CN109937940A - Acipenseridae fish breeding device equipped with air bag - Google Patents

Abstract

The invention discloses the Acipenseridae fish breeding devices for being equipped with air bag, its structure includes guard ring, batch charger, body, air bag, the present invention passes through the modular construction to improve equipment, make it when carrying out using feed is fed, it can be over time, it is collected by feed collecting mechanism to swimming in sturgeon on the water surface and eat remaining feed, remaining buoyancy feed is avoided to swim on the water surface, it carries out being deposited in bottom dissipating through water suction bubble after a period of time, to be polluted to water body, for a long time with this, water body is damaged, it is unfavorable for sturgeon survival, simultaneously when feeding feed, it can be matched by feeding intake oxygen-enriching mechanism with oxygenation component, dissolved oxygen is added to water body top area, it avoids because using buoyancy feed, the fish for assembling water flow upper layer are more, the consumption rapid increase of oxygen in water, Cause the organic matter in the region to carry out anaerobic digestion, generates a large amount of harmful substance, water body is damaged.

Description

Acipenseridae fish breeding device equipped with air bag

Technical field

The present invention relates to sturgeon equipment for breeding fields, particularly with regard to a kind of Acipenseridae fish breeding device equipped with air bag.

Background technique

Acipenseridae fish breeding device is a kind of grid water tank equipment designed exclusively for sturgeon cultivation, by placing water tank It is larger in area, it carries out launching paddlefish in the deeper waters of water body to be cultivated.

1, but existing equipment carry out using when, since paddlefish is fond of floatability feed, thus use feeding Material is that buoyancy feed prevents from mutually killing and devouring between similar, exist every time however, to ensure that paddlefish can obtain sufficient food When feeding feed, often being launched than defined injected volume more it is some to guarantee that every paddlefish obtains abundant feeding, should Although method can make paddlefish obtain abundant feeding, often has remaining buoyancy feed and swim on the water surface, passing through Water suction bubble after a period of time dissipates and carries out being deposited in bottom, to pollute to water body, for a long time with this, easily kisses to spoon The water body living environment of sturgeon impacts.

2, simultaneously when carrying out dispensing feed, due to using buoyancy feed, the fish for assembling water flow upper layer are more, The consumption rapid increase of oxygen in water causes the organic matter in the region to carry out anaerobic digestion, generates a large amount of harmful substance, Influence the normal cultivation of paddlefish.

Summary of the invention

In view of the deficiencies of the prior art, the present invention is to realize by the following technical solutions: Acipenseridae fish equipped with air bag Breeding device, structure include guard ring, batch charger, body, air bag, and the bottom end of the guard ring and the top of body are integrated Change structure, the bottom end of the batch charger is mutually welded with the top of guard ring, and the level of the air bag is welded on the bottom end of body, institute The surface that batch charger is located at body is stated, the body includes feed intake oxygen-enriching mechanism, oxygenation component, shell, feed collecting mechanism, The bottom end of the oxygen-enriching mechanism that feeds intake mutually is welded with the top of oxygenation component, and the bottom end of the oxygenation component is set to the top of shell End, the feed collecting mechanism are vertically embedded on the top of shell, and the feed collecting mechanism is located at material oxygen-enriching mechanism Right, the oxygenation component and outer shell phase are welded.

As advanced optimizing for the technical program, the oxygen-enriching mechanism that feeds intake includes stock chest, feed hopper, discharging machine Structure, discharge gate, the bottom end of the stock chest and the top of discharging mechanism are integrated, the right end and storing of the feed hopper The left end of slot is mutually welded, and the discharge gate, which is set to, to be integrated with discharging mechanism bottom end, the discharge gate with discharging mechanism.

As advanced optimizing for the technical program, the discharging mechanism includes that oxygen-enriching mechanism, feed blow mechanism, feed Component, the left end that right end and the feed of the oxygen-enriching mechanism blow mechanism are mutually welded, and left end and the feed of the supply assembly are blown The right end phase of motivation structure is glued, and the oxygen-enriching mechanism is including oxygen container, movable shifting block, delivery conduit, pumping block, the oxygen container Left end and the right end of delivery conduit mutually weld, the bottom end for taking out block is set on the middle part top of delivery conduit, the activity The bottom end of shifting block is flexibly connected with the top for taking out block, and the pumping block is mutually welded with delivery conduit.

As advanced optimizing for the technical program, it includes exhaust pipe, rotation flabellum, sealing that the feed, which blows mechanism, Shell, the exhaust pipe are set to the bottom end of capsul, and the rotation flabellum insertion is mounted on the middle part of capsul, the exhaust pipe The left end of right end and supply assembly is mutually welded, and the exhaust pipe and sealing shell phase are glued.

As advanced optimizing for the technical program, the supply assembly includes feed link block, bellows, feed row Mouth is put, the bottom end of the feed link block is vertically welded with bellows, and the bellows is set to the top of feed discharge outlet, The left end of the feed discharge outlet and the right end of exhaust pipe mutually weld, and the bellows is mutually welded with feed discharge outlet.

As advanced optimizing for the technical program, the oxygenation component includes gas transmission connecting pipe, spray oxygen component, linking The bottom straight bar part insertion of block, the gas transmission connecting pipe is equipped with spray oxygen component, and the bottom end of the connecting block is connect with gas transmission Pipe has operative tip mutually to weld, and the top of the connecting block is mutually welded with the bottom end of feed collecting mechanism, the spray oxygen component Including half-duplex channel, one-way slabs, floating air bag, rotated pipe, left and right ends and the rotated pipe inner wall of the half-duplex channel Left and right ends are mutually welded, and the top left part hinge connection of the one-way slabs and rotated pipe, the one-way slabs is located at half-duplex channel Surface, the floating air bag is set to the left and right ends at the top of rotated pipe, and floating air bag insertion is mounted on rotation pipe On road.

As advanced optimizing for the technical program, the feed collecting mechanism includes sinking relocation mechanism, feed collection Component, connected with outer casing, the top of the sinking relocation mechanism and the bottom end of feed collection assembly left part are mutually welded, and the feed is received Collection component is located at the middle part of connected with outer casing, and the bottom end of the sinking relocation mechanism is mutually welded with the bottom end of connected with outer casing, the company The bottom end for connecing shell and the top of connecting block are mutually welded.

As advanced optimizing for the technical program, the sinking relocation mechanism includes air pump, inflates floating block, air inlet block, The right end of the air pump is connect with the left end of air inlet block by conduit, and the top of the inflation floating block is equipped with the bottom end of air inlet block, The inflation floating block is located at the lower right of air pump, and the top of the air pump and the left part bottom end of feed collection assembly are connected by conduit It connects, the inflation floating block is mutually glued with air inlet block.

As advanced optimizing for the technical program, the feed collection assembly include water flow twitch block, feed collecting tank, Chimney filter, drainpipe, the water flow twitch the left end that block level is welded on feed collecting tank, and the left end of the chimney filter and feed are collected The right end of slot mutually welds, and the drainpipe is set to the left end of chimney filter, and the water flow twitches the bottom end of block and the top of air pump passes through Conduit connection, the drainpipe are integrated with chimney filter.

As advanced optimizing for the technical program, the rotated pipe is long cylinder shape, and intermediate hollow out, lower section is equipped with The jet pipe of semi arch bend.

Beneficial effect

The present invention is equipped with the Acipenseridae fish breeding device of air bag, when carrying out using equipment, by launching body It in water water, is cultivated launching sturgeon, when feeding feed, by feeding intake, the stock chest on oxygen-enriching mechanism launches feed It comes on feed link block, is come on feed discharge outlet via bellows, while feed blows mechanism rotation flabellum rotation, pushes away Dynamic feed is fed in water surface movable, and when rotating fan-shaped rotation, motor will drive movable shifting block simultaneously and be rotated, Twitch up and down is matched with block is taken out, the oxygen in oxygen container is twitched via delivery conduit, is come on oxygenation component, only Gas transmission connecting pipe is come on spray oxygen component, and the half-duplex channel and one-way slabs washed open thereon are come in superjacent waters, provides oxygen to it Gas avoids fish when upper layer is fed, and upper layer oxygen demand greatly improves, and organic matter therein is made to carry out anaerobic digestion, point Solve a large amount of noxious agents damage water body environment, while the air pump after discharging feed one end time, on feed recovering mechanism It can start via control, the feed twitched on the water surface moves right, and twitches in block, is come in feed collecting tank into water flow, right Remaining feed is quickly collected on the water surface, and after twitching a period of time, air pump can stop being evacuated, then provides gas to air inlet block Body makes the filling of arriving for inflating floating block generate buoyancy, feed collecting mechanism is pushed to move up, so that water flow is twitched block remote with the water surface From, while the water in feed collecting tank can be flow on the water surface via chimney filter and drainpipe, and remaining buoyancy feed is avoided to swim in On the water surface, carry out being deposited in bottom dissipating through water suction bubble after a period of time, to be polluted to water body, for a long time with This, damages water body, is unfavorable for sturgeon survival.

For the prior art, the present invention passes through the modular construction to improve equipment；

1, make it when carrying out using feed is fed, it can over time, by feed collecting mechanism to drift The sturgeon that floats on the surface eats remaining feed and is collected, and remaining buoyancy feed is avoided to swim on the water surface, is passing through one section The water suction bubble of time dissipates and carries out being deposited in bottom, to pollute to water body, for a long time with this, causes brokenly to water body It is bad, it is unfavorable for sturgeon survival.

2, it can be matched simultaneously by feeding intake oxygen-enriching mechanism with oxygenation component, when feeding feed on water body Layer region adds dissolved oxygen, avoids because using buoyancy feed, the fish for assembling water flow upper layer are more, and oxygen in water disappears Consumption rapid increase causes the organic matter in the region to carry out anaerobic digestion, generates a large amount of harmful substance, cause brokenly to water body It is bad.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon:

Fig. 1 is the structural schematic diagram for the Acipenseridae fish breeding device that the present invention is equipped with air bag.

Fig. 2 is the cross section detailed construction schematic diagram before body of the present invention operation.

Fig. 3 is cross section detailed construction schematic diagram when body of the present invention is run.

Fig. 4 is the cross section detailed construction schematic diagram before discharging mechanism of the present invention operation.

Fig. 5 is cross section detailed construction schematic diagram when discharging mechanism of the present invention is run.

Fig. 6 is that feed collecting mechanism of the present invention runs preceding cross section detailed construction schematic diagram.

Fig. 7 is cross section detailed construction schematic diagram when feed collecting mechanism of the present invention is run.

Cross section detailed construction schematic diagram when Fig. 8 is present invention spray oxygen assembly operating.

In figure: guard ring -1, batch charger -2, body -3, air bag -4, the oxygen-enriching mechanism -31 that feeds intake, oxygenation component -32, outer Shell -33, feed collecting mechanism -34, stock chest -311, feed hopper -312, discharging mechanism -313, discharge gate -314, oxygen-enriching mechanism - 3131, feed blows mechanism -3132, supply assembly -3133, oxygen container -31311, movable shifting block -31312, delivery conduit - 31313, it takes out -31314 exhaust pipe -31321 of block, rotation flabellum -31322, capsul -313123, feed link block -31331, stretch Contracting hose -31332, gas transmission connecting pipe -321, spray oxygen component -322, connecting block -323, unidirectionally leads to feed discharge outlet -31333 Road -3221, one-way slabs -3222, floating air bag -3223, rotated pipe -3224, sinking relocation mechanism -341, feed collection group Part -342, connected with outer casing -343, air pump -3411, inflation floating block -3412, air inlet block -3413, water flow twitch block -3421, feed Collecting tank -3422, chimney filter -3423, drainpipe -3424.

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to Specific embodiment and Detailed description of the invention, the preferred embodiment that the present invention is further explained.

Embodiment

Fig. 1-Fig. 8 is please referred to, the present invention provides the Acipenseridae fish breeding device for being equipped with air bag, and structure includes guard ring 1, throws Material machine 2, body 3, air bag 4, the bottom end of the guard ring 1 and the top of body 3 are integrated, the bottom of the batch charger 2 It holds and is mutually welded with the top of guard ring 1, the level of the air bag 4 is welded on the bottom end of body 3, and the batch charger 2 is located at body 3 Surface, the body 3 includes feeding intake oxygen-enriching mechanism 31, oxygenation component 32, shell 33, feed collecting mechanism 34, the throwing The top of the bottom end and oxygenation component 32 of expecting oxygen-enriching mechanism 31 is mutually welded, and the bottom end of the oxygenation component 32 is set to the top of shell 33 End, the feed collecting mechanism 34 are vertically embedded on the top of shell 33, and the feed collecting mechanism 34 is located at material oxygenation The right of mechanism 31, the oxygenation component 32 and 33 phase of shell are welded, the oxygen-enriching mechanism 31 that feeds intake include stock chest 311, into Hopper 312, discharging mechanism 313, discharge gate 314, the bottom end of the stock chest 311 are integrated with the top of discharging mechanism 313 Structure, the right end of the feed hopper 312 are mutually welded with the left end of stock chest 311, and the discharge gate 314 is set to and discharging mechanism 313 bottom ends, the discharge gate 314 are integrated with discharging mechanism 313, and the discharging mechanism 313 includes oxygen-enriching mechanism 3131, feed blows mechanism 3132, supply assembly 3133, and the right end and feed of the oxygen-enriching mechanism 3131 blow mechanism 3132 Left end is mutually welded, and the right end that left end and the feed of the supply assembly 3133 blow mechanism 3132 is mutually glued, the oxygen-enriching mechanism 3131 include oxygen container 31311, movable shifting block 31312, delivery conduit 31313, pumping block 31314, the oxygen container 31311 Left end and the right end of delivery conduit 31313 mutually weld, and the middle part that the bottom end for taking out block 31314 is set to delivery conduit 31313 is pushed up On end, the bottom end of the activity shifting block 31312 is flexibly connected with the top for taking out block 31314, the pumping block 31314 and delivery conduit The welding of 31313 phases, it includes exhaust pipe 31321, rotation flabellum 31322, capsul 313123, institute that the feed, which blows mechanism 3132, The bottom end that exhaust pipe 31321 is set to capsul 313123 is stated, rotation flabellum 31322 insertion is mounted on capsul 313123 Middle part, the right end of the exhaust pipe 31321 are mutually welded with the left end of supply assembly 3133, the exhaust pipe 31321 and capsul 313123 phases are glued, and the supply assembly 3133 includes feed link block 31331, bellows 31332, feed discharge outlet 31333, the bottom end of the feed link block 31331 is vertically welded with bellows 31332, and the bellows 31332 is set to It is fed the top of discharge outlet 31333, the left end of the feed discharge outlet 31333 and the right end of exhaust pipe 31321 mutually weld, described Bellows 31332 and feed 31333 phase of discharge outlet welding, the oxygenation component 32 include gas transmission connecting pipe 321, spray oxygen component 322, the bottom straight bar part insertion of connecting block 323, the gas transmission connecting pipe 321 is equipped with spray oxygen component 322, the connecting block 323 bottom end has operative tip mutually to weld with gas transmission connecting pipe 321, the top of the connecting block 323 and feed collecting mechanism 34 bottom end is mutually welded, and the spray oxygen component 322 includes half-duplex channel 3221, one-way slabs 3222, floating air bag 3223, rotation pipe Road 3224, the left and right ends of the half-duplex channel 3221 and the left and right ends of 3224 inner wall of rotated pipe are mutually welded, described unidirectional Plate 3222 is connect with the top left part hinge of rotated pipe 3224, the one-way slabs 3222 be located at half-duplex channel 3221 just on Side, the floating air bag 3223 are set to the left and right ends at 3224 top of rotated pipe, and the insertion of floating air bag 3223 is mounted on On rotated pipe 3224, the feed collecting mechanism 34 includes sinking relocation mechanism 341, feed collection assembly 342, connected with outer casing 343, the top of the sinking relocation mechanism 341 and the bottom end of 342 left part of feed collection assembly are mutually welded, the feed collection group Part 342 is located at the middle part of connected with outer casing 343, and the bottom end of the sinking relocation mechanism 341 is mutually welded with the bottom end of connected with outer casing 343 It connects, the bottom end of the connected with outer casing 343 is mutually welded with the top of connecting block 323, and the sinking relocation mechanism 341 includes air pump 3411, floating block 3412, air inlet block 3413 are inflated, the right end of the air pump 3411 and the left end of air inlet block 3413 are connected by conduit It connects, the top of the inflation floating block 3412 is equipped with the bottom end of air inlet block 3413, and the inflation floating block 3412 is located at air pump 3411 Lower right, the top of the air pump 3411 are connect with the left part bottom end of feed collection assembly 342 by conduit, the inflation floating block 3412 is glued with air inlet block 3413 phase, the feed collection assembly 342 include water flow twitch block 3421, feed collecting tank 3422, Chimney filter 3423, drainpipe 3424, the water flow twitch the left end that 3421 level of block is welded on feed collecting tank 3422, the chimney filter 3423 left end and the right end of feed collecting tank 3422 mutually weld, and the drainpipe 3424 is set to the left end of chimney filter 3423, described The bottom end that water flow twitches block 3421 is connect with the top of air pump 3411 by conduit, and the drainpipe 3424 is one with chimney filter 3423 Body structure.

The rotated pipe 3224 is long cylinder shape, and intermediate hollow out, lower section is equipped with the jet pipe of semi arch bend, upper part Point left and right ends are set there are two valve block, and insertion is equipped with floating air bag 3223, can make the spout of rotated pipe 3224 court always On, to waters upper layer spray feed oxygen, keep its oxygen content.

When carrying out using equipment, by launching body 3 in water water, being cultivated, being thrown launching sturgeon When feeding material, feed is launched by the stock chest 311 on oxygen-enriching mechanism 31 that feeds intake and is come on feed link block 31331, warp It is come on feed discharge outlet 31333 by bellows 31332, while feed blows mechanism 3132 and rotates the rotation of flabellum 31322, pushes away Dynamic feed is fed in water surface movable, and when rotation sector 31322 rotates, motor will drive movable shifting block simultaneously 31312 are rotated, and twitch up and down are matched with block 31314 is taken out, via delivery conduit 31313 to the oxygen in oxygen container 31311 Gas is twitched, and is come on oxygenation component 32, and only gas transmission connecting pipe 321 is come on spray oxygen component 322, washes thereon unidirectional open Channel 3221 and one-way slabs 3222 are come in superjacent waters, provide oxygen to it, avoid fish when upper layer is fed, upper layer Oxygen demand greatly improves, and so that organic matter therein is carried out anaerobic digestion, decomposites a large amount of noxious agents damage water body environment, together When after discharging feed one end time, the air pump on feed recovering mechanism 34 can start via control, twitch the water surface on feed It moves right, is twitched in block 3421 into water flow, come in feed collecting tank 3422, feed remaining on the water surface is quickly received Collection, after twitching a period of time, air pump 3411 can stop being evacuated, then provide gas to air inlet block 3413, make to inflate floating block 3412 filling of arriving generates buoyancy, and feed collecting mechanism 34 is pushed to move up, and keeps water flow twitch block 3421 and the water surface separate, together When feed collecting tank 3422 in water can be flow on the water surface via chimney filter 3423 and drainpipe 3424, avoid remaining buoyancy feed It swims on the water surface, carries out being deposited in bottom dissipating through water suction bubble after a period of time, so that water body is polluted, For a long time with this, water body is damaged, is unfavorable for sturgeon survival.

Problems solved by the invention be existing equipment carry out using when, since paddlefish is fond of floatability feed, So the feed used for buoyancy feed, however, to ensure that paddlefish can obtain sufficient food, prevents phase between similar It mutually kills and devour, every time when feeding feed, is often launched than defined injected volume some to guarantee that every paddlefish obtains more To abundant feeding, although this method can make paddlefish obtain abundant feeding, remaining buoyancy feed floating is often had On the water surface, carry out being deposited in bottom dissipating through water suction bubble after a period of time, to pollute water body, for a long time With this, easily the water body living environment of paddlefish is impacted, while when carrying out dispensing feed, due to being raised using buoyancy Material, the fish for assembling water flow upper layer are more, and the consumption rapid increase of oxygen in water causes the organic matter in the region to carry out Anaerobic digestion generates a large amount of harmful substance, influences the normal cultivation of paddlefish, the present invention pass through above-mentioned component mutual group It closes, the present invention passes through the modular construction to improve equipment, makes it when carrying out using feed is fed, can be in a period of time Afterwards, it is collected by feed collecting mechanism 34 to swimming in sturgeon on the water surface and eat remaining feed, remaining buoyancy is avoided to raise Material is swum on the water surface, carries out being deposited in bottom dissipating through water suction bubble after a period of time, to cause dirt to water body Dye, for a long time with this, damages water body, is unfavorable for sturgeon survival, while when feeding feed, can be increased by feeding intake Oxygen mechanism 31 is matched with oxygenation component 32, adds dissolved oxygen to water body top area, avoids making water because using buoyancy feed The fish for flowing upper layer aggregation are more, the consumption rapid increase of oxygen in water, and the organic matter in the region is caused to carry out anaerobism point Solution, generates a large amount of harmful substance, damages to water body.

The basic principles, main features and advantages of the present invention have been shown and described above, the technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention can not only be realized in other specific forms under the premise of not departing from spirit of that invention or essential characteristic The present invention will also have various changes and improvements, these changes and improvements both fall within scope of the claimed invention, therefore this hair Bright claimed range is defined by appended claims and its equivalent, rather than above description limits.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (9)

1. being equipped with the Acipenseridae fish breeding device of air bag, structure includes guard ring (1), batch charger (2), body (3), air bag (4), The bottom end of the guard ring (1) and the top of body (3) are integrated, the bottom end and guard ring (1) of the batch charger (2) Top mutually weld, the level of the air bag (4) is welded on the bottom end of body (3), and the batch charger (2) is located at body (3) Surface, it is characterised in that:

The body (3) includes feed intake oxygen-enriching mechanism (31), oxygenation component (32), shell (33), feed collecting mechanism (34), institute The top of the bottom end and oxygenation component (32) of stating the oxygen-enriching mechanism that feeds intake (31) is mutually welded, and the bottom end of the oxygenation component (32) is set to The top of shell (33), the feed collecting mechanism (34) are vertically embedded on the top of shell (33), and the feed is collected Mechanism (34) is located at the right of material oxygen-enriching mechanism (31).

2. the Acipenseridae fish breeding device according to claim 1 equipped with air bag, it is characterised in that: the oxygen-enriching mechanism that feeds intake It (31) include stock chest (311), feed hopper (312), discharging mechanism (313), discharge gate (314), the bottom of the stock chest (311) It holds and is integrated with the top of discharging mechanism (313), the right end of the feed hopper (312) and the left end of stock chest (311) It mutually welds, the discharge gate (314) is set to and discharging mechanism (313) bottom end.

3. the Acipenseridae fish breeding device according to claim 2 equipped with air bag, it is characterised in that: the discharging mechanism It (313) include that oxygen-enriching mechanism (3131), feed blow mechanism (3132), supply assembly (3133), the oxygen-enriching mechanism (3131) The right end left end of blowing mechanism (3132) with feed mutually weld, the left end of the supply assembly (3133) and feed blow mechanism (3132) right end is mutually glued, and the oxygen-enriching mechanism (3131) is including oxygen container (31311), movable shifting block (31312), gas transmission Conduit (31313) takes out block (31314), and the left end of the oxygen container (31311) and the right end of delivery conduit (31313) mutually weld, The bottom end for taking out block (31314) is set on the middle part top of delivery conduit (31313), the bottom of the activity shifting block (31312) It holds and is flexibly connected with the top for taking out block (31314).

4. the Acipenseridae fish breeding device according to claim 3 equipped with air bag, it is characterised in that: the feed blows mechanism It (3132) include exhaust pipe (31321), rotation flabellum (31322), capsul (313123), the exhaust pipe (31321) is set to The bottom end of capsul (313123), rotation flabellum (31322) insertion are mounted on the middle part of capsul (313123), the row The right end of tracheae (31321) and the left end of supply assembly (3133) are mutually welded.

5. the Acipenseridae fish breeding device according to claim 3 or 4 equipped with air bag, it is characterised in that: the supply assembly It (3133) include feed link block (31331), bellows (31332), feed discharge outlet (31333), the feed link block (31331) bottom end is vertically welded with bellows (31332), and the bellows (31332) is set to feed discharge outlet (31333) top, the left end of feed discharge outlet (31333) and the right end of exhaust pipe (31321) mutually weld.

6. the Acipenseridae fish breeding device according to claim 1 equipped with air bag, it is characterised in that: the oxygenation component (32) Including gas transmission connecting pipe (321), spray oxygen component (322), connecting block (323), the bottom straight-bar portion of the gas transmission connecting pipe (321) Point insertion is equipped with spray oxygen component (322), and there are operative tip in the bottom end of the connecting block (323) and gas transmission connecting pipe (321) It mutually welds, the top of the connecting block (323) and the bottom end of feed collecting mechanism (34) are mutually welded, the spray oxygen component (322) Including half-duplex channel (3221), one-way slabs (3222), floating air bag (3223), rotated pipe (3224), the half-duplex channel (3221) left and right ends and the left and right ends of rotated pipe (3224) inner wall are mutually welded, the one-way slabs (3222) and rotation pipe The top left part hinge in road (3224) connects, and the one-way slabs (3222) is located at the surface of half-duplex channel (3221), described floating It takes offence the left and right ends of capsule (3223) at the top of rotated pipe (3224).

7. the Acipenseridae fish breeding device equipped with air bag according to claim 1 or 6, it is characterised in that: the feed is collected Mechanism (34) includes sinking relocation mechanism (341), feed collection assembly (342), connected with outer casing (343), the sinking floating engine The top of structure (341) and the bottom end of feed collection assembly (342) left part are mutually welded, and the feed collection assembly (342), which is located at, to be connected The middle part of shell (343) is connect, the bottom end of the sinking relocation mechanism (341) and the bottom end of connected with outer casing (343) are mutually welded, described The bottom end of connected with outer casing (343) and the top of connecting block (323) are mutually welded.

8. the Acipenseridae fish breeding device according to claim 7 equipped with air bag, it is characterised in that: the sinking relocation mechanism It (341) include air pump (3411), inflation floating block (3412), air inlet block (3413), the right end and air inlet block of the air pump (3411) (3413) left end is connected by conduit, and the top of inflation floating block (3412) is equipped with the bottom end of air inlet block (3413), described Inflation floating block (3412) is located at the lower right of air pump (3411), the top and feed collection assembly (342) of the air pump (3411) Left part bottom end pass through conduit connect.

9. the Acipenseridae fish breeding device according to claim 7 or 8 equipped with air bag, it is characterised in that: the feed is collected Component (342) includes that water flow twitches block (3421), feed collecting tank (3422), chimney filter (3423), drainpipe (3424), the water Stream twitches the left end that block (3421) level is welded on feed collecting tank (3422), and the left end of the chimney filter (3423) and feed are collected The right end of slot (3422) mutually welds, and the drainpipe (3424) is set to the left end of chimney filter (3423), and the water flow twitches block (3421) bottom end is connect with the top of air pump (3411) by conduit.