CN111602624A - Multi-level indoor lobster breeding box - Google Patents

Abstract

The invention discloses a multi-level indoor lobster breeding box, wherein an upper cover is arranged at the top of the breeding box, the middle parts of the left side and the right side of the breeding box are fixedly connected with one end of a first water pipe and one end of a second water pipe, the breeding box is placed at the top of the second breeding box, the breeding box is placed at the top of a waste material box, the middle parts of the left side and the right side of the waste material box are fixedly connected with one end of a third water pipe and one end of a fourth water pipe, the other end of the fourth water pipe is fixedly connected with one end of a water suction pump, the other end of the first water pipe is fixedly connected with one end of the second water suction pump, the other end of the second water pipe is fixedly connected with one end of a water suction pump, the other end of the third water pipe is fixedly connected with one; by adopting the structure, a user can conveniently control the water temperature in the box body, the quality of water in the box body is improved, and the shrimp culture efficiency is improved.

Description

Multi-level indoor lobster breeding box

Technical Field

The invention relates to the technical field of lobster breeding devices, in particular to a multi-level indoor lobster breeding box.

Background

The crayfish is shaped like a shrimp and has hard shell, an adult is about 5.6 to 11.9 centimeters long, the whole color comprises red, reddish brown and pink, the back is dark red with sauce, the two sides are pink, the crayfish has orange or white spots, the crayfish inhabits a permanent stream and a marsh and has extremely wide adaptability. However, the growth of the lobsters has higher requirements on water temperature, the yield of the existing field lobster breeding technology is greatly influenced by the temperature, particularly in winter, the requirements of the crayfishes on water quality are higher, and in the indoor breeding of the breeding box, the water quality in the breeding box is easy to deteriorate due to the residue of food residues and the like, so that the breeding results of the crayfishes are influenced.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide the multi-layer indoor lobster breeding box, which is convenient for a user to control the water temperature in the box body, improves the quality of water in the box body and improves the shrimp breeding efficiency.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a case is bred to multi-level indoor lobster, includes breeds case one, breeds case two, breed case one top and install the upper cover, breed the one end of case one left and right sides middle part fixedly connected with water pipe one and water pipe two, breed case one and place at two tops of breeding the case, breed case two and place at the dump bin top, dump bin left and right sides middle part fixedly connected with water pipe three and the one end of water pipe four, water pipe four other end fixedly connected with suction pump one end, water pipe one other end fixedly connected with suction pump two one end, water pipe two other end fixedly connected with suction pump three one end, water pipe three other end fixedly connected with suction pump four ends, suction pump one and two other end fixedly connected with heating system of suction pump, suction pump three and four other end fixedly connected with cooling system of suction pump.

The first breeding box comprises a first breeding box body, a first fixed plate, a first stainless steel dense-grain net, a first oxygenation plate, a first water inlet pipe, a first oxygenation machine, a first oxygenation pipe, a first sand head and a first shrimp larva living area, the upper end of the interior of the first breeding box body is provided with a first fixing plate in a sliding way, the bottom of the first fixing plate is provided with a first stainless steel microgroove net in a sliding way, the bottom end of the interior of the first breeding box body is fixedly connected with a first oxygenation plate, the top of the first oxygenation plate is fixedly provided with a first sand head, one end of an oxygen charging pipe is fixedly connected with the front end of the oxygen charging plate, the other end of the oxygen charging pipe is fixedly connected with a first oxygen charger, the first oxygenator is fixedly arranged on the front surface of the breeding box body, the first water inlet pipe is fixedly arranged on the top of the front surface of the breeding box body, the first water inlet pipe is provided with a third valve, and the first breeding box body, the first fixed plate and the first stainless steel dense-grain net form a first shrimp larva living area.

Breed two including breeding two case boxes, two fixed plates, the dense line net of stainless steel two, oxygenate board two, oxygenating machine two, two oxygen tubes, two sand heads, shrimp seedling living area two, breed two inside upper end slidable mounting of two case boxes has fixed plate two, two bottom slidable mounting of fixed plate has the dense line net of stainless steel two, breed two inside bottom fixedly connected with of case box and oxygenate board two, oxygenate two top fixed mounting of board two there is sand head two, oxygenate two front end fixedly connected with oxygen tubes one end of two oxygen tubes, two other end fixedly connected with oxygenating machine two of oxygen tubes, two fixed mounting of oxygenating machine openly at breeding two case boxes, breed two case boxes, two fixed plates and the dense line net of stainless steel two constitution shrimp seedling living area two.

As a further scheme of the invention: the top end of the interior of the first oxygen charging plate is symmetrically provided with a first sliding groove, the bottom end of the front face of the first oxygen charging plate is provided with a first supporting plate, the left side and the right side of the first oxygen charging plate are provided with a fourth water inlet pipe and a fifth water inlet pipe, the top of the first oxygen charging plate is provided with a first mounting groove, the bottoms of the first fixing plates are slidably mounted with a first stainless steel dense-grain net, the two sides of the first fixing plate are provided with second bosses, the two fixing plates are slidably mounted in the first sliding groove through the second bosses, the top of the first oxygen charging plate is provided with a third boss, the center of the third boss is provided with a second oxygen charging hole, the first oxygen charging hole is fixedly connected with a first sand head, the first sand head is wrapped with a layer of water filtering gauze, the first oxygen charging hole is formed in the first oxygen charging plate, the first oxygen charging hole penetrates through the right end of, be equipped with valve four on the oxygen filling pipe one, oxygen filling pipe one air inlet fixedly connected with oxygen filling machine one, oxygen filling machine one fixed mounting is in backup pad one, the outer end inlet tube four is equipped with valve six, the outer end inlet tube five is equipped with valve seven, mounting groove one has been seted up all around to the upper cover bottom, the upper cover is installed on installation boss one through mounting groove one, rubber seal has been placed to mounting groove two insidely.

As a further scheme of the invention: the top end of the interior of the second box body of the culture box is symmetrically provided with a second chute, the bottom end of the front side of the second box body of the culture box is provided with a second support plate, the top of the second box body of the culture box is provided with a second mounting groove, the bottoms of the second two fixed plates are slidably provided with a second stainless steel dense-grain net, two sides of the second fixed plates are provided with fourth bosses, the two second fixed plates are slidably mounted in the second chute through the fourth bosses, the top of the second oxygenation plate is provided with a fifth boss, the center of the fifth boss is provided with a fourth oxygenation hole, the fourth oxygenation hole is fixedly connected with a second sand head, the outer part of the second sand head is wrapped with a second layer of water filtering gauze, the interior of the second oxygenation plate is provided with a third oxygenation hole, the third oxygenation hole penetrates through the right end of the second oxygenation plate, the third oxygenation hole is fixedly connected with a, and a second oxygen filling machine is fixedly connected to the air inlet of the second oxygen filling pipe and fixedly mounted on the second supporting plate, and a rubber sealing ring is placed in the third mounting groove.

As a further scheme of the invention: the cooling system comprises a cooling cover, a first hinge, a cooling fin, a second water inlet pipe, a second water outlet pipe and a cooling water tank, wherein the cooling water tank is rotatably connected with the cooling cover through one hinge, the cooling fin is fixedly arranged in the cooling water tank, the second water outlet pipe is arranged at the top of the left side of the cooling water tank, the second water inlet pipe is arranged at the bottom of the left side of the cooling water tank, a fourth water inlet pipe fixedly connected suction pump is arranged, and a third water outlet pipe fixedly connected suction pump is arranged.

As a further scheme of the invention: heating system includes heating lid, two hinges, heating rod, inlet tube three, outlet pipe three and heating water tank, heating water tank rotates through two hinges and is connected with the heating lid, the inside fixed mounting of heating water tank has the heating rod, heating water tank right side top is equipped with outlet pipe three, heating water tank right side bottom is equipped with inlet tube three, three fixed connection suction pumps of inlet tube one, three fixed connection suction pumps of outlet pipe two.

As a further scheme of the invention: the waste material case top is equipped with boss one, apopore two has been seted up to waste material case left side bottom, waste material case right side bottom is equipped with apopore three, apopore one has been seted up to waste material case front bottom, apopore one fixedly connected with outlet pipe one, three fixed mounting of apopore have water pipe three, be equipped with valve one on the water pipe three, two fixed mounting of apopore have water pipe four, be equipped with valve two on the water pipe four, be equipped with valve five on the outlet pipe one.

As a further scheme of the invention: the tops of the first oxygenation plate and the second oxygenation plate are in an inverted V shape.

As a further scheme of the invention: this multi-level indoor lobster breeding case use step:

step one, placing the installed breeding box II at the top of the waste material box, sealing the breeding box I through the matching of a boss I and a rubber sealing ring at the top of the waste material box and a mounting groove III formed in the bottom of the breeding box body II, placing the installed breeding box I at the top of the breeding box body II, sealing the breeding box I through the matching of the mounting boss II and the rubber sealing ring at the top of the breeding box body II and a mounting groove II formed in the bottom of the breeding box body I, and finally installing a cooling system and a heating system.

And step two, when the dissolved oxygen in water is detected to be insufficient manually, opening a valve IV and a valve VIII, starting an oxygenator I and an oxygenator II, and oxygenating oxygen in the breeding box I and the breeding box II through a sand head I and a sand head II.

And step three, when the water temperature is manually detected to be low, opening a valve II and a valve VI, starting a water suction pump I, pumping water in the first culture box, the second culture box and the waste material box through the water suction pump I, heating the water in the heating water box, starting a water suction pump II, and pumping the water in the heating water box into the first culture box, the second culture box and the waste material box through the water suction pump II.

And step four, when the water temperature is manually detected to be high, opening the first valve and the seventh valve, starting the fourth water suction pump, pumping the water in the first breeding box, the second breeding box and the waste material box through the fourth water suction pump, cooling the water in the cooling water tank, starting the third water suction pump, and pumping the water in the cooling water tank into the first breeding box, the second breeding box and the waste material box through the third water suction pump.

And step five, when the whole water needs to be replaced, opening a valve five, discharging all water, closing the valve five, opening a valve three, injecting fresh water, and closing the valve three after the valve five is fully filled.

The invention has the beneficial effects that: placing a second breeding box at the top of the waste material box, placing a first breeding box at the top of the second breeding box, connecting a heating system on the left side of the combined box body, and connecting a cooling system on the right side of the combined box body to form a multi-level indoor lobster breeding box, wherein the first breeding box, the second breeding box and the waste material box are hermetically installed through a first boss, a rubber sealing ring, a first installation boss and a second installation boss, so that water seepage at the connection part of the box bodies is avoided; the water temperature is increased through the heating system when the water temperature is low, the water temperature is reduced through the cooling system when the water temperature is high, the heating system and the cooling system realize water circulation between the heating system and the cooling system and the interior of the box body through the first water suction pump, the second water suction pump, the third water suction pump and the fourth water suction pump, and the water temperature in the box body is conveniently controlled to meet the water temperature required by growth of the shrimp seeds; the first aerator and the second aerator are used for oxygenating a first breeding box and a second breeding box through a first sand head and a second sand head, and a first water filtering gauze and a second water filtering gauze are wrapped outside the first sand head and the second sand head to prevent impurities in water from blocking sand holes; the top of the first oxygen charging plate and the top of the second oxygen charging plate are arranged to be inverted, so that impurities generated in the first shrimp seedling living area and the second shrimp seedling living area fall to the bottom of the waste material box along the slope, water quality in the first shrimp seedling living area and the second shrimp seedling living area is guaranteed, the problem that the water quality influences the growth of the shrimp seedlings is avoided, the whole device can be disassembled, and the shrimp culture period is convenient to change, wash and maintain.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of the overall internal cross-sectional structure of the present invention;

FIG. 3 is a schematic side sectional view of the present invention;

FIG. 4 is a schematic view of the structure of the upper cover of the present invention;

FIG. 5 is a schematic view of the overall structure of the cultivation box of the present invention;

FIG. 6 is a schematic view of a connection structure between a first fixing plate and a stainless steel microgroove net according to the present invention;

FIG. 7 is a schematic view of a connecting structure between an oxygen charging plate and an oxygen charging device according to the present invention;

FIG. 8 is a sectional view of the first oxygen charging plate and the oxygen charging machine according to the present invention;

FIG. 9 is a front view of the box body of the cultivation box of the present invention;

FIG. 10 is a schematic view of a back side structure of the body of the cultivation box of the present invention;

FIG. 11 is a schematic view of the overall structure of a second cultivation box of the present invention;

FIG. 12 is a schematic view of the connection structure of the second fixing plate and the second stainless steel microgroove net according to the present invention;

FIG. 13 is a schematic view of the connection structure of the second oxygen charging plate and the second oxygen charging machine in the present invention;

FIG. 14 is a schematic sectional view of the connection between the second oxygen charging plate and the second oxygen charger in the present invention;

FIG. 15 is a schematic front view of a second box body of the cultivation box of the present invention;

FIG. 16 is a schematic view of the back structure of the second box body of the cultivation box of the present invention;

FIG. 17 is a schematic view showing the overall structure of the waste bin of the present invention;

FIG. 18 is a schematic sectional view of the waste bin of the present invention.

In the figure: 1. an upper cover; 2. a first breeding box; 3. a second breeding box; 4. a waste bin; 5. a cooling system; 6. a heating system; 7. a first water pipe; 8. a water pipe II; 9. a water pipe III; 10. a fourth water pipe; 11. a first water pump; 12. a water pump II; 13. a water pump III; 14. a water pump IV; 15. a first mounting groove; 21. a first breeding box body; 22. a first fixing plate; 23. a first stainless steel microgroove net; 24. an oxygen charging plate I; 25. a first water inlet pipe; 26. an oxygen charger I; 27. a first oxygen charging pipe; 28. a first sand head; 29. a first shrimp larvae living area; 31. a second breeding box body; 32. a second fixing plate; 33. a second stainless steel microgroove net; 34. a second oxygenation plate; 36. a second oxygen charger; 37. a second oxygen charging pipe; 38. a second sand head; 39. a second shrimp larvae living area; 41. a rubber seal ring; 42. a first boss; 43. a first water outlet pipe; 44. a water outlet hole I; 45. a water outlet hole II; 46. a water outlet hole III; 51. a cooling cover; 52. a first hinge; 53. a cooling fin; 54. a water inlet pipe II; 55. a water outlet pipe II; 56. a cooling water tank; 61. heating the cover; 62. a second hinge; 63. a heating rod; 64. a third water inlet pipe; 65. a third water outlet pipe; 66. heating the water tank; 91. a first valve; 101. a second valve; 211. a first support plate; 212. mounting a first boss; 213. a first sliding chute; 214. a second mounting groove; 215. a fourth water inlet pipe; 216. a fifth water inlet pipe; 221. a second boss; 241. a boss III; 242. a first oxygen charging hole; 243. a second oxygen charging hole; 251. a third valve; 271. a fourth valve; 281. water filtering gauze I; 311. a second support plate; 312. mounting a second boss; 313. a second chute; 314. a third mounting groove; 321. fourthly, a boss; 341. fifthly, arranging a boss; 342. a third oxygen charging hole; 343. a fourth oxygen charging hole; 371. a valve eighth; 381. a second water filtering gauze; 431. a fifth valve; 2151. a sixth valve; 2161. and a valve seventh.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-18, a multi-layer indoor lobster breeding box comprises a first breeding box 2 and a second breeding box 3, wherein an upper cover 1 is installed at the top of the first breeding box 2, the middle parts of the left side and the right side of the first breeding box 2 are fixedly connected with one ends of a first water pipe 7 and a second water pipe 8, the first breeding box 2 is placed at the top of the second breeding box 3, the second breeding box 3 is placed at the top of a waste bin 4, the middle parts of the left side and the right side of the waste bin 4 are fixedly connected with one ends of a third water pipe 9 and a fourth water pipe 10, the other end of the fourth water pipe 10 is fixedly connected with one end of a first water pump 11, the other end of the first water pipe 7 is fixedly connected with one end of a second water pump 12, the other end of the second water pipe 8 is fixedly connected with one end of a third water pump 13, the other end of the third water, and the other ends of the three water suction pumps 13 and the four water suction pumps 14 are fixedly connected with a cooling system 5.

The first breeding box 2 comprises a first breeding box body 21, a first fixing plate 22, a first stainless steel dense-grain net 23, a first oxygenation plate 24, a first water inlet pipe 25, a first oxygenating machine 26, a first oxygenation pipe 27, a first sand head 28 and a first shrimp larva living area 29, two first fixing plates 22 are slidably mounted at the upper end inside the first breeding box body 21, two first fixing plates 22 are slidably mounted at the bottom of the first fixing plates 22, the first stainless steel dense-grain net 23 is slidably mounted at the bottom of the first breeding box body 21, the first oxygenation plate 24 is fixedly connected at the bottom end inside the first breeding box body 21, the first sand head 28 is fixedly mounted at the top of the first oxygenation plate 24, one end of the first oxygenation pipe 27 is fixedly connected at the front end of the first oxygenation plate 24, the first oxygenating machine 26 is fixedly connected at the other end of the first oxygenation pipe 27, the first oxygenating machine 26 is fixedly mounted at the front surface of the first breeding box body 21, a first water, the first breeding box body 21, the first fixing plate 22 and the first stainless steel dense-grain net 23 form a first shrimp larva living area 29.

Breed two 3 of case including breeding two 31 of case box, two 32 of fixed plate, two 33 of the dense line net of stainless steel, oxygenate two 34 of board, two 36 of oxygenating machines, two 37 of oxygenation pipes, two 38 of sand head, shrimp seedling living area two 39, breed two 31 inside upper end slidable mounting of case box there are two 32 of fixed plate, two 32 bottom slidable mounting of fixed plate has two 33 of the dense line net of stainless steel, breed two 31 inside bottom fixedly connected with of case box and oxygenate two 34 of board, oxygenate two 34 top fixed mounting of board has two 38 of sand head, oxygenate two 34 front end fixedly connected with of board and oxygenate two 37 one ends of oxygenation pipes, two 37 other end fixedly connected with of oxygenation pipes oxygenate two 36, two 36 fixed mounting of oxygenating machines are breeding two 31 of case box, breed two 31 of case box, two 32 of fixed plate and two 33 constitution shrimp seedling living area two 39 of stainless steel dense line net.

The top end of the interior of the first breeding box body 21 is symmetrically provided with first sliding grooves 213, the bottom end of the front surface of the first breeding box body 21 is provided with a first supporting plate 211, the left side and the right side of the first breeding box body 21 are provided with a fourth water inlet pipe 215 and a fifth water inlet pipe 216, the top of the first breeding box body 21 is provided with a first mounting boss 212, the bottom of the first breeding box body 21 is provided with a second mounting groove 214, the bottoms of the two first fixing plates 22 are slidably provided with a first stainless steel dense-grain net 23, the two sides of the first fixing plates 22 are provided with second bosses 221, the two first fixing plates 22 are slidably mounted in the first sliding grooves 213 through the second bosses 221, the top of the first oxygenation plate 24 is provided with third bosses 241, the centers of the third bosses are provided with second oxygenation holes 243, the first sand heads 28 are fixedly connected in the second oxygenation holes 243, the exterior of the first water filtering sand heads, the utility model discloses a 24 right-hand members of board are oxygenated in oxygenating hole one 242 link up, fixedly connected with oxygenating pipe one 27 in oxygenating hole one 242, it is equipped with valve four 271 on oxygenating pipe one 27, oxygenating pipe one 27 inlet port department fixedly connected with oxygenating machine one 26, oxygenating machine one 26 fixed mounting is on a backup pad 211, the outer end inlet tube four 215 is equipped with valve six 2151, the outer end five 216 of inlet tube are equipped with valve seven 2161, mounting groove one 15 has been seted up all around to upper cover 1 bottom, upper cover 1 installs on installation boss one 212 through mounting groove one 15, rubber seal 41 has been placed to mounting groove two 214 insidely.

The top end of the interior of the second breeding box body 31 is symmetrically provided with a second sliding groove 313, the bottom end of the front face of the second breeding box body 31 is provided with a second supporting plate 311, the top of the second breeding box body 31 is provided with a second mounting boss 312, the bottom of the second breeding box body 31 is provided with a third mounting groove 314, the bottoms of the two second fixing plates 32 are slidably provided with a second stainless steel dense-grain net 33, the two sides of the second fixing plates 32 are provided with fourth bosses 321, the two second fixing plates 32 are slidably mounted in the second sliding groove 313 through the fourth bosses 321, the top of the second oxygenation plate 34 is provided with a fifth boss 341, the center of the fifth boss 341 is provided with a fourth oxygenation hole 343, the fourth oxygenation hole 343 is fixedly connected with a second sand head 38, the second sand head 38 is externally wrapped with a layer of water-filtering gauze 381, the second oxygenation plate 34 is internally provided with a third oxygenation hole 342, the third oxygenation hole 342 penetrates through the right end of the second oxygenation, be equipped with eight 371 of valve on the second 37 of oxygen filling pipe, the fixedly connected with of the second 37 inlet port department of oxygen filling pipe oxygenator two 36, the second 36 fixed mounting of oxygenator is on the second 311 of backup pad, rubber seal 41 has been placed to the third 314 inside of mounting groove.

Cooling system 5 includes cooling cover 51, a hinge 52, cooling fin 53, two 54 inlet tubes, two 55 outlet pipes and coolant tank 56, coolant tank 56 rotates through a hinge 52 and is connected with cooling cover 51, the inside fixed mounting of coolant tank 56 has cooling fin 53, the top of coolant tank 56 left side is equipped with two 55 outlet pipes, coolant tank 56 left side bottom is equipped with two 54 inlet tubes, two 54 fixed connection suction pumps of inlet tube four 14, two 55 fixed connection suction pumps of outlet pipe three 13.

Heating system 6 is including heating lid 61, two 62 of hinge, heating rod 63, three 64 of inlet tube, three 65 of outlet pipe and heating water tank 66, heating water tank 66 rotates through two 62 of hinge and is connected with heating lid 61, the inside fixed mounting of heating water tank 66 has heating rod 63, heating water tank 66 right side top is equipped with three 65 of outlet pipe, heating water tank 66 right side bottom is equipped with three 64 of inlet tube, three 64 fixed connection suction pump 11 of inlet tube, three 65 fixed connection suction pump two 12 of outlet pipe.

The top of the waste bin 4 is provided with a boss I42, the bottom of the left side of the waste bin 4 is provided with a water outlet II 45, the bottom of the right side of the waste bin 4 is provided with a water outlet hole III 46, the bottom of the front surface of the waste bin 4 is provided with a water outlet hole I44, the first water outlet hole 44 is fixedly connected with a first water outlet pipe 43, the third water outlet hole 46 is fixedly provided with a third water pipe 9, a first valve 91 is arranged on the third water pipe 9, a fourth water pipe 10 is fixedly arranged on the second water outlet hole 45, a second valve 101 is arranged on the fourth water pipe 10, a fifth valve 431 is arranged on the first water outlet pipe 43, the tops of the first oxygenation plate 24 and the second oxygenation plate 34 are in an inverted V shape, the first oxygenation machine 26 and the second oxygenation machine 36 are Berkale oxygenation pumps, the heating rod 63 is Chuangxing AT-380, the cooling sheet 53 is S05-127 and 4040, the water pump I11, the water pump II 12, the water pump III 13 and the water pump IV 14 are new Cheng' i BSP-S water suction pumps.

This multi-level indoor lobster breeding case use step:

step one, the mounted breeding box II 3 is placed at the top of the waste box 4, the first boss 42 and the rubber sealing ring 41 at the top of the waste box 4 are matched and sealed with the third mounting groove 314 formed at the bottom of the breeding box body II 31, the mounted breeding box I2 is placed at the top of the breeding box II 3, the second mounting boss 312 and the rubber sealing ring 41 at the top of the breeding box body II 31 are matched and sealed with the second mounting groove 214 formed at the bottom of the breeding box body I21, and finally the cooling system 5 and the heating system 6 are mounted.

And step two, when the dissolved oxygen in water is artificially detected to be insufficient, opening a valve IV 271 and a valve IV 371, starting a first oxygenator 26 and a second oxygenator 36, and oxygenating the first culture box 2 and the second culture box 3 through a first sand head 28 and a second sand head 38.

And step three, when the water temperature is manually detected to be low, opening a valve II 101 and a valve III 2151, starting a water suction pump I11, pumping out water in a culture tank I2, a culture tank II 3 and a waste tank 4 through the water suction pump I11, heating in a heating water tank 66, starting a water suction pump II 12, and pumping the water in the heating water tank 66 to the culture tank I2, the culture tank II 3 and the waste tank 4 through the water suction pump II 12.

And step four, when the water temperature is manually detected to be high, opening a first valve 91 and a seventh valve 2161, starting a fourth water suction pump 14, pumping out the water in the first breeding box 2, the second breeding box 3 and the waste material box 4 through the fourth water suction pump 14, cooling in the cooling water tank 56, starting a third water suction pump 13, and pumping the water in the cooling water tank 56 into the first breeding box 2, the second breeding box 3 and the waste material box 4 through the third water suction pump 13.

And step five, when the whole water needs to be replaced, opening a valve five 431, discharging all water, closing the valve five 431, opening a valve three 251, injecting fresh water, and closing the valve three 251 after the valve five 431 is filled.

The working principle of the invention is as follows: the second breeding box 3 is placed at the top of the waste material box 4, the first breeding box 2 is placed at the top of the second breeding box 3, the left side of the combined box body is connected with the heating system 6, the right side of the combined box body is connected with the cooling system 5, the multi-layer indoor lobster breeding box is formed, the first breeding box 2, the second breeding box 3 and the waste material box 4 are hermetically installed through the first boss 42, the rubber sealing ring 41, the first installation boss 212 and the second installation boss 312, and water seepage at the connection part of the box bodies is avoided; when the water temperature is low, the water temperature is increased through the heating system 6, when the water temperature is high, the water temperature is reduced through the cooling system 5, and the heating system 6 and the cooling system 5 realize water circulation between the heating system 6 and the cooling system 5 and the interior of the box body through the first water pump 11, the second water pump 12, the third water pump 13 and the fourth water pump 14; the first oxygenator 26 and the second oxygenator 36 oxygenate the first breeding box 2 and the second breeding box 3 through the first sand head 28 and the second sand head 38, and the first sand head 28 and the second sand head 38 are externally wrapped with the first filter gauze 281 and the second filter gauze 381 to prevent impurities in water from blocking sand holes; the tops of the first oxygenation plate 24 and the second oxygenation plate 34 are arranged into inverted V shapes, so that impurities generated in the first shrimp fry living area 29 and the second shrimp fry living area 39 fall to the bottom of the waste bin 4 along the slope, and water quality in the first culture box 2 and the second culture box 3 is guaranteed.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (7)

1. The multi-level indoor lobster breeding box comprises a breeding box I (2) and a breeding box II (3), and is characterized in that an upper cover (1) is installed at the top of the breeding box I (2), one end of the breeding box I (2) in the middle of the left side and the right side is fixedly connected with a water pipe I (7) and a water pipe II (8), the breeding box I (2) is placed at the top of the breeding box II (3), the breeding box II (3) is placed at the top of a waste material box (4), one end of the waste material box (4) in the middle of the left side and the right side is fixedly connected with a water pipe III (9) and a water pipe IV (10), the other end of the water pipe IV (10) is fixedly connected with one end of a water suction pump I (11), the other end of the water pipe I (7) is fixedly connected with one end of a water suction pump II (12), the other end of the water pipe II (8) is fixedly connected with one end of a water suction pump III, the other ends of the first water suction pump (11) and the second water suction pump (12) are fixedly connected with a heating system (6), and the other ends of the third water suction pump (13) and the fourth water suction pump (14) are fixedly connected with a cooling system (5);

the first breeding box (2) comprises a first breeding box body (21), a first fixing plate (22), a first stainless steel dense grain net (23), a first oxygenation plate (24), a first water inlet pipe (25), a first oxygenation machine (26), a first oxygenation pipe (27), a first sand head (28) and a first shrimp seedling living area (29), wherein the two first fixing plates (22) are slidably mounted at the upper end inside the first breeding box body (21), the first fixing plates (22) are slidably mounted at the bottom of the two first fixing plates (22), the first oxygenation plate (24) is fixedly connected to the bottom end inside the first breeding box body (21), the first sand head (28) is fixedly mounted at the top of the first oxygenation plate (24), the first oxygenation plate (24) is fixedly connected with one end of the first oxygenation pipe (27), the other end of the first oxygenation pipe (27) is fixedly connected with one oxygenation machine (26), and the first oxygenation machine (26) is fixedly mounted on the front side of the first breeding box body (21), a first water inlet pipe (25) is fixedly installed at the top of the front face of the first breeding box body (21), a third valve (251) is arranged on the first water inlet pipe (25), and the first breeding box body (21), the first fixing plate (22) and the first stainless steel dense-grain net (23) form a first shrimp larva living area (29);

the breeding box II (3) comprises a breeding box body II (31), a fixing plate II (32), a stainless steel dense grain net II (33), an oxygenation plate II (34), an oxygenator II (36), an oxygenation pipe II (37), a sand head II (38) and a shrimp fry living area II (39), the fixing plate II (32) is arranged at the upper end inside the breeding box body II (31) in a sliding mode, the stainless steel dense grain net II (33) is arranged at the bottom of the fixing plate II (32) in a sliding mode, the oxygenation plate II (34) is fixedly connected to the bottom end inside the breeding box body II (31), the sand head II (38) is fixedly arranged at the top of the oxygenation plate II (34), the front end of the oxygenation plate II (34) is fixedly connected with one end of the oxygenation pipe II (37), the other end of the oxygenation pipe II (37) is fixedly connected with the oxygenator II (36), and the oxygenator II (36) is fixedly installed on the front face of the breeding box body II (, the second shrimp larvae living area (39) is formed by the second breeding box body (31), the second fixing plate (32) and the second stainless steel dense-grain net (33).

2. The multi-layered indoor lobster breeding box as claimed in claim 1, wherein the top of the inside of the first breeding box body (21) is symmetrically provided with a first sliding groove (213), the bottom of the front of the first breeding box body (21) is provided with a first supporting plate (211), the left and right sides of the first breeding box body (21) are provided with a fourth water inlet pipe (215) and a fifth water inlet pipe (216), the top of the first breeding box body (21) is provided with a first mounting boss (212), the bottom of the first breeding box body (21) is provided with a second mounting groove (214), the bottoms of the first fixing plates (22) are slidably provided with a first stainless steel microgroove net (23), the two sides of the first fixing plates (22) are provided with a second boss (221), the first fixing plates (22) are slidably mounted in the first sliding grooves (213) through the second boss (221), the top of the first oxygenating plate (24) is provided with, the center of the boss III (241) is provided with an oxygen charging hole II (243), a sand head I (28) is fixedly connected in the oxygen charging hole II (243), a layer of water filtering gauze I (281) is wrapped outside the sand head I (28), an oxygen charging hole I (242) is formed inside the oxygen charging plate I (24), the oxygen charging hole I (242) penetrates through the right end of the oxygen charging plate I (24), an oxygen charging pipe I (27) is fixedly connected in the oxygen charging hole I (242), a valve IV (271) is arranged on the oxygen charging pipe I (27), an oxygen charging machine I (26) is fixedly connected at an air inlet of the oxygen charging pipe I (27), the oxygen charging machine I (26) is fixedly installed on the support plate I (211), the outer end of the water inlet pipe IV (215) is provided with a valve VI (2151), the outer end of the water inlet pipe V (216) is provided with a valve VII (2161), and a mounting groove I (15) is formed around the bottom of the upper cover (, the upper cover (1) is installed on the first installation boss (212) through the first installation groove (15), and the rubber sealing ring (41) is placed inside the second installation groove (214).

3. The multi-layered indoor lobster cultivation box as claimed in claim 1, wherein the second cultivation box body (31) is symmetrically provided with second sliding grooves (313) at the top end, the second cultivation box body (31) is provided with second supporting plates (311) at the bottom end of the front face, the second cultivation box body (31) is provided with second mounting bosses (312) at the top, the second cultivation box body (31) is provided with third mounting grooves (314) at the bottom, the second fixing plates (32) are slidably provided with second stainless steel dense-grain nets (33) at the bottoms, the second fixing plates (32) are provided with fourth bosses (321) at the two sides, the second fixing plates (32) are slidably mounted in the second sliding grooves (313) through the fourth bosses (321), the second oxygenation plate (34) is provided with fifth bosses (341) at the top, the fourth oxygenation hole (343) is provided at the center of the fifth bosses (341), and the second oxygenation hole (343) is fixedly connected with second sand heads (38), sand head two (38) outside parcel one deck drainage gauze two (381), oxygenate two (34) inside the oxygen hole three (342) of having seted up, oxygen hole three (342) link up and oxygenate two (34) right-hand members, fixedly connected with oxygen charging pipe two (37) in the oxygen hole three (342), be equipped with valve eight (371) on oxygen charging pipe two (37), oxygen charging pipe two (37) air inlet department fixedly connected with oxygen charging machine two (36), oxygen charging machine two (36) fixed mounting is on backup pad two (311), rubber seal (41) have been placed to mounting groove three (314) inside.

4. The multi-level indoor lobster breeding box according to claim 1, characterized in that the cooling system (5) comprises a cooling cover (51), a first hinge (52), a cooling fin (53), a second water inlet pipe (54), a second water outlet pipe (55) and a cooling water tank (56), the cooling water tank (56) is rotatably connected with the cooling cover (51) through the first hinge (52), the cooling fin (53) is fixedly installed inside the cooling water tank (56), the second water outlet pipe (55) is arranged at the top of the left side of the cooling water tank (56), the second water inlet pipe (54) is arranged at the bottom of the left side of the cooling water tank (56), the second water inlet pipe (54) is fixedly connected with a fourth water suction pump (14), and the second water outlet pipe (55) is fixedly connected with a third water suction pump (13).

5. The multi-level indoor lobster breeding box of claim 1, characterized in that heating system (6) includes heating lid (61), two (62) hinges, heating rod (63), three (64) inlet tubes, three (65) outlet pipes and heating water tank (66), heating water tank (66) is connected with heating lid (61) through two (62) rotations of hinges, inside fixed mounting of heating water tank (66) has heating rod (63), heating water tank (66) right side top is equipped with three (65) outlet pipes, heating water tank (66) right side bottom is equipped with three (64) inlet tubes, three (64) inlet tubes fixed connection suction pump one (11), three (65) outlet pipes fixed connection suction pump two (12).

6. The multi-level indoor lobster cultivation box according to claim 1, wherein a first boss (42) is arranged at the top of the waste bin (4), a second water outlet hole (45) is formed in the bottom of the left side of the waste bin (4), a third water outlet hole (46) is formed in the bottom of the right side of the waste bin (4), a first water outlet hole (44) is formed in the bottom of the front side of the waste bin (4), the first water outlet hole (44) is fixedly connected with a first water outlet pipe (43), the third water outlet hole (46) is fixedly provided with a third water pipe (9), a first valve (91) is arranged on the third water pipe (9), a second water outlet hole (45) is fixedly provided with a fourth water pipe (10), a second valve (101) is arranged on the fourth water pipe (10), and a fifth valve (431).

7. The multi-layered indoor lobster breeding box as claimed in claim 1, wherein the top of said first oxygen charging plate (24) and said second oxygen charging plate (34) is in the shape of an inverted V.

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