CN115918414A

CN115918414A - Seedling cultivation case for biological breeding

Info

Publication number: CN115918414A
Application number: CN202211626934.7A
Authority: CN
Inventors: 徐秀丽
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-12-16
Filing date: 2022-12-16
Publication date: 2023-04-07

Abstract

The invention discloses a seedling cultivation box for biological breeding, which comprises a box body and at least two bearing plates, wherein the bearing plates are positioned in the box body and used for placing seedlings, the bearing plates are uniformly distributed from top to bottom, and a driving assembly used for driving the bearing plates to rotate from top to bottom is arranged in the box body. According to the device, the driving assembly is arranged, so that the bearing plates can be driven to rotate ninety degrees from top to bottom in sequence, after the bearing plate on the upper layer rotates ninety degrees, the bearing plate on the lower layer can be directly observed by a worker, the worker does not need to bend down to observe the growth condition of seedlings on the lower layer, the convenience of the device is effectively improved, and after all the bearing plates are completely rotated, the driving assembly can drive the bearing plates to rotate ninety degrees back, so that all the bearing plates are restored to the original positions; through setting up watering subassembly to when the loading board is rotatory, the seedling on the water source watering loading board in the extraction storage water tank.

Description

Seedling cultivation box for biological breeding

Technical Field

The invention relates to the technical field of agriculture, in particular to a seedling cultivation box for biological breeding.

Background

The young seedling is a young plant body at the early growth stage after the seed germination.

The incubator is a box device with controllable temperature, is mainly used for culturing microorganisms, plants and animal cells, has a bidirectional temperature regulating system with refrigeration and heating, is basic experimental equipment of scientific research departments of biology, agriculture, medicine, environmental protection and the like, and is widely applied to experiments of constant-temperature culture, constant-temperature reaction and the like. The characteristics of incubator mainly have: the box body adopts foamed plastics such as polyurethane and the like as heat insulation materials, and has better insulating capability to external cold and heat; the inner cavity is mostly made of stainless steel, so that the anti-corrosion capability is strong; the temperature control device has heating, refrigerating and automatic temperature control devices and can sensitively adjust the temperature in the refrigerator.

But in the in-service use process, traditional seedling artificial containers often places the one deck of seedling in the box, when the staff need observe the growth conditions of lower floor's seedling, need bow down the growth conditions that just can see lower floor's seedling, greatly reduced the convenient degree of artificial containers in the use.

Therefore, we propose a seedling incubator for biological breeding to solve the above problems.

Disclosure of Invention

The invention aims to provide a seedling incubator for biological breeding, which is provided with a driving assembly, so that bearing plates can be driven to rotate ninety degrees from top to bottom in sequence, when the bearing plate on the upper layer rotates ninety degrees, the bearing plate on the lower layer can be directly observed by a worker, the worker does not need to bend down to observe the growth condition of the seedling on the lower layer, the convenience of the device is effectively improved, and when all the bearing plates are completely rotated, the driving assembly can drive the bearing plates to rotate back ninety degrees, so that all the bearing plates are restored to the original position, the problem that when the worker needs to observe the growth condition of the seedling on the lower layer, the worker needs to bend down to see the growth condition of the seedling on the lower layer is solved, and the convenience of the incubator in the use process is greatly reduced.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a seedling artificial containers for biological breeding, includes the box to and be located the loading board that is used for placing the seedling in the box, the quantity of loading board is two at least, and down evenly distributed in proper order from the last, be provided with in the box and be used for driving the loading board from the last drive assembly who down carries out the rotation in proper order.

Preferably, the driving assembly comprises a supporting column vertically fixed on the bottom surface of the inner wall of the box body, an annular sleeve is inserted into one corner of the bearing plate, a grooved wheel is sleeved on the surface of the annular sleeve, the annular sleeve is rotatably connected onto the supporting column, a first rotating shaft driven by external driving equipment is rotatably connected in the box body, a notched disc matched with the grooved wheel and a swing rod are rotatably connected onto the first rotating shaft, a round pin matched with the grooved wheel is vertically fixed at one end of the swing rod, and the initial angle of each swing rod is different.

Preferably, a water storage tank for storing a water source is arranged on the outer side of the box body, and an irrigation assembly for extracting the water source in the water storage tank to irrigate seedlings is arranged in the box body.

Preferably, the watering subassembly includes the box body of fixed connection on the box lateral wall, the box body is annular hollow structure, fixedly connected with baffle in the cavity of box body, it is connected with the arc to rotate on the inner wall of box body, arc surface integration is fixed with the rectangle piston board, the box internal rotation is connected with pivot two, and two one end of pivot pass the centre bore of box body, the gangbar has been cup jointed on two surfaces of pivot, set up on the box body inner wall and supply the wobbling arc wall of gangbar, fixed connection is on the inner wall of arc behind the gangbar one end passed the arc wall, the equal fixedly connected with in both sides relative rather than the inside pipeline that communicates each other of box body surface, the free end of one of them pipeline inserts in the storage water tank after passing the box, and surface mounting has check valve one, and the free end fixed connection of another pipeline is in the inner wall of box, and surface mounting has check valve two and shower nozzle.

Preferably, the partition board and the rectangular piston board divide the interior of the box body into a first space and a second space, and the two pipelines are communicated with the first space.

Preferably, the irrigation assembly further comprises a first incomplete gear sleeved at the top end of the first rotating shaft, and two first complete gears which are alternately meshed with the teeth on the first incomplete gear are sleeved on the second surface of the rotating shaft.

Preferably, a collecting box for collecting water and a recycling assembly for recycling a water source in the collecting box are arranged in the box body.

Preferably, retrieve the subassembly including cup jointing the threaded rod in pivot two, threaded rod surface threaded connection has the internal thread cover, internal thread cover fixed surface is connected with L shape connecting rod, L shape connecting rod one end vertical fixation has the piston rod, be provided with the T style of calligraphy venturi tube that fixed connection and intercommunication each other between one end and the storage water tank in the box, T style of calligraphy pipe is close to storage water tank one end and installs check valve three, T style of calligraphy pipe one end stretches into in the collection box, piston rod one end fixedly connected with is located the intraductal circular piston board of T style of calligraphy, T style of calligraphy pipe stretches into the one end of collecting the box and installs check valve four.

Compared with the prior art, the invention has the following beneficial effects:

1. under the initial condition, the loading board is from last down evenly distributed in proper order, the seedling that will cultivate is put things in good order on the loading board, through setting up drive assembly, so that the drive loading board is from last down rotating ninety degrees in proper order, after the ninety degrees of rotation of last one deck loading board, the loading board of next floor just can directly be observed by the staff, need not the staff and go to observe the growth condition of lower floor's seedling under bowing, the effectual convenient degree that improves the device, and after all rotatory completions of loading board, drive assembly can drive the loading board and toward rotating ninety degrees, thereby make all loading boards resume the normal position.

2. If direct seedling to piling up layer upon layer waters, can appear watering inhomogeneous problem, through setting up watering subassembly to when the loading board down rotates from the top in proper order, the seedling on the water source watering loading board in the extraction storage water tank, so that the seedling on every layer loading board can both be by even watering.

3. When the shower nozzle was spraying water, there was some water to leak to the bottom half, collected the box through setting up to collect the water that leaks down from the loading board, retrieve the subassembly through setting up, so that will collect in collecting the water recovery in the box to the storage water tank in, prevent the problem of water waste.

Drawings

FIG. 1 is a schematic structural view of a seedling incubator for biological breeding according to the present invention;

FIG. 2 is a schematic structural diagram of a driving assembly according to the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a first schematic view of a first embodiment of the irrigation assembly of the present invention;

FIG. 5 is a schematic cross-sectional view of the cartridge of FIG. 4 according to the present invention;

FIG. 6 is a second schematic structural view of the irrigation assembly of the present invention;

FIG. 7 is a first schematic structural view of a recycling assembly of the present invention;

FIG. 8 is a second schematic structural view of the recycling assembly of the present invention.

In the figure: 1. a box body; 2. a carrier plate; 3. a drive assembly; 31. a support pillar; 32. an annular sleeve; 33. a grooved wheel; 34. a first rotating shaft; 35. a notched disc; 36. a swing rod; 37. a circular pin; 4. a water storage tank; 5. a watering assembly; 51. a box body; 511. a first space; 512. a second space; 52. a partition plate; 53. an arc-shaped plate; 54. a rectangular piston plate; 55. a second rotating shaft; 56. a linkage rod; 57. an arc-shaped slot; 58. a pipeline; 581. a one-way valve I; 582. a second one-way valve; 583. a spray head; 591. a non-full gear; 592. a first complete gear; 6. a collection box; 7. a recovery assembly; 71. a threaded rod; 72. an internal thread sleeve; 73. an L-shaped connecting rod; 74. a piston rod; 75. a circular piston plate; 76. a T-shaped pipe; 77. a one-way valve III; 78. and a check valve IV.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a seedling artificial containers for biological breeding, includes box 1 to and be located the loading board 2 that is used for placing the seedling in box 1, the quantity of loading board 2 is two at least, and down evenly distributed in proper order from the last, be provided with in the box 1 and be used for driving loading board 2 from the last drive assembly 3 that down rotates in proper order.

In use, under the initial condition, loading board 2 is from last down evenly distributed in proper order, the seedling that will cultivate is put things in good order on loading board 2, through setting up drive assembly 3, so that drive loading board 2 is from last down rotatory ninety degrees in proper order, after the ninety degrees of the last layer loading board 2 rotation, the loading board 2 of next floor just can directly be observed by the staff, need not the staff and bow the growth condition of going to observe lower floor's seedling down, the effectual convenient degree that has improved the device, and after the complete rotation of all loading boards 2 is accomplished, drive assembly 3 can drive loading board 2 and turn round ninety degrees, thereby make all loading boards 2 resume the normal position.

The driving assembly 3 comprises a supporting column 31 vertically fixed on the bottom surface of the inner wall of the box body 1, an annular sleeve 32 is inserted into one corner of the bearing plate 2, a grooved wheel 33 is sleeved on the surface of the annular sleeve 32, the annular sleeve 32 is rotatably connected onto the supporting column 31, a first rotating shaft 34 driven by external driving equipment is rotatably connected into the box body 1, a notched disc 35 matched with the grooved wheel 33 and a swing rod 36 are rotatably connected onto the first rotating shaft 34, a round pin 37 matched with the grooved wheel 33 is vertically fixed at one end of the swing rod 36, and the initial angle of each swing rod 36 is different.

The external driving device is a motor, and the motor is controlled by a PLC (programmable logic controller) so that the motor can rotate for one circle in the forward direction and then rotate for one circle in the reverse direction.

In use, an external driving device motor is started to drive the first rotating shaft 34 to rotate, the first rotating shaft 34 can drive the notch disc 35 and the swing rod 36 sleeved on the surface of the first rotating shaft to rotate along with the first rotating shaft, the swing rod 36 can drive the circular pin 37 vertically fixed at one end of the swing rod to rotate along with the second rotating shaft, the circular pin 37 gradually enters the chute of the grooved wheel 33 in the rotation process and can drive the grooved wheel 33 to rotate ninety degrees, and the grooved wheel 33 can drive the annular sleeve 32 and the bearing plate 2 sleeved on the annular sleeve 32 to rotate ninety degrees along with the annular sleeve;

because the initial angle of each oscillating bar 36 is different, the rotation time of each bearing plate 2 can be different, and the bearing plates 2 can rotate from top to bottom in sequence;

after the motor drives the first rotating shaft 34 to rotate forwards for one circle, the oscillating bar 36 sleeved on the surface of the first rotating shaft and the round pin 37 fixed at one end of the oscillating bar 36 rotate for one circle, and all the bearing plates 2 rotate for ninety degrees; the motor drives the first rotating shaft 34 to rotate in a reverse direction for one turn, so that the bearing plate 2 rotates ninety degrees back to the original position.

Example two

Referring to fig. 4-6, in this embodiment, for further description of the first embodiment, a water storage tank 4 for storing water is disposed outside the tank 1, and an irrigation assembly 5 for pumping the water in the water storage tank 4 to irrigate the seedlings is disposed inside the tank 1.

In use, if direct seedling to piling up layer upon layer waters, the inhomogeneous problem of watering can appear, through setting up watering subassembly 5 to in loading board 2 from last down when rotating in proper order, the seedling on the water source watering loading board 2 in the extraction storage water tank 4, so that the seedling on each layer of loading board 2 can both be by even watering.

Watering subassembly 5 includes box body 51 of fixed connection on the lateral wall of box 1, box body 51 is annular hollow structure, fixedly connected with baffle 52 in the cavity of box body 51, it is connected with arc 53 to rotate on the inner wall of box body 51, arc 53 surface integration is fixed with rectangle piston plate 54, box 1 internal rotation is connected with two 55 pivots, and two 55 pivots one end pass the centre bore of box body 51, two 55 pivots surface has cup jointed gangbar 56, set up on the box body 51 inner wall and supply gangbar 56 wobbling arc 57, gangbar 56 one end is passed behind the arc 57 fixed connection on the inner wall of arc 53, the equal fixedly connected with in both sides that box body 51 surface is relative has rather than inside mutual intercommunication's pipeline 58, and the free end of one of them pipeline 58 inserts in storage water tank 4 after passing box body 1, and surface mounting has check valve one 581, and the free end fixed connection of another pipeline 58 is in the inner wall of box body 1, and surface mounting has two check valves 582 and shower nozzle 583.

The partition plate 52 and the rectangular piston plate 54 divide the interior of the case 51 into a first space 511 and a second space 512, and both of the pipes 58 communicate with the first space 511.

The irrigation assembly 5 further comprises a first incomplete gear 591 sleeved on the top end of the first rotating shaft 34, and two first complete gears 592 alternately meshed with the teeth on the first incomplete gear 591 are sleeved on the surface of the second rotating shaft 55.

In use, the first rotating shaft 34 can drive the first incomplete gear 591 sleeved at the top end of the first rotating shaft to rotate along with the first rotating shaft, each rotation of the first incomplete gear 591 can drive the first two complete gears 592 to rotate in a reciprocating manner once, the first complete gear 592 can drive the second rotating shaft 55 to rotate in a reciprocating manner along with the first rotating shaft, the second rotating shaft 55 can drive the linkage rod 56 sleeved on the surface of the second rotating shaft to rotate in a reciprocating manner along with the second rotating shaft, and the linkage rod 56 can drive the arc-shaped plate 53 and the rectangular piston plate 54 fixed on the arc-shaped plate 53 to swing in a reciprocating manner along with the second rotating shaft 56;

when the rectangular piston plate 54 swings to the side close to the first space 512, one of the pipes 58 can suck water in the water storage tank 4 into the first space 511 through the first one-way valve 581, and when the rectangular piston plate 54 swings to the side close to the first space 511, the water in the first space 511 is extruded into the other pipe 58 through the second one-way valve 582 and is sprayed out of the spray head 583 to irrigate seedlings on the bearing plate 2.

EXAMPLE III

Referring to fig. 7-8, in this embodiment, for further description of the first embodiment, a collecting box 6 for collecting water and a recycling assembly 7 for recycling water from the collecting box 6 are disposed in the box body 1.

In use, when shower nozzle 583 is spraying water, have partly water to leak to box 1 bottom, collect box 6 through setting up to collect the water that leaks down from loading board 2, retrieve subassembly 7 through setting up, so that with collect in the water recovery of collecting box 6 to storage water tank 4 in, prevent the problem of water waste.

Retrieve subassembly 7 including cup jointing threaded rod 71 on two 55 of pivot, threaded rod 71 surface threaded connection has internal thread cover 72, internal thread cover 72 fixed surface is connected with L shape connecting rod 73, L shape connecting rod 73 one end vertical fixation has piston rod 74, be provided with T font pipe 76 of fixed connection and mutual intercommunication between one end and the storage water tank 4 in the box 1, T font pipe 76 is close to storage water tank 4 one end and installs three check valves 77, T font pipe 76 one end stretches into in collecting box 6, piston rod 74 one end fixedly connected with is located the circular piston board 75 of T font pipe 76, T font pipe 76 stretches into the one end of collecting box 6 and installs four check valves 78.

When the second rotating shaft 55 rotates reciprocally, the second rotating shaft can drive the threaded rod 71 sleeved on the surface of the second rotating shaft to rotate reciprocally, the threaded rod 71 can drive the internal threaded sleeve 72 to move reciprocally along the horizontal direction, the L-shaped connecting rod 73 can drive the L-shaped connecting rod 73 fixed on the surface of the second rotating shaft, and the piston rod 74 fixed at one end of the L-shaped connecting rod 73 to move reciprocally along the horizontal direction, the piston rod 74 can drive the circular piston plate 75 fixed at one end to move reciprocally along the T-shaped pipe 76, when the circular piston plate 75 moves to the side far away from the water storage tank 4, the T-shaped pipe 76 can suck water in the collecting box 6 into the T-shaped pipe 76 through the four check valves 78, and when the circular piston plate 75 moves to the side near the water storage tank 4, the water in the T-shaped pipe 76 can be pushed into the water storage tank 4 through the three check valves 77.

Because the internal thread sleeve 72, the L-shaped connecting rod 73, the piston rod 74 and the circular piston plate 75 are fixedly connected in sequence, the piston rod 74 and the circular piston plate 75 are positioned in the T-shaped pipe 76 and move along the T-shaped pipe 76, and one end of the T-shaped pipe 76 close to the water storage tank 4 is inserted on the side wall of the box body 1, the internal thread sleeve 72 cannot rotate along with the rotation of the threaded rod 71.

The working principle is as follows: when the seedling cultivation box for biological breeding is used, in an initial state, the bearing plates 2 are sequentially and uniformly distributed from top to bottom, and seedlings to be cultivated are stacked on the bearing plates 2;

when the growth condition of seedlings needs to be observed, an external driving device motor is started to drive a first rotating shaft 34 to rotate, the first rotating shaft 34 can drive a notch disc 35 and a swing rod 36 sleeved on the surface of the first rotating shaft to rotate along with the first rotating shaft, the swing rod 36 can drive a round pin 37 vertically fixed at one end of the swing rod to rotate along with the second rotating shaft, the round pin 37 gradually enters a chute of a grooved wheel 33 in the rotation process and can drive the grooved wheel 33 to rotate ninety degrees, and the grooved wheel 33 can drive an annular sleeve 32 and a bearing plate 2 sleeved on the annular sleeve 32 to rotate ninety degrees along with the annular sleeve;

because the initial angle of each oscillating bar 36 is different, the rotation time of each bearing plate 2 can be different, and the bearing plates 2 can rotate from top to bottom in sequence, when the bearing plate 2 on the upper layer rotates ninety degrees, the bearing plate 2 on the lower layer can be directly observed by a worker, the worker does not need to bend down to observe the growth condition of seedlings on the lower layer, and the convenience of the device is effectively improved;

after the motor drives the first rotating shaft 34 to rotate forwards for one circle, the oscillating bar 36 sleeved on the surface of the first rotating shaft and the round pin 37 fixed at one end of the oscillating bar 36 rotate for one circle, and all the bearing plates 2 rotate for ninety degrees; the motor drives the first rotating shaft 34 to rotate reversely for one turn, so that the bearing plate 2 rotates ninety degrees backwards to return to the original position;

when the first rotating shaft 34 rotates, the first incomplete gear 591 sleeved at the top end of the first rotating shaft can be driven to rotate along with the first rotating shaft, each rotation of the first incomplete gear 591 can drive the first two complete gears 592 to rotate in a reciprocating manner once, the first complete gear 592 can drive the second rotating shaft 55 to rotate in a reciprocating manner along with the first rotating shaft, the second rotating shaft 55 can drive the linkage rod 56 sleeved on the surface of the second rotating shaft to rotate in a reciprocating manner along with the second rotating shaft, and the linkage rod 56 can drive the arc-shaped plate 53 and the rectangular piston plate 54 fixed on the arc-shaped plate 53 to swing in a reciprocating manner along with the second rotating shaft;

when the rectangular piston plate 54 swings to the side close to the first space 512, one of the pipelines 58 can suck water in the water storage tank 4 into the first space 511 through the first one-way valve 581, and when the rectangular piston plate 54 swings to the side close to the first space 511, the water in the first space 511 is extruded into the other pipeline 58 through the second one-way valve 582 and is sprayed out from the spray head 583 to irrigate seedlings on the bearing plate 2;

when the second rotating shaft 55 rotates reciprocally, the second rotating shaft can drive the threaded rod 71 sleeved on the surface of the second rotating shaft to rotate reciprocally, the threaded rod 71 can drive the internal threaded sleeve 72 to move reciprocally along the horizontal direction, the L-shaped connecting rod 73 can drive the L-shaped connecting rod 73 fixed on the surface of the second rotating shaft and the piston rod 74 fixed at one end of the L-shaped connecting rod 73 to move reciprocally along the horizontal direction, the piston rod 74 can drive the circular piston plate 75 fixed at one end to move reciprocally along the T-shaped pipe 76, when the circular piston plate 75 moves to the side far away from the water storage tank 4, the T-shaped pipe 76 can suck water in the collecting box 6 into the T-shaped pipe 76 through the check valve four 78, and when the circular piston plate 75 moves to the side near the water storage tank 4, the water in the T-shaped pipe 76 can be pushed into the water storage tank 4 through the check valve three 77.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a seedling artificial containers for biological breeding which characterized in that: including box (1) to and be located box (1) and be used for placing loading board (2) of seedling, the quantity of loading board (2) is two at least, and from last down evenly distributed in proper order, be provided with in box (1) and be used for driving loading board (2) from last down to carry out rotatory drive assembly (3) in proper order.

2. A seedling incubator for biological breeding according to claim 1, characterized in that: the driving assembly (3) comprises a supporting column (31) which is vertically fixed on the bottom surface of the inner wall of the box body (1), an annular sleeve (32) is inserted into one corner of the bearing plate (2), a grooved pulley (33) is sleeved on the surface of the annular sleeve (32), the annular sleeve (32) is rotatably connected onto the supporting column (31), a first rotating shaft (34) driven by external driving equipment is rotatably connected into the box body (1), a notch disc (35) matched with the grooved pulley (33) and a swinging rod (36) are rotatably connected onto the first rotating shaft (34), a round pin (37) matched with the grooved pulley (33) is vertically fixed at one end of the swinging rod (36), and the initial angle of each swinging rod (36) is different.

3. A seedling incubator for biological breeding according to claim 2, characterized in that: the seedling box is characterized in that a water storage tank (4) used for storing a water source is arranged on the outer side of the box body (1), and an irrigation component (5) used for pumping the water source in the water storage tank (4) to irrigate seedlings is arranged in the box body (1).

4. A seedling incubator for biological breeding according to claim 3, characterized in that: watering subassembly (5) is including box body (51) of fixed connection on box (1) lateral wall, box body (51) are annular hollow structure, fixedly connected with baffle (52) in the cavity of box body (51), it is connected with arc (53) to rotate on the inner wall of box body (51), arc (53) surface integration is fixed with rectangle piston plate (54), box body (1) internal rotation is connected with pivot two (55), and pivot two (55) one end passes the centre bore of box body (51), pivot two (55) surface cup joints gangbar (56), set up on box body (51) inner wall and supply gangbar (56) wobbling arc wall (57), fixed connection is on the inner wall of arc (53) behind gangbar (56) one end passing arc wall (57), the equal fixedly connected with in both sides relative in box body (51) surface rather than inside mutual intercommunication pipeline (58), and the free end of one of them pipeline (58) passes in box body (1) back inserts storage water tank (581) (4), and surface mounting has one-way valve (58), and the other end fixed connection is in box body (58) inner wall (583) and shower nozzle (583).

5. A seedling incubator for biological breeding according to claim 4, characterized in that: the partition plate (52) and the rectangular piston plate (54) divide the interior of the box body (51) into a first space (511) and a second space (512), and the two pipelines (58) are communicated with the first space (511).

6. A seedling incubator for biological breeding according to claim 5, characterized in that: the irrigation assembly (5) further comprises a non-complete gear (591) sleeved at the top end of the first rotating shaft (34), and two complete gears (592) which are alternately meshed with teeth on the non-complete gear (591) are sleeved on the surface of the second rotating shaft (55).

7. A seedling incubator for biological breeding according to claim 6, characterized in that: a collecting box (6) for collecting water and a recovery assembly (7) for recovering a water source in the collecting box (6) are arranged in the box body (1).

8. A seedling incubator for biological breeding according to claim 7, characterized in that: retrieve subassembly (7) including cup jointing threaded rod (71) on pivot two (55), threaded rod (71) surface threaded connection has internal thread cover (72), internal thread cover (72) fixed surface is connected with L shape connecting rod (73), L shape connecting rod (73) one end vertical fixation has piston rod (74), be provided with T venturi tube (76) of fixed connection and mutual intercommunication between one end and storage water tank (4) in box (1), T venturi tube (76) are close to storage water tank (4) one end and install check valve three (77), T venturi tube (76) one end stretches into in collecting box (6), piston rod (74) one end fixedly connected with is located circular piston plate (75) of T venturi tube (76), the one end that T venturi tube (76) stretched into and collect box (6) is installed check valve four (78).