CN113728965A

CN113728965A - Oxygen supply device for soft-shelled turtle breeding

Info

Publication number: CN113728965A
Application number: CN202111112959.0A
Authority: CN
Inventors: 王国顺
Original assignee: Hunan Hezhou Ecological Turtle Breeding Co ltd
Current assignee: Changde Hezhou Aquatic Products Co ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2021-12-03
Anticipated expiration: 2041-09-23
Also published as: CN113728965B

Abstract

The invention discloses an oxygen supply device for turtle cultivation, which relates to the technical field of turtle cultivation equipment and comprises a cultivation pond body, wherein a cultivation groove is formed in the cultivation pond body, an oxygen supply groove is also formed in the cultivation pond body, and the oxygen supply groove is communicated with the cultivation groove through a water delivery assembly; compared with the traditional method that water in the culture tank is oxygenated directly through the aeration pipe, the method can prevent the turtles cultured in the culture tank from being disturbed, is convenient for the growth and reproduction of the turtles, and can not cause the turtles excrement, food residues and sludge precipitated in the culture tank to arouse diffused water, so that the water body is kept clean, and the requirement of the breeding habit of the turtles is met.

Description

Oxygen supply device for soft-shelled turtle breeding

Technical Field

The invention relates to the technical field of turtle breeding equipment, in particular to an oxygen supply device for turtle breeding.

Background

It is known that turtles are not only delicious dishes on dining tables, but also good materials of banquets and can be used as traditional Chinese medicine materials for medicine. The turtle meat has a plurality of nourishing medicinal effects, has the effects of clearing heat and nourishing yin, calming liver and calming wind, softening hardness and dissipating stagnation, and has the effects of treating liver cirrhosis, hepatosplenomegaly, infantile convulsion and the like, and the habit of turtles can be simply summarized as three fears of joy, three fears of fear, namely: the turtle is fond of cleaning and afraid of dirt, fond of yang and wind, fond of calmness and fright, is fond of inhabiting rivers, lakes, reservoirs, ponds and other water areas with clean water in natural environment, often lies on the sunny bank side to sun (commonly called as the back of the sun) in the calm daytime, kills pathogenic bacteria on the body surface by utilizing ultraviolet rays in the sunlight, promotes the healing of the injured body surface, and promotes the digestion of food by raising the body temperature through the back of the sun. The turtles are very small, sensitive to sound in the surrounding environment and movement of objects, and submerge into the water bottom as soon as wind blows grass.

If the bulletin number of authorizing is CN212813665U, the bulletin day is 2021.03.30, the name is "an oxygen supply apparatus for soft-shelled turtle is bred" Chinese utility model patent, its soft-shelled turtle breed oxygen supply apparatus's concrete structure includes the oxygen machine, the oxygen machine includes driving motor, driving motor one end is passed through the belt and is connected the pump machine, the pump machine bottom is equipped with the intake pipe, and the top is equipped with the outlet duct, be equipped with the muffler on the outlet duct, the outlet duct afterbody is equipped with an at least branch pipe of giving vent to anger, be equipped with the venthole of a plurality of quantities on the branch pipe of giving vent to anger. ,

the concrete structure of the device comprises a cement ground, a support frame is mounted on the cement ground, a fixing plate is arranged in the middle of the support frame, a slotted hole is formed in the middle of the fixing plate, a cylindrical barrel is fixedly connected to the lower end face of the fixing plate, a motor is arranged at the upper end of the fixing plate, a rotating shaft is rotatably connected to the front portion of the motor, a cam is rotatably connected to the front end of the rotating shaft, a roller is arranged right below the cam, a guide rod is arranged below the roller, a spring is sleeved at the upper end of the guide rod, a piston is fixedly connected to the lower end portion of the guide rod after penetrating through the slotted hole and is slidably connected with the cylindrical barrel, an air suction pipe is fixedly connected to the left end face of the cylindrical barrel, and a connecting pipe is fixedly connected to the right end face of the cylindrical barrel.

Above-mentioned application, be through the air supply pipe directly to breed the inside air feed in order to realize the oxygen suppliment, though above-mentioned utility model patent of back is through being equipped with the muffler on the outlet duct, fill sound-proof material in its inside, noise when can effectual reduction equipment operation, do benefit to the growth of soft-shelled turtle, but the inside at the breed pond is directly laid to its outlet duct, can the frightening soft-shelled turtle when carrying out the oxygen suppliment, influence the soft-shelled turtle and grow and breed, simultaneously because the soft-shelled turtle life habit likes and clean and afraid of dirty, when directly carrying out the oxygen suppliment to breeding the pond, can lead to breeding the soft-shelled turtle excrement and urine that deposits in the pond, food waste and silt arouse the aquatic of diffusion, lead to the water muddy dirtying, the growth and the reproduction of same unfavorable and soft-shelled turtle.

Disclosure of Invention

The invention aims to provide an oxygen supply device for turtle breeding, which aims to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: an oxygen supply device for turtle cultivation comprises a cultivation pond body, wherein a cultivation groove is formed in the cultivation pond body, an oxygen supply groove is also formed in the cultivation pond body, and the oxygen supply groove is communicated with the cultivation groove through a water delivery assembly; and an oxygen increasing pipe is arranged in the oxygen supply groove and is used for increasing oxygen to the water in the oxygen supply groove.

As a further description of the above technical solution: the bottom of the culture tank is far away from one side of the outlet end of the slow flow water supply mechanism, a circulating connecting pipe is arranged, and the other end of the circulating connecting pipe is communicated with the bottom of the oxygen supply tank.

As a further description of the above technical solution: be provided with guide rail assembly in the oxygen suppliment groove, the oxygenation pipe activity sets up on the guide rail assembly, the bottom of oxygenation pipe still is provided with drive assembly, drive assembly is in when the oxygenation pipe oxygen suppliment synchronous drive oxygenation pipe is followed guide rail assembly removes.

As a further description of the above technical solution: the guide rail subassembly includes guide rail frame and lower guide rail frame, it is arc limit rectangle structure to go up guide rail frame and lower guide rail frame, it fixes the inboard at the oxygen suppliment groove through first engaging lug to go up the guide rail frame, go up the inside and outside integrated into one piece in week of guide rail frame and have the bar flange.

As a further description of the above technical solution: the lower guide rail frame is fixed on the inner side of the oxygen supply groove through a second connecting lug and is positioned at the bottom of the upper guide rail frame, and the inner peripheral side of the lower guide rail frame is uniformly provided with adjusting convex teeth.

As a further description of the above technical solution: the oxygenation pipe comprises a pipe body, the top end of the pipe body is connected with an end seat, a connecting piece for sliding connection with the upper guide rail frame is arranged on the end seat, and a plurality of air supply through holes are formed in the bottom of the periphery of the pipe body.

As a further description of the above technical solution: the connecting piece includes that two rotate to connect the gyro wheel at the end socket top, and two the week side of gyro wheel all sets up the annular groove that joint bar flange used.

As a further description of the above technical solution: the transmission assembly comprises a center rod, the center rod rotates to be arranged in the tube body, rotating blades are fixed on the center rod, the height of each rotating blade is higher than that of the air supply through hole, the bottom end of the center rod extends to the outer side of the tube body and is connected with an adjusting gear, and the adjusting gear is meshed with adjusting convex teeth on the lower guide rail frame.

As a further description of the above technical solution: the air supply pump is further installed on the culture pond body, the outlet end of the air supply pump is communicated with a connecting hose, air supply connectors are arranged on the peripheral sides of the end seats, and the air supply connectors are communicated with the connecting hose through rotating connecting seats.

As a further description of the above technical solution: the water delivery subassembly includes slow flow water supply mechanism, slow flow water supply mechanism includes water pump and slow flow cover, the water pump sets up in the oxygen suppliment groove, the exit linkage of water pump has the delivery pipe, the delivery pipe runs through and extends to breed the inboard top in groove, slow flow cover is fixed breed on the inslot wall and with the delivery pipe corresponds, a plurality of circular through-holes have evenly been seted up to slow flow cover's lateral surface.

In the technical scheme, the oxygen supply device for turtle cultivation provided by the invention is characterized in that the oxygen supply groove is arranged on one side of the cultivation groove in the cultivation pool, the oxygen supply pipe is arranged in the oxygen supply groove to supply oxygen to the water in the oxygen supply groove and then convey the oxygen-enriched water into the cultivation groove to realize the oxygen-enriched treatment of the water in the cultivation groove, compared with the traditional method of directly supplying oxygen to the water in the cultivation groove through the aeration pipe, the oxygen-enriched device can prevent the turtles cultivated in the cultivation groove from being disturbed, is convenient for the turtles to grow and breed, does not cause the turtles feces, food residues and sludge precipitated in the cultivation groove to arouse the diffused water, keeps the water clean, meets the cultivation habit requirements and prevents the turtles from diseases, and further, the cultivation groove is communicated with the oxygen supply groove through the circulating connection pipe to realize the oxygen supply regulation of the cultivation groove and is matched with the filter assembly, realize the circulation and carry out filtration purification to breeding the groove, further improve the cleanliness factor of the water in breeding the groove.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic structural diagram of an overall oxygen supply device for turtle breeding according to an embodiment of the present invention;

fig. 2 is a schematic internal structure diagram of an oxygen supply device for turtle breeding according to an embodiment of the present invention;

fig. 3 is a side view of an oxygen supply device for turtle breeding according to an embodiment of the present invention;

fig. 4 is a top view of an oxygen supply device for turtle breeding according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an upper rail bracket according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a lower rail bracket according to an embodiment of the present invention;

fig. 7 is a schematic structural view of an oxygen increasing tube according to an embodiment of the present invention;

fig. 8 is a schematic view of an assembly structure of the oxygen increasing tube and the transmission assembly according to the embodiment of the present invention;

fig. 9 is a schematic structural view of a slow flow water supply mechanism according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a filter assembly according to an embodiment of the present invention.

Description of reference numerals:

1. a culture pond body; 11. a culture tank; 12. an oxygen supply tank; 13. a blow-off pipe; 14. a drain pipe; 2. an air supply pump; 21. a connecting hose; 3. a circulating connection pipe; 31. a control valve; 4. a slow flow water supply mechanism; 41. a water pump; 42. a water supply pipe; 43. a slow flow cover; 44. a circular through hole; 5. an oxygenation pipe; 51. an end seat; 52. a connecting member; 53. a gas supply joint; 54. a pipe body; 55. an air supply through hole; 6. a guide rail assembly; 61. an upper guide rail bracket; 611. a first connecting lug; 612. a strip flange; 62. a lower guide rail bracket; 621. adjusting the convex teeth; 622. a second engaging lug; 7. a transmission assembly; 71. a center pole; 72. a rotor blade; 73. an adjusting gear; 8. a filter assembly; 81. a rectangular frame; 82. filtering with a screen; 83. a U-shaped cleaning frame; 84. cleaning a scraper; 85. a joint seat.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 10, an embodiment of the present invention provides a technical solution: an oxygen supply device for turtle breeding comprises a breeding pond body 1, wherein a breeding groove 11 is formed in the breeding pond body 1, an oxygen supply groove 12 is also formed in the breeding pond body 1, and the oxygen supply groove 12 is communicated with the breeding groove 11 through a water delivery assembly; the oxygen supply tank 12 is provided with an oxygen supply pipe 5, and the oxygen supply pipe 5 is used for supplying oxygen to the water in the oxygen supply tank 12.

The oxygen supply device for the turtle breeding device provided by the embodiment is used for turtle breeding and breeding, and specifically comprises a breeding pond body 1, a breeding groove 11 and an oxygen supply groove 12 are separated from the breeding pond body 1 along the length direction of the breeding pond body by a partition plate, the bottom of the breeding groove 11 is communicated with a drain pipe 14, an oxygen supply pipe 5 is arranged in the oxygen supply groove 12, the oxygen supply pipe 5 is used for being connected with an external air supply unit to supply oxygen to water in the oxygen supply groove 12, the oxygen supply groove 12 is communicated with the breeding groove 11 through a water supply assembly, namely after the oxygen supply pipe 5 supplies oxygen to the water in the oxygen supply groove 12, the oxygen-enriched water in the oxygen supply groove 12 is conveyed to the breeding groove 11 through the water supply assembly to supply oxygen to the breeding groove 11, optionally, the water supply assembly is a water pump matched with a water pipe to supply the oxygen-enriched water treated in the oxygen supply groove 12 to the breeding groove 11, and the turtle breeding device provided by the embodiment, one side of breeding groove 11 in breeding pond body 1 sets up oxygen suppliment groove 12, carry out oxygenation through set up oxygenation pipe 5 in oxygen suppliment groove 12 to oxygen suppliment groove 12 normal waters and then carry the water of oxygen enrichment to breeding in the groove 11 in order to realize carrying out oxygenation to the water of breeding in the groove 11, compare with traditional direct aeration pipe to breeding 11 normal waters and carry out oxygenation, can prevent to cause the frightening to the soft-shelled turtle of breeding in the groove 11, be convenient for the soft-shelled turtle grows and breeds, can not cause the soft-shelled turtle excrement and urine that deposits in breeding the groove 11 simultaneously, food waste and silt arouse the aquatic of diffusion, make the water keep clean, satisfy soft-shelled turtle breed habit demand, prevent that the disease from appearing in the soft-shelled turtle.

In another embodiment provided by the invention, a circulating connecting pipe 3 is arranged at one side of the bottom of the culture tank 11 far away from the outlet end of the water delivery assembly, and the other end of the circulating connecting pipe 3 is communicated with the bottom of the oxygen supply tank 12. Be provided with control valve 31 among the circulating connection pipe 3, control valve 31 is used for adjusting the switch of circulating connection pipe 3, circulating connection pipe 3 is provided with two altogether, two symmetries set up 1 outside both sides of breed pond body, will breed groove 11 and oxygen suppliment groove 12 through setting up circulating connection pipe 3 and communicate, carry to breed in the groove 11 when carrying oxygen-enriched water to the groove 12 of oxygen suppliment through water delivery subassembly in with oxygen suppliment groove 12, when handling the oxygen suppliment in breeding the groove 11 with the realization, circulating connection pipe 3 is with breeding the water circulation of groove 11 bottom water delivery subassembly exit end far away and is circulated to oxygen suppliment groove 12 in, adjust breeding groove 11 with realizing the circulation, need not continuously to supply water in the oxygen suppliment groove 12, water economy resource.

In still another embodiment of the present invention, a guide rail assembly 6 is disposed in the oxygen supply tank 12, the guide rail assembly 6 includes an upper guide rail frame 61 and a lower guide rail frame 62, the upper guide rail frame 61 and the lower guide rail frame 62 are arc-edge rectangular structures, wherein the arc-edge rectangular structures, that is, the upper guide rail frame 61 and the lower guide rail frame 62 include two linear guide rails arranged in parallel, the two linear guide rails arranged in parallel are connected between two ends of the guide rails located on the same side by a semicircular guide rail, the upper guide rail frame 61 is fixed on the inner side of the oxygen supply tank 12 by a first connecting lug 611, the lower guide rail frame 62 is fixed on the inner side of the oxygen supply tank 12 by a second connecting lug 622 and located at the bottom of the upper guide rail frame 61, the inner peripheral side of the lower guide rail frame 62 is uniformly provided with adjusting convex teeth 621, the oxygen supply tube 5 is movably disposed on the guide rail assembly 6, the oxygen supply tube 5 includes a tube body 54, the top end of the tube body 54 is connected with an end seat 51, the end seat 51 is provided with a connecting piece 52 for sliding connection with the upper guide rail frame 61, the tube 54 has a plurality of air supply through holes 55 formed in the bottom of the circumference thereof. The bottom end of the oxygen increasing pipe 5 is also provided with a transmission component 7, the transmission component 7 synchronously drives the oxygen increasing pipe 5 to move along the guide rail component 6 when the oxygen increasing pipe 5 supplies oxygen, the transmission component 7 comprises a central rod 71, the central rod 71 is rotatably arranged in the pipe body 54, and the center rod 71 is fixed with a rotating blade 72, the height of the rotating blade 72 is higher than that of the air supply through hole 55, the bottom end of the center rod 71 extends to the outer side of the tube body 54 and is connected with an adjusting gear 73, the adjusting gear 73 is engaged with an adjusting convex tooth 621 on the lower rail bracket 62, wherein, the circumferential side of the adjusting gear 73 is provided with an annular groove which is matched with the lower guide rail frame 62, the inside of the annular groove is evenly provided with driving convex teeth, that is, the adjusting gear 73 is engaged with the lower rail frame 62 through the annular groove on the peripheral side thereof, and the driving teeth inside the annular groove are engaged with the adjusting teeth 621 on the lower rail frame 62.

The end seat 51 fixed on the top end of the tube 54 is slidably connected to the upper rail frame 61 through the connector 52, optionally, the connector 52 is a U-shaped sleeve, that is, the U-shaped sleeve is fixed on the top end of the end seat 51 and is slidably clamped on the upper rail frame 61, when the oxygenation pipe 5 is connected to an external air supply unit to supply oxygen to the water in the oxygen supply tank 12, the air supply unit delivers air to the oxygenation pipe 5, the air passes through the oxygenation pipe 5 and cooperates with the rotating blade 72 to drive the central rod 71 to rotate, the central rod 71 drives the adjusting gear 73 to rotate, because the adjusting gear 73 is engaged with the adjusting convex tooth 621 on the lower rail frame 62, the oxygenation pipe 5 moves along the upper rail frame 61 and the lower rail frame 62 when the adjusting gear 73 rotates, and simultaneously, the air is ejected from the plurality of air supply through holes 55 formed at the circumferential bottom of the tube 54 after entering the tube 54, so that the oxygen in the air is dissolved in the water in the oxygen supply tank 12, finally realize connecting outside air feed unit through oxygenation pipe 5 and realizing carrying out the oxygen suppliment to the water in the oxygen suppliment groove 12 in, cooperation drive assembly 7 makes oxygenation pipe 5 remove in order to realize carrying out even oxygenation to water in the oxygen suppliment groove 12 along upper guideway frame 61 and lower guideway frame 62, prevents that single position oxygenation from leading to a large amount of gaseous direct diffusion, causes the waste, influences the homogeneity of aquatic dissolved oxygen simultaneously.

In still another embodiment of the present invention, preferably, a stirring frame (not shown in the drawings) is sleeved on the circumference of the oxygen increasing tube 5 when the oxygen increasing tube 5 is detachable, optionally, the stirring frame is two semicircular combined anchor ear frames, a side frame is connected between the two anchor ear frames at equal angles, stirring blades are arranged on the outer sides of the side frames, the two anchor ear frames are fixed on the oxygen increasing tube 5 through bolts, when the oxygen increasing tube 5 is connected with an external air supply unit to realize oxygen supply to water in the oxygen supply tank 12, the oxygen increasing tube 5 is moved along the upper rail frame 61 and the lower rail frame 62 to realize uniform oxygen increase to water in the oxygen supply tank 12 in cooperation with the transmission assembly 7, and when a sterilization agent or a liquid medicine needs to be added to the water, the agent or the liquid medicine can be added to the water in the oxygen supply tank 12, then the oxygen increasing tube 5 is matched with the stirring frame to realize mixing and stirring, so that the functions of the oxygen increasing tube 5 are more diversified, providing convenience for workers.

In still another embodiment of the present invention, it is preferable that the upper rail frame 61 is integrally formed with a strip-shaped flange 612 on the inner and outer sides of the circumference side. The connecting member 52 includes two rollers rotatably connected to the top of the end seat 51, and the peripheral sides of the two rollers are both provided with annular grooves for engaging with the strip-shaped flanges 612. Further, there are bar flange 612 in the inboard and outside integrated into one piece of last guide rail frame 61 week side, connecting piece 52 sets up to be two gyro wheels of rotating the connection on end seat 51, annular groove is seted up to two gyro wheel week sides, when carrying out sliding connection through connecting piece 52 and last guide rail frame 61, two gyro wheels distribute in the both sides of last guide rail frame 61, annular groove distribution joint on two gyro wheels is at the inside and outside integrated into one piece's bar flange 612 of week side of last guide rail frame 61, the regulation of removing is realized through the commentaries on classics of two gyro wheels, reduce the frictional force of removal, improve the stability that oxygenation pipe 5 removed.

In another embodiment of the present invention, the air supply pump 2 is further installed on the culture pond body 1, the outlet end of the air supply pump 2 is communicated with the connection hose 21, the air supply connector 53 is arranged on the peripheral side of the end seat 51, and the air supply connector 53 is communicated with the connection hose 21 through a rotary connection seat. That is, the air supply pump 2 supplies air in cooperation with the connection hose 21, the connection hose 21 communicates with the end base 51 through the air supply joint 53 to supply air to the inside of the pipe body 54 connected to the end base 51, and finally, the air is ejected from the plurality of air supply through holes 55 opened in the circumferential bottom of the pipe body 54 so that oxygen in the air is dissolved in the water in the oxygen supply tank 12.

In another embodiment of the present invention, the water delivery assembly includes a slow flow water supply mechanism 4, the slow flow water supply mechanism 4 includes a water pump 41 and a slow flow cover 43, the water pump 41 is disposed in the oxygen supply tank 12, an outlet of the water pump 41 is connected to a water supply pipe 42, the water supply pipe 42 extends through the top of the inner side of the cultivation tank 11, the slow flow cover 43 is fixed on the inner wall of the cultivation tank 11 and corresponds to the water supply pipe 42, and a plurality of circular through holes 44 are uniformly formed on the outer side surface of the slow flow cover 43. Through the rich oxygen water in the water pump 41 extraction oxygen suppliment groove 12, then cooperate delivery pipe 42 to carry to breeding in the groove 11, and set up the cover 43 that slowly flows with delivery pipe 42's exit position department on breeding groove 11, cover 43 that slowly flows corresponds delivery pipe 42 position department and is the baffle structure, the baffle inboard is stained with the buffering sponge, in order to reduce the water supply noise, the bottom that is located the baffle is the inclined plane structure, evenly seted up circular through-hole 44 on the inclined plane and entered into breeding groove 11 with rivers tilting water conservancy diversion, thereby realize that cooperation circulating connection pipe 3 realizes carrying out the oxygenation of circulating to the water whole in breeding groove 11 and handle.

In another embodiment of the present invention, a filtering component 8 is disposed at the bottom of the oxygen supply pipe 5 inside the oxygen supply tank 12, the filtering component 8 is disposed above the interface of the circulation connection pipe 3 and the oxygen supply tank 12, the filtering component 8 includes a rectangular frame 81 installed in the oxygen supply tank 12, the rectangular frame 81 is provided with a filter screen 82, water in the cultivation tank 11 enters the oxygen supply tank 12 through the filtering component 8 for filtering, the oxygen supply tank 12 is connected with a drain pipe 13, the drain pipe 13 is used for cleaning and discharging impurities filtered by the filtering component 8 in the oxygen supply tank 12, the filtering component 8 is disposed to synchronously realize circulation to filter and purify the cultivation tank 11 when the circulation type oxygen supply adjustment is performed on the cultivation tank 11, and further to improve the cleanliness of the water in the cultivation tank 11.

In still another embodiment of the present invention, preferably, the filtering component 8 is provided with a cleaning mechanism, the cleaning mechanism is in transmission connection with the oxygen increasing pipe 5, that is, when the oxygen increasing pipe 5 moves along the upper guide rail frame 61 and the lower guide rail frame 62 to achieve uniform oxygen increase of water in the oxygen supply tank 12, the oxygen increasing pipe 5 synchronously drives the cleaning mechanism to clean the bottom of the filtering component 8, so as to prevent the filtering component 8 from being blocked by the attached impurities, and achieve automatic cleaning of the filtering component 8, the use is more convenient, the cleaning mechanism comprises strip-shaped through holes and a U-shaped cleaning frame 83 which are arranged along the length direction of two side edges of the rectangular frame 81, two side frames of the U-shaped cleaning frame 83 are slidably embedded in the two strip-shaped through holes, the bottom ends of two side frames of the U-shaped cleaning frame 83 are connected with a cleaning scraper 84, the cleaning scraper 84 is mutually attached to the bottom of the filtering net 82, the U-shaped cleaning frame 83 is slidably sleeved with a joint seat 85, the joint holder 85 is rotatably connected to the adjustment gear 73.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims

1. The utility model provides an oxygen supply device is bred to soft-shelled turtle, includes breeds pond body (1), have one in breed pond body (1) and breed groove (11), its characterized in that:

the culture pond body (1) is also provided with an oxygen supply groove (12), and the oxygen supply groove (12) is communicated with the culture groove (11) through a water delivery assembly;

an oxygen increasing pipe (5) is arranged in the oxygen supply groove (12), and the oxygen increasing pipe (5) is used for increasing oxygen for water in the oxygen supply groove (12).

2. An oxygen supply device for turtle cultivation according to claim 1, wherein a circulation connection pipe (3) is disposed at a side of the bottom of the cultivation tank (11) away from the outlet end of the water delivery assembly, and the other end of the circulation connection pipe (3) is communicated with the bottom of the oxygen supply tank (12).

3. The turtle breeding oxygen supply device according to claim 1, wherein a guide rail assembly (6) is disposed in the oxygen supply tank (12), the oxygen supply pipe (5) is movably disposed on the guide rail assembly (6), a transmission assembly (7) is further disposed at a bottom end of the oxygen supply pipe (5), and the transmission assembly (7) synchronously drives the oxygen supply pipe (5) to move along the guide rail assembly (6) when the oxygen supply pipe (5) supplies oxygen.

4. The oxygen supply device for turtle breeding according to claim 3, wherein the guide rail assembly (6) comprises an upper guide rail frame (61) and a lower guide rail frame (62), the upper guide rail frame (61) and the lower guide rail frame (62) are arc-edge rectangular structures, the upper guide rail frame (61) is fixed on the inner side of the oxygen supply groove (12) through a first connecting lug (611), and strip-shaped flanges (612) are integrally formed inside and outside the periphery of the upper guide rail frame (61).

5. The oxygen supply device for turtle breeding according to claim 4, wherein the lower rail frame (62) is fixed inside the oxygen supply tank (12) through the second connecting lug (622) and is located at the bottom of the upper rail frame (61), and the inner circumferential side of the lower rail frame (62) is uniformly provided with adjusting convex teeth (621).

6. The oxygen supply device for turtle breeding according to claim 4, wherein the oxygen supply tube (5) comprises a tube body (54), an end base (51) is connected to the top end of the tube body (54), a connecting piece (52) which is connected with the upper guide rail frame (61) in a sliding manner is arranged on the end base (51), and a plurality of air supply through holes (55) are formed in the bottom of the circumferential side of the tube body (54).

7. The oxygen supply device for turtle breeding according to claim 6, wherein the connecting member (52) comprises two rollers rotatably connected to the top of the end seat (51), and the two rollers are provided with annular grooves on the peripheral sides for clamping the strip-shaped flanges (612).

8. An oxygen supply device for turtle breeding according to claim 6, wherein the transmission assembly (7) comprises a central rod (71), the central rod (71) is rotatably disposed in the tube (54), a rotating blade (72) is fixed on the central rod (71), the height of the rotating blade (72) is higher than that of the air supply through hole (55), the bottom end of the central rod (71) extends to the outside of the tube (54) and is connected with an adjusting gear (73), and the adjusting gear (73) is engaged with the adjusting convex teeth (621) on the lower rail frame (62).

9. An oxygen supply device for turtle cultivation according to claim 6, wherein the cultivation pool body (1) is further provided with an air supply pump (2), the outlet end of the air supply pump (2) is communicated with a connection hose (21), an air supply joint (53) is arranged on the peripheral side of the end seat (51), and the air supply joint (53) is communicated with the connection hose (21) through a rotation connection seat.

10. The turtle breeding oxygen supply device according to claim 1, wherein the water delivery assembly comprises the slow flow water supply mechanism (4), the slow flow water supply mechanism (4) comprises a water pump (41) and a slow flow cover (43), the water pump (41) is disposed in the oxygen supply tank (12), an outlet of the water pump (41) is connected with a water supply pipe (42), the water supply pipe (42) penetrates through and extends to the top of the inner side of the breeding tank (11), the slow flow cover (43) is fixed on the inner wall of the breeding tank (11) and corresponds to the water supply pipe (42), and a plurality of circular through holes (44) are uniformly formed in the outer side surface of the slow flow cover (43).