CN116904299B

CN116904299B - Temperature and humidity environment adjusting equipment for strain culture

Info

Publication number: CN116904299B
Application number: CN202311174396.7A
Authority: CN
Inventors: 黄国标; 黄天永; 廖立波; 余应瑞
Original assignee: Shanghai Yongda Fungus Co ltd
Current assignee: Shanghai Yongda Fungus Co ltd
Priority date: 2023-09-13
Filing date: 2023-09-13
Publication date: 2023-11-14
Anticipated expiration: 2043-09-13
Also published as: CN116904299A

Abstract

The invention discloses strain culture temperature and humidity environment regulating equipment, which comprises an incubator, wherein the top of the incubator is fixedly connected with a heating box, the bottom of the incubator is fixedly connected with a low-temperature box, the heating box is used for generating hot air and conveying the hot air into the incubator, more strains can be placed by arranging a rotatable rack in the incubator, when the temperature in the incubator is too low, the heating box can be started to generate hot air to be introduced into the incubator, when the temperature is too high, cold air can be generated through the low-temperature box to be introduced into the incubator, so that a proper environment temperature is provided for the strains, atomized particles are injected into the air inlet pipe, a rotating pipe capable of rotating is arranged on the air outlet pipe, and when a second air groove is overlapped with a first air groove, the hot air/cold air can bring the atomized particles into the incubator and directly blow the surface of the strains, so that the humidity of the strains can be quickly improved.

Description

Temperature and humidity environment adjusting equipment for strain culture

Technical Field

The invention relates to the technical field of strain culture, in particular to strain culture temperature and humidity environment adjusting equipment.

Background

In the fields of microbiology, bioengineering and medicine, the cultivation of bacterial species is one of the most important experimental works. The success of strain cultivation often depends on the precise control of the cultivation environment, including temperature and humidity. Different strains have different growth rates and metabolic characteristics under different temperature and humidity conditions, so that in order to obtain stable experimental results and high-quality production products, it is important to provide an accurate and controllable temperature and humidity environment.

Chinese patent discloses a temperature and humidity regulating device (publication No. CN 218527058U) for edible fungi cultivation, which rapidly increases humidity in a housing through rotation of a spray plate, and generates air flow to reduce humidity through rotation of fan blades, but this way not only cultures strains are limited, but also water sprayed out of the rotating spray plate cannot be ensured to cover all strains, thus uneven surface humidity of the strains may be caused, and the temperature inside the device is affected by external environment due to reduced humidity caused by air flow, thus causing uncomfortable growth temperature of the strains and poor culture effect of the strains.

Disclosure of Invention

The invention aims to provide strain culture temperature and humidity environment adjusting equipment, which is characterized in that a rotatable placing rack is arranged in an incubator, so that more strains can be placed, when the temperature in the incubator is too low, a heating box can be started to generate hot air to be introduced into the incubator, when the temperature is too high, a low-temperature box can be used to generate cold air to be introduced into the incubator, so that a proper environment temperature is provided for the strains, atomized particles are injected into an air inlet pipe, a rotatable rotating pipe is arranged on an air outlet pipe, and when a second air groove is overlapped with a first air groove, the hot air/cold air can bring the atomized particles into the incubator and directly blow the atomized particles on the surface of the strains, so that the humidity of the strains can be rapidly improved.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a strain cultivation humiture environmental conditioning equipment, includes the incubator, the top fixedly connected with heating cabinet of incubator, the bottom fixedly connected with low temperature case of incubator, the heating cabinet is used for producing steam and carries to the inside of incubator, the low temperature case is used for producing air conditioning and carries to the inside of incubator, the inside of incubator is provided with rotatable rack, one side of incubator runs through and is provided with the intake pipe that is used for carrying atomizing granule, the inside of incubator is provided with the outlet duct, the end of giving vent to anger of intake pipe communicates with the inlet end of outlet duct;

the utility model discloses a solar energy collecting device, including outlet duct, upper surface, lower surface, first air duct, outlet duct, rotation pipe, a plurality of second air duct, the outlet duct is "" font setting, a plurality of first air duct has been seted up to upper surface and lower surface of outlet duct symmetry respectively, the surface of outlet duct and the surface cover that is located first air duct are equipped with can pivoted rotation pipe, a plurality of second air duct has been seted up to rotation pipe's surface symmetry.

As a further scheme of the invention: the rack is including the dwang that is located the incubator, the equal fixedly connected with support cover in both sides on dwang surface, two the equal fixedly connected with of surface of support cover a plurality of connecting rod, two relatively fixedly connected with dead lever between the connecting rod, the both sides on dead lever surface all are provided with the bracing piece that can rotate, one side fixedly connected with two supporting shoes of bracing piece, two the top of supporting shoe is provided with places the board.

As a further scheme of the invention: the bracing piece is "Y" shape setting, one side fixedly connected with integrated sensor of bracing piece, integrated sensor is used for detecting temperature and humidity.

As a further scheme of the invention: the two sides of the surface of the fixed rod are fixedly connected with shaft sleeves, and the outer surfaces of the shaft sleeves are fixedly connected with the inner surfaces of the support rods.

As a further scheme of the invention: the surface fixedly connected with a plurality of fixed cover of outlet duct, the fixed cover one side and the internal surface fixed connection of incubator, the internal surface of incubator just is located one side fixedly connected with rotation motor of rotation pipe, the output fixedly connected with drive gear of rotation motor, the fixed surface of rotation pipe is connected with rotation gear, drive gear is connected with rotation gear meshing.

As a further scheme of the invention: the top and the bottom of incubator have all been seted up the intercommunication groove, the internal surface fixedly connected with a plurality of fan in intercommunication groove.

As a further scheme of the invention: the surface of outlet duct just is located the both sides of intake pipe and all is provided with the control valve.

As a further scheme of the invention: the using method of the temperature and humidity environment adjusting device comprises the following steps: placing a placing plate containing strains on two supporting blocks on a supporting rod, and detecting the temperature and humidity near the placing plate through an integrated sensor;

when the temperature detected by the integrated sensor is lower than the growth environment of the strain and the humidity meets the growth environment of the strain, the heating box and the fan positioned above the heating box are started, heat generated by the heating box blows hot air to the inside of the incubator through the rotation of the fan in the communication groove, the driving motor is started to rotate at the moment, so that the rotating rod is driven to rotate, the connecting rods on the supporting sleeve are further driven to rotate, the fixing rod between the two opposite connecting rods drives the supporting rod to rotate, and the shaft sleeve is arranged between the supporting rod and the fixing rod, so that the placing plate can be always kept below the fixing rod under the action of gravity, and hot air flows at the moment are blown on the surface of the placing plate, so that the temperature of the surface of the placing plate is increased;

when the temperature detected by the integrated sensor is higher than the growth environment of the strain and the humidity meets the growth environment of the strain, the driving motor is started to drive the placing rack to rotate and the low-temperature box to generate cool air, and the fan positioned below is enabled to rotate, so that the cool air is blown to the bottom of the placing plate to cool the strain in the placing plate;

when the temperature and the humidity detected by the integrated sensor are lower than the growth environment of the strain, starting a heating box and a fan positioned above, starting a driving motor to drive a placing frame to rotate, communicating an air inlet pipe with an external pipeline at the moment, filling atomized particles into the air inlet pipe, closing a control valve positioned below the air inlet frame, enabling the atomized particles to flow into an air outlet pipe through the air inlet pipe and flow to the upper side, starting a rotating motor to drive a driving gear to rotate, and driving a rotating pipe to rotate on the surface of the air outlet pipe due to the meshing relationship of the driving gear and the rotating gear, so that a first air tank and a second air tank are overlapped, blowing hot air blown out of the air outlet pipe from the first air tank and the second air tank at the moment into the air outlet pipe, and heating the atomized particles in the air outlet pipe and blowing the atomized particles from the first air tank and the second air tank below into the incubator;

when the temperature and the humidity detected by the integrated sensor are higher than the growth environment of the strain, starting a driving motor to drive the placing frame to rotate, starting a fan positioned below, and blowing out air with high temperature and humidity in the incubator;

when the temperature detected by the integrated sensor is lower than the growth environment of the strain and the humidity is higher than the growth environment of the strain, the heating box and the fan positioned above the heating box are started, and the heat generated by the heating box blows hot air into the incubator through the rotation of the fan in the communication groove, and at the moment, the driving motor is started to rotate and the fan positioned below the heating box is started to blow out the humid air in the incubator;

when the temperature detected by the integrated sensor is higher than the growth environment of the strain and the humidity is lower than the growth environment of the strain, starting a low-temperature box and a fan positioned below the low-temperature box, starting a driving motor to drive a placing frame to rotate, closing a control valve positioned above the placing frame, filling atomized particles into an air inlet pipe, starting a rotating motor to enable a second air groove to coincide with a first air groove, and taking the atomized particles out of cold air blown out of the low-temperature box through the second air groove and the first air groove and blowing the atomized particles into an incubator;

when the temperature detected by the integrated sensor meets the growth environment of the strain and the humidity is lower than the growth environment of the strain, the fan is started at the moment, the two control valves are in an open state, and the two rotary motors are started at the same time, so that the second air tank is overlapped with the first air tank, and atomized particles are blown into the incubator;

when the temperature detected by the integrated sensor meets the growth environment of the strain and the humidity is higher than the growth environment of the strain, the fan positioned below is started at the moment, and the two control valves are in a closed state, so that the moisture in the incubator is blown out.

The invention has the beneficial effects that:

1. according to the invention, more strains can be placed by arranging the rotatable placing frame in the incubator, when the temperature in the incubator is too low, the heating box can be started to generate hot air to be introduced into the incubator, when the temperature is too high, cold air can be generated by the low-temperature box to be introduced into the incubator, so that a proper environment temperature is provided for the strains, atomized particles are injected into the air inlet pipe, and a rotatable rotating pipe is arranged on the air outlet pipe.

2. According to the invention, the placing plate for placing the strain is clamped between the two supporting blocks, the supporting rod and the fixing rod are connected in a rotating way through the shaft sleeve, when the driving motor rotates, the placing plate is ensured to be in a natural falling state, when the fan blows out air flow, most of the air flow can be directly blown on the surface of the placing plate, and the rotation of the driving motor is controlled, so that the accurate temperature and humidity adjustment can be performed on the corresponding placing plate, and the practicability of the device can be further improved in the mode.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of a temperature and humidity environment conditioning apparatus according to the present invention;

FIG. 2 is a partial sectional view of the temperature and humidity environment conditioning apparatus according to the present invention;

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

FIG. 4 is a schematic diagram showing the cooperation of a rotary pipe and an air outlet pipe in the invention;

fig. 5 is an enlarged view of the structure of the portion a in fig. 2 according to the present invention.

In the figure: 1. an incubator; 2. a heating box; 3. a low temperature box; 4. a placing rack; 41. a rotating lever; 42. a support sleeve; 43. a connecting rod; 44. a fixed rod; 45. a shaft sleeve; 46. a support rod; 47. an integrated sensor; 48. a support block; 49. placing a plate; 5. a driving motor; 6. an air inlet pipe; 7. an air outlet pipe; 8. a control valve; 9. a rotary tube; 10. a first air tank; 11. a second air tank; 12. rotating the gear; 13. a rotary motor; 14. a drive gear; 15. a fixed sleeve; 16. a communication groove; 17. a fan.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-5, the invention discloses a strain culture temperature and humidity environment adjusting device, which comprises an incubator 1, wherein a heating box 2 is fixedly connected to the top of the incubator 1, a low-temperature box 3 is fixedly connected to the bottom of the incubator 1, the heating box 2 is used for generating hot air and conveying the hot air into the incubator 1, the low-temperature box 3 is used for generating cold air and conveying the cold air into the incubator 1, a rotatable placing rack 4 is arranged in the incubator 1, an air inlet pipe 6 for conveying atomized particles is arranged on one side of the incubator 1 in a penetrating way, an air outlet pipe 7 is arranged in the incubator 1, and the air outlet end of the air inlet pipe 6 is communicated with the air inlet end of the air outlet pipe 7;

in order to enable atomized particles to be discharged along with hot air flow/cold air flow, the air outlet pipe 7 is arranged in a shape of , the upper surface and the lower surface of the air outlet pipe 7 are symmetrically provided with a plurality of first air grooves 10 respectively, the surface of the air outlet pipe 7 and the surface of the air outlet pipe 10 are sleeved with rotatable rotating pipes 9, the surface of each rotating pipe 9 is symmetrically provided with a plurality of second air grooves 11, the surface of the air outlet pipe 7 and the two sides of the air inlet pipe 6 are respectively provided with a control valve 8, and atomized particles can be discharged from the inner part of the air outlet pipe 7 when the first air grooves 10 and the second air grooves 11 are overlapped, wherein the atomized particles are small water drops.

The concrete structure of rack 4 is including being located the dwang 41 of incubator 1, the equal fixedly connected with support sleeve 42 in both sides on dwang 41 surface, the equal fixedly connected with a plurality of connecting rod 43 in the surface of two support sleeves 42, fixedly connected with dead lever 44 between two relative connecting rods 43, the both sides on dead lever 44 surface all are provided with rotatable bracing piece 46, one side fixedly connected with two supporting shoe 48 of bracing piece 46, the top of two supporting shoe 48 is provided with places board 49, bracing piece 46 is "Y" shape setting, one side fixedly connected with integrated sensor 47 of bracing piece 46, integrated sensor 47 is used for detecting temperature and humidity, the equal fixedly connected with axle sleeve 45 in both sides on dead lever 44 surface, the surface of axle sleeve 45 and the internal surface fixed connection of bracing piece 46.

In order to make the hot air flow, the cold air flow or the atomized particles blow on the surface of the placing plate 49 quickly, the top and the bottom of the incubator 1 are provided with the communication grooves 16, and the inner surface of the communication grooves 16 is fixedly connected with a plurality of fans 17.

Because the integrated sensor 47 is provided on the support rods 46, when one support rod 46 detects that the temperature is too high or too low, the corresponding placing plate 49 can be rotated to the uppermost or the lowermost position by the rotation of the driving motor 5, and when the detected humidity is too low, the corresponding placing plate 49 can be rotated to the upper position, the control valve 8 positioned below is closed, the control valve 8 positioned above is opened, atomized particles are blown to the placing plate 49 positioned above by the upper fan 17, and when the humidity in the incubator 1 is high, the humidity in the incubator 1 can be sent to the outside by controlling the fan 17 to reversely rotate.

The fixed cover 15 of fixed connection of surface of outlet duct 7, one side of fixed cover 15 and the internal surface fixed connection of incubator 1, wherein the structure that drive rotation pipe 9 rotated includes at the internal surface of incubator 1 and lie in one side fixed connection rotation motor 13 of rotation pipe 9, the output fixedly connected with drive gear 14 of rotation motor 13, the fixed surface of rotation pipe 9 is connected with rotation gear 12, drive gear 14 and rotation gear 12 meshing are connected.

The using method of the temperature and humidity environment adjusting device comprises the following steps: placing a placing plate 49 containing a strain on two support blocks 48 on the support bar 46, and detecting the temperature and humidity in the vicinity of the placing plate 49 by an integrated sensor 47;

when the temperature detected by the integrated sensor 47 is lower than the growth environment of the strain and the humidity meets the growth environment of the strain, the heating box 2 and the fan 17 positioned above are started at the moment, and the heat generated by the heating box 2 blows hot air into the incubator 1 through the rotation of the fan 17 in the communication groove 16, at the moment, the driving motor 5 is started to rotate so as to drive the rotating rod 41 to rotate, and the connecting rod 43 on the supporting sleeve 42 is further driven to rotate, so that the fixing rod 44 between the two opposite connecting rods 43 drives the supporting rod 46 to rotate, and the placing plate 49 can be always kept below the fixing rod 44 under the action of gravity due to the shaft sleeve 45 arranged between the supporting rod 46 and the fixing rod 44, and the hot air flow at the moment blows on the surface of the placing plate 49, so that the temperature of the surface of the placing plate 49 is increased;

when the temperature detected by the integrated sensor 47 is higher than the growth environment of the strain and the humidity meets the growth environment of the strain, the driving motor 5 is started to drive the placing frame 4 to rotate and the low-temperature box 3 to generate cool air, and the fan 17 positioned below is made to rotate, so that the cool air is blown to the bottom of the placing plate 49 to cool the strain in the placing plate 49;

when the temperature and the humidity detected by the integrated sensor 47 are lower than the growth environment of the strain, the heating box 2 and the fan 17 positioned above are started, the driving motor 5 is started to drive the placing frame 4 to rotate, the air inlet pipe 6 is communicated with an external pipeline at the moment, atomized particles are filled into the air inlet pipe 6, meanwhile, the control valve 8 positioned below is closed, the atomized particles flow into the air outlet pipe 7 through the air inlet pipe 6 and flow to the upper side, the rotating motor 13 is started to drive the driving gear 14 to rotate, the driving gear 14 is meshed with the rotating gear 12, so that the rotating pipe 9 is driven to rotate on the surface of the air outlet pipe 7, the first air groove 10 and the second air groove 11 are overlapped, the blown hot air flows from the first air groove 10 and the second air groove 11 at the moment are blown into the air outlet pipe 7, and the atomized particles in the air outlet pipe 7 are heated and blown into the culture box 1 from the first air groove 10 and the second air groove 11 below;

when the temperature and the humidity detected by the integrated sensor 47 are higher than the growth environment of the strains, the driving motor 5 is started to drive the placing frame 4 to rotate, and the fan 17 positioned below is started to blow out the air with high temperature and humidity in the incubator;

when the temperature detected by the integrated sensor 47 is lower than the growth environment of the strain and the humidity is higher than the growth environment of the strain, the heating box 2 and the fan 17 positioned above are started at the moment, and the heat generated by the heating box 2 blows hot air into the incubator 1 through the rotation of the fan 17 in the communication groove 16, and at the moment, the driving motor 5 is started to rotate and the fan positioned below is started to blow out the moist air in the incubator 1;

when the temperature detected by the integrated sensor 47 is higher than the growth environment of the strain and the humidity is lower than the growth environment of the strain, the low-temperature box 3 and the fan 17 positioned below are started, the driving motor 5 is started to drive the placing frame 4 to rotate, the control valve 8 positioned above is closed, atomized particles are filled into the air inlet pipe 6, the rotating motor 13 is started to enable the second air groove 11 to coincide with the first air groove 10, and the atomized particles are carried out by the cold air blown out from the low-temperature box 3 through the second air groove 11 and the first air groove 10 and blown into the incubator 1;

when the temperature detected by the integrated sensor 47 satisfies the growth environment of the strain and the humidity is lower than the growth environment of the strain, the fan 17 is started, the two control valves 8 are opened, and the two rotary motors 13 are started, so that the second air tank 11 coincides with the first air tank 10, and atomized particles are blown into the incubator 1;

when the temperature detected by the integrated sensor 47 satisfies the growing environment of the seed and the humidity is higher than the growing environment of the seed, the fan 17 located below is started at this time, and the two control valves 8 are brought into the closed state, so that the moisture in the incubator 1 is blown out.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims

1. The utility model provides a strain cultivation humiture environmental conditioning equipment, includes incubator (1), its characterized in that, the top fixedly connected with heating cabinet (2) of incubator (1), the bottom fixedly connected with low temperature case (3) of incubator (1), heating cabinet (2) are used for producing steam and carry to the inside of incubator (1), low temperature case (3) are used for producing air conditioning and carry to the inside of incubator (1), the inside of incubator (1) is provided with rotatable rack (4), one side of incubator (1) runs through and is provided with intake pipe (6) that are used for carrying atomizing granule, the inside of incubator (1) is provided with outlet duct (7), the end of giving vent to anger of intake pipe (6) communicates with the inlet end of outlet duct (7);

the utility model discloses a gas outlet pipe, including outlet duct (7), upper surface, lower surface, gas outlet duct (7) and gas inlet pipe, be "" font setting of being of outlet duct (7), a plurality of first air tank (10) have been seted up to upper surface and lower surface of outlet duct (7) symmetry respectively, the surface cover of outlet duct (7) and being located first air tank (10) is equipped with rotatable swinging tube (9), a plurality of second air tank (11) have been seted up to the surface symmetry of swinging tube (9).

2. The strain culture temperature and humidity environment adjusting device according to claim 1, wherein the placement frame (4) comprises a rotating rod (41) located in an incubator (1), two sides of the surface of the rotating rod (41) are fixedly connected with supporting sleeves (42), two surfaces of the supporting sleeves (42) are fixedly connected with a plurality of connecting rods (43), a fixing rod (44) is fixedly connected between the two opposite connecting rods (43), two sides of the surface of the fixing rod (44) are respectively provided with a supporting rod (46) capable of rotating, one side of each supporting rod (46) is fixedly connected with two supporting blocks (48), and the tops of the two supporting blocks (48) are provided with a placement plate (49).

3. The strain culture temperature and humidity environment adjusting device according to claim 2, wherein the supporting rod (46) is arranged in a Y shape, one side of the supporting rod (46) is fixedly connected with an integrated sensor (47), and the integrated sensor (47) is used for detecting temperature and humidity.

4. The strain culture temperature and humidity environment adjusting device according to claim 2, wherein shaft sleeves (45) are fixedly connected to two sides of the surface of the fixing rod (44), and the outer surface of each shaft sleeve (45) is fixedly connected with the inner surface of each supporting rod (46).

5. The strain culture temperature and humidity environment adjusting device according to claim 1, wherein the surface of the air outlet pipe (7) is fixedly connected with a plurality of fixing sleeves (15), one side of each fixing sleeve (15) is fixedly connected with the inner surface of the incubator (1), a rotating motor (13) is fixedly connected to the inner surface of the incubator (1) and positioned on one side of the rotating pipe (9), a driving gear (14) is fixedly connected to the output end of the rotating motor (13), a rotating gear (12) is fixedly connected to the surface of the rotating pipe (9), and the driving gear (14) is meshed with the rotating gear (12).

6. The strain culture temperature and humidity environment adjusting device according to claim 1, wherein the top and the bottom of the incubator (1) are provided with communication grooves (16), and a plurality of fans (17) are fixedly connected to the inner surfaces of the communication grooves (16).

7. The strain culture temperature and humidity environment adjusting device according to claim 1, wherein control valves (8) are arranged on the surface of the air outlet pipe (7) and on two sides of the air inlet pipe (6).

8. The strain culture temperature and humidity environment adjusting device according to claim 7, wherein the using method of the temperature and humidity environment adjusting device is as follows: placing a placing plate (49) containing strains on two supporting blocks (48) on a supporting rod (46), and detecting the temperature and the humidity near the placing plate (49) through an integrated sensor (47);

when the temperature detected by the integrated sensor (47) is lower than the growth environment of the strain and the humidity meets the growth environment of the strain, the heating box (2) and the fan (17) positioned above the heating box are started, the heat generated by the heating box (2) blows hot air to the inside of the incubator (1) through the rotation of the fan (17) in the communication groove (16), the driving motor (5) is started to rotate at the moment, so that the rotating rod (41) is driven to rotate, the connecting rod (43) on the supporting sleeve (42) is further driven to rotate, the fixing rod (44) between the two opposite connecting rods (43) drives the supporting rod (46) to rotate, and the shaft sleeve (45) is arranged between the supporting rod (46) and the fixing rod (44), so that the placing plate (49) can be always kept below the fixing rod (44) under the action of gravity, and the hot air is blown to the surface of the placing plate (49) so as to raise the temperature of the surface of the placing plate (49);

when the temperature detected by the integrated sensor (47) is higher than the growth environment of the strains and the humidity meets the growth environment of the strains, the driving motor (5) is started to drive the placing rack (4) to rotate and the low-temperature box (3) to generate cold air, and the fan (17) positioned below is enabled to rotate, so that the cold air is blown to the bottom of the placing plate (49) to cool the strains in the placing plate (49);

when the temperature and the humidity detected by the integrated sensor (47) are lower than the growth environment of the strain, the heating box (2) and the fan (17) positioned above are started, the driving motor (5) is started to drive the placing frame (4) to rotate, at the moment, the air inlet pipe (6) is communicated with an external pipeline, atomized particles are filled into the air inlet pipe (6), meanwhile, the control valve (8) positioned below is closed, at the moment, the atomized particles flow into the air outlet pipe (7) through the air inlet pipe (6) and flow to the upper side, at the moment, the rotating motor (13) is started to drive the driving gear (14) to rotate, and the driving gear (14) is meshed with the rotating gear (12) to drive the rotating pipe (9) to rotate on the surface of the air outlet pipe (7), so that the first air groove (10) and the second air groove (11) are overlapped, at the moment, blown hot air flows into the air outlet pipe (7) from the first air groove (10) and the second air groove (11), and atomized particles in the air outlet pipe (7) are heated and blown into the culture box (1) from the first air groove (10) and the second air groove (11) below;

when the temperature and the humidity detected by the integrated sensor (47) are higher than the growth environment of the strain, the driving motor (5) is started to drive the placing rack (4) to rotate, and the fan (17) positioned below is started to blow out the air with high temperature and humidity in the incubator;

when the temperature detected by the integrated sensor (47) is lower than the growth environment of the strain and the humidity is higher than the growth environment of the strain, the heating box (2) and the fan (17) positioned above the heating box are started, and the heat generated by the heating box (2) blows hot air into the incubator (1) through the rotation of the fan (17) in the communication groove (16), and at the moment, the driving motor (5) is started to rotate and the fan positioned below the heating box is started to blow out humid air in the incubator (1);

when the temperature detected by the integrated sensor (47) is higher than the growth environment of the strain and the humidity is lower than the growth environment of the strain, the low-temperature box (3) and the fan (17) positioned below are started, the driving motor (5) is started to drive the placing frame (4) to rotate, the control valve (8) positioned above is closed, atomized particles are filled into the air inlet pipe (6), the rotating motor (13) is started to enable the second air groove (11) to coincide with the first air groove (10), and cold air blown out from the low-temperature box (3) is taken out through the second air groove (11) and the first air groove (10) and blown into the incubator (1);

when the temperature detected by the integrated sensor (47) meets the growth environment of the strain and the humidity is lower than the growth environment of the strain, the fan (17) is started, the two control valves (8) are in an open state, and the two rotary motors (13) are started to enable the second air tank (11) to coincide with the first air tank (10), so that atomized particles are blown into the incubator (1);

when the temperature detected by the integrated sensor (47) meets the growth environment of the strain and the humidity is higher than the growth environment of the strain, the fan (17) positioned below is started, and the two control valves (8) are in a closed state, so that the moisture in the incubator (1) is blown out.