CN114557310A - Feed delivery device suitable for pond culture of selenium-rich longsnout catfish snakehead - Google Patents

Abstract

The invention discloses a feed feeding device suitable for pond-culture of selenium-enriched leiocassis longirostris and snakehead, which structurally comprises an annular chuck, a butt joint pipe, a storage box and a feed guiding device.

Description

Feed delivery device suitable for pond culture of selenium-rich longsnout catfish snakehead

Technical Field

The invention relates to the technical field of aquaculture, in particular to a feed feeding device suitable for pond culture of selenium-rich longsnout catfish and snakehead.

Background

Along with the improvement of the technical level of the seawater culture and the expansion of market demands, the seawater factory culture in China has been rapidly developed in recent years, at present, people usually utilize a culture pond to carry out the culture when carrying out the aquaculture, the production activities of breeding, cultivating and harvesting aquatic animals and plants are carried out under artificial control, generally the whole process of breeding aquatic products from offspring seeds under the artificial feeding management is included, the proliferation of aquatic resources can also be included in a broad sense, when carrying out the fish food putting, the place that needs to be improved:

present fodder feeding device is when putting in the fish food, the leading-in feed cylinder of fish food under the normal condition, the feed cylinder both sides all are equipped with the guide passageway, help leading out the inside fish food of feed cylinder towards both sides reposition of redundant personnel, can flow to on throwing the esophagus through the guide passageway after the fish food is derived, through throwing the esophagus with the effective homodisperse of fish food put in the fish pond, when throwing the esophagus when exporting the fish food, because the tip of throwing the esophagus upwarps and is obtuse angle structure, at the transport fish food in-process, there is the direct card of fish food on throwing the bending position of eating pipe upwarp, lead to the fish food directly to pile up the card on throwing the esophagus, thereby cause to throw the edible pipe and normally throw in the fish food to the fish pond, so that the unable normal edible of longsnout catfish snakehead in the fish pond, thereby influence the growth of selenium-enriched fish snakehead, lead to the breed output decline of selenium-enriched fish snakehead.

Disclosure of Invention

Aiming at the defects in the prior art, the invention is realized by the following technical scheme: the utility model provides a fodder dispensing device suitable for pond is supported selenium-enriched longsnout catfish snakehead, its structure includes annular chuck, butt joint pipe, storage case, guide device, it has the butt joint pipe to peg graft on the annular chuck, the butt joint pipe other end is put through with the storage case mutually, the annular chuck coincide to be connected on the guide device.

As the further optimization of the invention, the material guiding device comprises a material pushing assembly, a rotating rod, material guiding pipes, a material receiving assembly, a frame body and a feeding pipe, wherein the material pushing assembly is connected with the rotating rod, the material pushing assembly is communicated with the feeding pipe, the top of the feeding pipe is provided with the material guiding pipes communicated with the feeding pipe, the other ends of the material guiding pipes are connected to the material receiving assembly, the material receiving assembly is installed on the frame body, and the annular chuck is connected to the frame body in a matching manner.

The material receiving assembly comprises two material receiving grooves, two material guide channels, triangular supports, a top block, a connecting rod, a charging barrel and support blocks, wherein the two material receiving grooves are connected with the material guide channels, the material guide channels are communicated with the charging barrel, the top block is arranged in the middle of the lower end of the charging barrel, the top block is arranged at the lower end of the top block and arranged in the middle of the connecting rod, the support blocks are connected to two sides of the lower end of the connecting rod, the material receiving grooves are connected with the material guide pipes, and the charging barrel is arranged on a frame body.

The material receiving groove comprises two swinging plates, a material inlet, elastic push rods, moving rods, interfaces, clamping plates, a shell, lower pressure rods and a connecting plate, wherein the two swinging plates are symmetrically distributed on two sides of the lower end of the shell, the material inlet communicated with the two swinging plates is formed in one side of the shell, the interface is formed in the middle of the top of the shell, the moving rods are connected inside the interface and penetrate through the interfaces to extend into the shell, the elastic push rods are inserted into two sides of the lower end of each moving rod, the clamping plates are buckled on the two elastic push rods, the lower pressure rods are inserted into the lower ends of the two clamping plates, the other ends of the lower pressure rods are connected with the connecting plate, the connecting plate is connected to the inner side end of the swinging plates in a matched mode, the material inlet is connected with a material guide channel, and the swinging plates are connected with material guide pipes.

The material pushing assembly comprises a rotary disc, elastic punching rods, contact heads, a mounting disc, elastic joints and elastic ejecting pieces, wherein a plurality of notches are formed in the rotary disc, the elastic joints are mounted at the end parts of the notches in the rotary disc, the notches in the rotary disc are connected with the elastic ejecting pieces, the elastic ejecting pieces are connected with the elastic joints in a matching mode, the rotary disc is arranged in the middle of the mounting disc, the elastic punching rods are inserted into the mounting disc in an inserting mode, the elastic punching rods are arranged on the mounting disc in an annular mode at equal intervals, the contact heads are mounted at the end parts of the elastic punching rods, the elastic punching rods penetrate through the feeding pipe, and the rotary disc is connected with the rotary rods.

As a further optimization of the invention, the elastic top piece comprises a sleeve joint, a traction ball, a telescopic plate, an anti-slip mat, an elastic support piece and a movable stack piece, wherein the sleeve joint is connected to the movable stack piece in an inosculating manner, the traction ball is installed at the other end of the movable stack piece, the telescopic plate connected with the traction ball is arranged between the two traction balls, the elastic support piece is connected to the lower end of the telescopic plate in an inosculating manner, the anti-slip mat is attached to the top of the telescopic plate, the sleeve joint is connected with the elastic joint in an inosculating manner, and the movable stack piece extends into a notch on the turntable.

As a further optimization of the invention, the movable stack piece comprises clamping plates, sockets, connecting seats, clamping interfaces and resistance increasing sheets, wherein the clamping plates are connected to two sides of the inner wall of each socket in a matching mode, the resistance increasing sheets are attached to the clamping plates and are in contact with the outer wall of the upper socket, the connecting seats are installed at the tops of the sockets, drag balls are installed on the connecting seats, the sockets in multiple sections are connected and extend into notches in the rotary table, and the sockets of the sockets are connected in a matching mode.

As further optimization of the invention content, the triangular supports are in a triangular structure, and the middle position of the triangular supports is inserted with the top block.

As further optimization of the invention content, a plurality of sections of the socket joints are sequentially arranged and connected from small to large.

Advantageous effects

The invention relates to a feed feeding device suitable for pond culture of selenium-rich longsnout catfish snakehead, which has the following beneficial effects:

1. according to the fish food feeding device, the material pushing assembly, the rotating rod, the material guide pipe, the material receiving assembly, the frame body and the food feeding pipe are adopted, fish food is conducted to the material receiving assembly through the butt joint pipe by the material storage box, the fish food is dispersedly guided to the material guide pipe through the material receiving assembly, the material guide pipe and the food feeding pipe are in an intercommunicated state, the fish food is effectively conducted to the food feeding pipe, and the fish food conveyed to the interior of the food feeding pipe is guided outwards through the movement of the material pushing assembly.

2. According to the fish food distribution device, fish food is conducted into the charging barrel through the receiving groove, the material guide channel, the triangular supports, the top blocks, the connecting rods, the charging barrel and the supporting blocks, the triangular supports are arranged at the bottom of the charging barrel and are upwards supported through the top blocks, so that the fish food in the charging barrel is effectively supported and dispersed, the fish food can flow onto the material guide channel under the action of the triangular supports, and the fish food is dispersedly conducted onto the receiving groove through the material guide channel, so that the fish food is effectively subjected to distribution treatment.

3. According to the invention, the motor in the main body is driven to rotate through the rotary disc, the elastic punch rod, the contact head, the mounting disc and the elastic ejecting piece, the motor drives the rotary disc to rotate, the elastic ejecting piece is thrown out by utilizing the action of centrifugal force during the rotation process of the rotary disc, the elastic ejecting piece intermittently extrudes the contact head to push the elastic punch rod outwards, and the elastic punch rod can move in the corresponding feeding tube to flush out fish food in the feeding tube outwards, so that the feeding effect is achieved, and the fish food is prevented from being accumulated at the bent position of the feeding tube.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a feed feeding device suitable for pond culture of selenium-enriched longsnout catfish snakehead of the invention;

fig. 2 is a schematic view of the internal structure of the material guiding device of the present invention.

Fig. 3 is a schematic view of the internal structure of the cartridge of the present invention.

Fig. 4 is a schematic sectional structure view of the material receiving tank of the present invention.

Fig. 5 is a schematic top view of the receiving trough of the present invention.

Fig. 6 is a schematic view of the internal structure of the elastic top member of the present invention.

Fig. 7 is a schematic view of the internal structure of the movable stack of the present invention.

In the figure: a ring chuck-1, an abutting pipe-3, a storage box-2, a material guiding device-4, a material pushing assembly-Q1, a rotating rod-T5, a material guiding pipe-W2, a material receiving assembly-R4, a frame body-Y6, a feeding pipe-E3, a material receiving groove-R11, a material guiding channel-Y14, a triangular support-S18, a top block-T12, a connecting rod-E15, a charging barrel-U16, a support block-W13, a swinging plate-D21, a material inlet-L27, an elastic push rod-X29, a moving rod-H24, a connector-J25, a clamping plate-G22, a shell-K26, a lower pressing rod-Z28, a connecting plate-F23, a rotary plate-Z33, an elastic punching rod-C35, a contact head-L32, a mounting plate-X34, an elastic top piece-K31, a sleeve joint head-C41, a sleeve-Q45 and a traction ball-Q-D45, Expansion plate-V43, non-slip mat-B46, elastic support piece-N42, movable stack-M44, snap-plate-E51, socket-R53, connecting seat-U55, clip interface-T52 and resistance-increasing sheet-Y54.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a fodder dispensing device suitable for selenium-enriched leiocassis longirostris is supported in pond, its structure includes annular chuck 1, butt joint pipe 3, storage case 2, guide device 4, it has butt joint pipe 3 to peg graft on the annular chuck 1, the butt joint pipe 3 other end is put through with storage case 2 mutually, annular chuck 1 coincide to be connected on guide device 4.

Referring to fig. 2, the material guiding device 4 includes a material pushing assembly Q1, a rotating rod T5, a material guiding tube W2, a material receiving assembly R4, a frame Y6, and a feeding tube E3, the rotating rod T5 is connected to the material pushing assembly Q1, the material pushing assembly Q1 is connected to the feeding tube E3, the top of the feeding tube E3 is provided with a material guiding tube W2 connected to the top of the feeding tube E3, the other end of the material guiding tube W2 is connected to the material receiving assembly R4, the material receiving assembly R4 is mounted on the frame Y6, and the annular chuck 1 is connected to the frame Y6 in an anastomotic manner.

Referring to fig. 3, the receiving assembly R4 includes two receiving grooves R11, two material guide channels Y14, a triangular support S18, a top block T12, a connecting rod E15, a material cylinder U16, and a supporting block W13, the receiving grooves R11 are connected with the two receiving grooves R11, the two receiving grooves R14 are connected with the material guide channel Y14, the material guide channel Y14 is communicated with the material cylinder U16, the top block T12 is arranged in the middle of the lower end of the material cylinder U16, the top block T12 is mounted at the lower end of the top block T12, the top block 12 is arranged in the middle of the connecting rod E15, the supporting blocks W13 are connected to both sides of the lower end of the connecting rod E15, the receiving grooves R11 are connected with the material guide pipe W2, and the material cylinder U16 is mounted on the frame Y6.

Referring to fig. 3, the triangular support S18 is a triangular structure and has a top block T12 inserted in the middle.

The top block T12 is used for being matched with the triangular support S18, the middle position of the lower end of the triangular support S18 is supported with the top block T12, the top block T12 can stably jack up the triangular support S18 upwards, the triangular support S18 is prevented from being deformed due to the gravity of fish food, the stability of the triangular support S18 is effectively kept, and the triangular support S18 can stably disperse the fish food in the charging barrel U16.

Referring to fig. 4, the material receiving tank R includes two swing plates D, a material inlet L, two ejector pins X, a moving rod H, a connector J, a clamping plate G, a housing K, a lower pressing rod Z, and a connecting plate F, the two swing plates D are symmetrically distributed on two sides of the lower end of the housing K, the material inlet L connected to one side of the housing K is disposed on one side of the housing K, the connector J is disposed at the middle position of the top of the housing K, the moving rod H is connected to the connector J, the moving rod H penetrates through the connector J and extends into the housing K, the ejector pins X are respectively inserted into two sides of the lower end of the moving rod H, the clamping plates G are respectively fastened to the two ejector pins X, the lower ends of the two clamping plates G are respectively inserted with a lower pressing rod Z, the other end of the lower pressing rod Z is connected to the connecting plate F, the connecting plate F is connected to the inner side end of the swing plate D in a matching manner, the material inlet L is connected to the material guiding channel Y, the swing plate D21 is connected with the guide pipe W2.

The elastic pushing rod X29 is used for matching with a pushing rod Z28, the pushing rod Z28 is mounted on an elastic pushing rod X29 through a clamping plate G22, the elastic pushing rod X29 moves downwards under the action of a moving rod H24, the pushing rod Z28 moves downwards under the action of the elastic pushing rod X29, a connecting plate F23 is arranged at the end of the pushing rod Z28 and connected to a swinging plate D21 in a matched mode, and the swinging plate D21 swings outwards and opens under the action of the pushing rod Z28 and the connecting plate F23.

Example two

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a fodder dispensing device suitable for selenium-enriched leiocassis longirostris is supported in pond, its structure includes annular chuck 1, butt joint pipe 3, storage case 2, guide device 4, it has butt joint pipe 3 to peg graft on the annular chuck 1, the butt joint pipe 3 other end is put through with storage case 2 mutually, annular chuck 1 coincide to be connected on guide device 4.

Referring to fig. 2, the material guiding device 4 includes a material pushing assembly Q1, a rotating rod T5, a material guiding tube W2, a material receiving assembly R4, a frame Y6, and a feeding tube E3, the rotating rod T5 is connected to the material pushing assembly Q1, the material pushing assembly Q1 is connected to the feeding tube E3, the top of the feeding tube E3 is provided with a material guiding tube W2 connected to the top of the feeding tube E3, the other end of the material guiding tube W2 is connected to the material receiving assembly R4, the material receiving assembly R4 is mounted on the frame Y6, and the annular chuck 1 is connected to the frame Y6 in an anastomotic manner.

Referring to fig. 5, the pushing assembly Q1 includes a rotary plate Z33, an elastic plunger C35, a contact L32, a mounting plate X34, an elastic joint V36, and an elastic top member K31, wherein a plurality of notches are provided on the rotary plate Z33, elastic joints V36 are respectively installed at ends of the notches on the rotary plate Z33, the notches on the rotary plate Z33 are connected to the elastic top member K31, the elastic top member K31 is connected to the elastic joints V36 in a matching manner, the rotary plate Z33 is installed at a middle position of the mounting plate X34, a plurality of elastic plungers C35 are inserted into the mounting plate X34, a plurality of elastic plungers C35 are annularly installed on the mounting plate X34 at equal intervals, the ends of the elastic plungers C35 are respectively installed with the contact L32, the elastic plungers C35 penetrate through the esophagus feeding E3, and the rotary plate Z33 is connected to the rotary rod T5.

The elastic joint V36 is used for matching with the rotary plate Z33, a plurality of notches are arranged on the rotary plate Z33, the elastic joints V36 are connected in the notches, the elastic joints V36 are in butt joint with the elastic top piece K31 in a matching mode, and the elastic top piece K31 can move on the notches on the rotary plate Z33 under the drawing of the elastic joints V36.

Referring to fig. 6, the elastic top part K31 includes a sleeve joint C41, a drag ball Q45, a telescopic plate V43, a non-slip mat B46, an elastic support part N42, and a movable stack part M44, the sleeve joint C41 is connected to the movable stack part M44 in an engaged manner, the drag ball Q45 is installed at the other end of the movable stack part M44, a telescopic plate V43 connected to the two drag balls Q45 is provided between the two drag balls Q45, the elastic support part N42 is connected to the lower end of the telescopic plate V43 in an engaged manner, the non-slip mat B46 is attached to the top of the telescopic plate V43, the sleeve joint C41 is connected to the elastic joint V36 in an engaged manner, and the movable stack part M44 extends into a notch on the turntable Z33.

The telescopic plate V43 is used for matching with the movable stack M44, the drag ball Q45 at the end part of the movable stack M44 is in butt joint with the telescopic plate V43 in a matching way, the telescopic plates V43 are arranged at the two ends of the drag ball Q45, and the plurality of drag balls Q45 have the function of dragging the whole body on the telescopic plate V43, so that the plurality of movable stacks M44 can be movably adjusted at the same time.

Referring to fig. 7, the movable stack M44 includes a clamping plate E51, a socket R53, a connecting seat U55, a clamping interface T52, and resistance increasing sheets Y54, the clamping plate E51 is connected to two sides of an inner wall of the multi-section socket R53 in an engaged manner, the resistance increasing sheets Y54 are attached to the clamping plate E51, the resistance increasing sheets Y54 are in contact with an outer wall of an upper socket R53, the connecting seat U55 is installed at the top of the socket R53, a drag ball Q45 is installed on the connecting seat U55, the multi-section socket R53 is connected to a notch extending into the turntable Z33, and the socket R53 is connected to a socket C41 in an engaged manner.

Referring to fig. 7, a plurality of sockets R53 are sequentially connected from small to large.

The resistance increasing sheet Y54 is used for being matched with the clamping plate E51, the resistance increasing sheet Y54 is connected to the clamping plate E51, the resistance increasing sheet Y54 is made of rubber materials, the surface of the resistance increasing sheet Y54 is rough, the resistance increasing sheet Y54 can be connected with two ends of the bottom of the upper sleeve R53, and the position of the sleeve R53 is limited and drawn through the resistance increasing sheet Y54.

The working principle of the above technical solution is explained as follows:

when the fish feed dispersing and guiding device is used, fish food is stored in the storage box 2 and is conveyed to the interior of the feed cylinder U16 through the butt joint pipe 3, the bottom of the feed cylinder U16 is provided with the triangular support S18, the triangular support S18 is in an isosceles triangle structure under the support of the top block T12, so that the fish food in the feed cylinder U16 is effectively dispersed and conducted, the dispersed fish food flows to the guide channel Y14 towards two sides under the action of the triangular support S18, the guide channel Y14 is communicated with the feed inlet L27, the guide channel Y14 disperses and conducts the fish food to the interior of the shell K26 through the feed inlet L27, the fish food falls to the bottom of the shell K26 along with the feed inlet, the moving rod H24 is driven to move downwards by the two support blocks W13, the two sides at the lower end of the moving rod H24 are connected with the pushing rod X24, the pushing rod X24 is connected with the pushing rod 24 through the clamping plate G24 and pushes the pushing rod 24 under the Z24 under the action of the swinging rod 24 under the action of the Z24, the two swinging plates D21 are expanded outwards after being stressed, so that fish food in the shell K26 can fall onto the material guide pipe W2 from the space between the two swinging plates D21, and the material guide pipe W2 is in an inclined state, and the fish food is effectively conveyed downwards to the feeding pipe E3;

a plurality of notches are arranged on the rotating disc Z33, elastic joints V36 are connected inside the notches, the elastic joints V36 are in fit butt joint with the socket joint C41, a motor inside the main body 1 is driven to rotate, the motor drives the rotating disc Z33 to rotate, the rotating disc Z33 throws out the movable stack M44 under the action of centrifugal force in the rotating process, a socket R53 on the movable stack M44 moves outwards under the action of rotating centrifugal force, an upper socket can stably move outwards under the action of a resistance increasing sheet Y54 and slides out of a lower socket R53, a plurality of sockets R53 extend and move outwards under the action of centrifugal force, the connecting seat U55 is in fit connection with the traction ball Q45 while the movable stack M44 extends and moves out, the connecting seat U55 pushes the traction ball Q45 outwards under the action of the movable stack M44, the telescopic plates V43 connected to two ends of the traction ball Q45 are taken out, and a plurality of the movable stacks V43 move outwards under the action of the traction ball M44, when the retractable plate V43 moves outwards under the action of the movable stack M44, the retractable plate V43 extends outwards under the action of a restraining force, the lower end of the retractable plate V43 is connected with an elastic supporting piece N42, the elastic supporting piece N42 can assist in restraining the retractable plate V43, the retractable plate V43 is prevented from being excessively extended and cannot be reset, the retractable plate V43 can be conveniently opened and closed, the retractable plate V43 can intermittently press the contact L32 to push the elastic impact rod C35 outwards under the pushing action of the movable stack M44, the top of the retractable plate V43 is provided with an anti-slip pad B46, the anti-slip pad B46 can be directly contacted with the contact L32 to play a role in preventing slipping and increasing resistance, so that the retractable plate V43 can stably push the contact L32 outwards, the elastic impact rod C35 can move inside the corresponding feeding tube E3 under the action of pushing force, the fish in the feeding tube E3 can effectively push outwards, and the fish feeding tube E3 can be pushed outwards to be thrown into a feeding pool, thereby feeding the leiocassis longirostris and the snakehead, preventing fish food from accumulating on the bending position of the feeding pipe E3, in the feeding process, the rotating speed of the turntable Z33 can be increased through the motor, so that the rotating speed of the turntable Z33 is increased, the thrown distance of the movable stack M44 is longer under the action of high-speed rotating centrifugal force, the contact head L32 is effectively pushed outwards, the corresponding elastic punch C35 is intermittently extruded, the moving distance of the elastic punch C35 is larger, the fish food in the feeding tube E3 can be flushed out farther, the fish food can be flushed out outwards under the action of the impact force, the fish food is effectively dispersed, the phenomenon that the fish food is too much concentrated in a certain area is prevented, the phenomenon that the Ictalurus selenka snakehead cannot be eaten up effectively and food accumulation occurs is prevented, the feed can be used for effectively and normally feeding the selenium-rich leiocassis longirostris snakehead, so that the normal growth of the selenium-rich leiocassis longirostris snakehead is ensured, and the breeding yield of the selenium-rich leiocassis longirostris snakehead is increased.

In summary, the novel feed feeding device suitable for pond culture of the selenium-enriched leiocassis longirostris is formed by combining the annular chuck, the butt joint pipe, the storage box and the material guiding device, fish food is conducted to the material receiving assembly by the storage box through the butt joint pipe and is dispersedly guided into the material guiding pipe through the material receiving assembly, the material guiding pipe and the feeding pipe are in a communicated state, the fish food is effectively conducted to the feeding pipe, and the fish food conveyed to the inside of the feeding pipe is guided out through the movement of the material pushing assembly.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a fodder dispensing device suitable for selenium-enriched leiocassis longirostris is supported in pond, its structure includes annular chuck (1), butt joint pipe (3), storage case (2), guide device (4), its characterized in that:

the annular chuck (1) is inserted with a butt joint pipe (3), the butt joint pipe (3) is communicated with the material storage box (2), and the annular chuck (1) is connected to the material guide device (4) in a matching manner;

guide device (4) are including pushing away material subassembly (Q1), bull stick (T5), guide tube (W2), connect material subassembly (R4), framework (Y6), throw edible pipe (E3), it is connected with bull stick (T5) on pushing away material subassembly (Q1), throw edible pipe (E3) and push away material subassembly (Q1), guide tube (W2) and put through mutually, guide tube (W2) are connected on connecing material subassembly (R4), connect material subassembly (R4) and install on framework (Y6), ring chuck (1) is anastomosed and is connected on framework (Y6).

2. The feed delivery device suitable for the pond-culture of the selenium-rich longsnout catfish and the snakehead according to claim 1, is characterized in that: connect material subassembly (R4) including connecing silo (R11), guide passageway (Y14), triangular supports (S18), kicking block (T12), join pole (E15), feed cylinder (U16), a piece (W13), connect silo (R11) to meet with guide passageway (Y14), guide passageway (Y14) is linked together with feed cylinder (U16), be equipped with kicking block (T12) on feed cylinder (U16), kicking block (T12) is installed to kicking block (T12), kicking block (T12) are established on joining pole (E15), join pole (E15) and be connected with a piece (W13), connect silo (R11) and guide tube (W2) to meet, feed cylinder (U16) are installed on framework (Y6).

3. The feed delivery device suitable for the pond-culture of the selenium-enriched longsnout catfish and the snakehead according to claim 2, is characterized in that: the material receiving groove (R11) comprises a swinging plate (D21), a material inlet (L27), an ejection rod (X29), a moving rod (H24), an interface (J25), a clamping plate (G22), a shell (K22), a downward pressing rod (Z22) and a connecting plate (F22), the swinging plate (D22) is connected to the shell (K22), the shell (K22) is communicated with the material inlet (L22), an interface (J22) is arranged on the shell (K22), the moving rod (H22) penetrates through the interface (J22) and extends into the shell (K22), the moving rod (H22) is inserted with the ejection rod (X22), the clamping plate (G22) is buckled on the two ejection rods (X22), a downward pressing rod (Z22) is inserted with the clamping plate (G22), the downward pressing rod (Z22) is connected with the connecting plate (F22), the connecting plate (F22) is connected to the swinging plate (F22) and the material inlet (L22) and the material guiding channel (Y22), the swinging plate (D21) is connected with the material guide pipe (W2).

4. The feed delivery device suitable for the pond-culture of the selenium-rich longsnout catfish and the snakehead according to claim 1, is characterized in that: the material pushing assembly (Q1) comprises a rotary disc (Z33), an elastic plunger (C35), a contact head (L32), a mounting disc (X34), an elastic joint (V36) and an elastic ejecting piece (K31), wherein the elastic joint (V36) is mounted on the rotary disc (Z33), the rotary disc (Z33) is connected with the elastic ejecting piece (K31), the elastic ejecting piece (K31) is connected with the elastic joint (V36) in a matched mode, the rotary disc (Z33) is arranged on the mounting disc (X34), the elastic plunger (C35) is inserted into the mounting disc (X34), the elastic plunger (C35) is arranged on the mounting disc (X34), the contact head (L32) is mounted on the elastic plunger (C35), the elastic plunger (C35) penetrates through the esophagus feeding device (E3), and the rotary disc (Z33) is connected with the rotary rod (T5).

5. The feed delivery device suitable for the pond culture of the selenium-enriched longsnout catfish and the snakehead according to claim 4, is characterized in that: elastic top piece (K31) is including cup jointing head (C41), draw ball (Q45), expansion plate (V43), slipmat (B46), elasticity support piece (N42), activity fold piece (M44), cup jointing head (C41) coincide to be connected on activity fold piece (M44), traction ball (Q45) is installed to activity fold piece (M44), traction ball (Q45) is connected with expansion plate (V43), expansion plate (V43) coincide to be connected with elasticity support piece (N42), expansion plate (V43) laminating has slipmat (B46), cup jointing head (C41) and elastic joint (V36) coincide to be connected, activity fold piece (M44) stretches into carousel (Z33).

6. The feed delivery device suitable for the pond-culture of the selenium-rich longsnout catfish and the snakehead according to claim 5, is characterized in that: activity stack spare (M44) is including cardboard (E51), socket (R53), connecting seat (U55), joint interface (T52), resistance-increasing piece (Y54), cardboard (E51) coincide to be connected on socket (R53), the laminating has resistance-increasing piece (Y54) on cardboard (E51), resistance-increasing piece (Y54) contacts with socket (R53), connecting seat (U55) are installed in socket (R53), install on connecting seat (U55) and drag ball (Q45), socket (R53) connect and stretch into carousel (Z33), socket (R53) cup joint (C41) coincide to be connected.

7. The feed delivery device suitable for the pond-culture of the selenium-enriched longsnout catfish and the snakehead according to claim 2, is characterized in that: the triangular support (S18) is in a triangular structure, and a top block (T12) is inserted in the middle position.

8. The feed delivery device suitable for the pond culture of the selenium-enriched longsnout catfish snakehead as claimed in claim 6, is characterized in that: the plurality of sections of the socket joints (R53) are sequentially arranged and connected from small to large.

Images