) are respectively sleeved on the outer sides of the four filter plates (24) correspondingly, the gear III (44) are in meshed connection with the adjacent two filter plates (24), the gear III (44) is rotationally arranged in the rotating shaft II (42), the gear III (44) and the toothed plate II (45) can be meshed with the toothed plate II (45) in sequence, the length of the toothed plate II (45) can be meshed with the toothed plate II (33) in the direction of one of the four, and the length of each toothed plate II (45) can be meshed with the toothed plate II (33) in sequence, a transmission belt is sleeved between the third gear (44) and one of the second rotating shafts (42) so that the second rotating shaft (42) can synchronously rotate along with the third gear (44).

6. The automatic feeding device for sea and intestine culture according to claim 1, wherein the water absorbing members (25) are located above the cleaning openings (211) far away from the blanking rod (12) in the four cleaning openings (211), the flushing members (26) are arranged adjacent to the water absorbing members (25), the flushing members (26) above two cleaning discs (21) are located at the same position on the corresponding cleaning discs (21), and the flushing members (26) above two adjacent cleaning discs (21) are symmetrically arranged, so that after the filter plate (24) below each water absorbing member (25) is partially rotated by 90 degrees, the flushing members (26) can be located below the corresponding flushing members (26).

7. The automatic feeding device for sea and intestine culture according to claim 5, wherein a supporting rod (16) is slidably arranged in the feeding pool (1), the supporting rod (16) is arranged along the width direction of the feeding pool (1), the supporting rod (16) is fixedly connected with the sliding rod (41), so that the supporting rod (16) can synchronously move along with the sliding rod (41), the supporting rod (16) is hollow, water outlets of a plurality of water absorbing pieces (25) are communicated with the inside of the supporting rod (16), and a telescopic water pipe (17) is connected between the supporting rod (16) and a water injection port (112) of a feed bucket (11).

8. Automatic feeding device for sea intestine farming according to claim 1, characterized in that the first baffle (22) and the second baffle (23) both have water permeability.

9. The automatic feeding device for sea intestine culture according to claim 1, wherein a rotating shaft three (51) is rotatably arranged on the discharging rod (12), a plurality of rotating wheel pieces (52) are arranged on the outer side of the rotating shaft three (51) along the length direction of the rotating shaft three (51), the rotating wheel pieces (52) are respectively arranged corresponding to a plurality of discharging openings (121) of the discharging rod (12), and one end of the rotating shaft three (51) is connected with a motor two (53).

10. The automatic feeding device for sea intestine culture according to claim 1, wherein a third motor (18) is arranged at the upper end of the feed barrel (11), a stirring roller (19) is rotatably arranged in the feed barrel (11), and the output end of the third motor (18) extends into the feed barrel (11) and is connected with the upper end of the stirring roller (19).