CN209749353U - Integrated intelligent bacterial cultivation room of thing networking - Google Patents

Abstract

the utility model discloses an integrated intelligent bacterial cultivation room of thing networking, including cultivation room main part, the inside of cultivation room main part is provided with the passageway, the inside cultivation room main part that is provided with of passageway both sides cultivates the district, cultivate and install fixed frame on the cultivation room main part inner wall of district top, the heat lamp is installed to fixed frame's bottom, the light filling lamp is installed to the fixed frame bottom of heat lamp one side, the inside water tank of having placed of cultivation room main part of baffle one side, the spandrel girder is installed to the top of cultivation room main part, the crossbeam is installed to the top of spandrel girder, the ceiling is installed to the both sides of crossbeam. The utility model discloses a set up temperature and humidity sensor, controller, water tank, light filling lamp, heating lamp, fixed frame, carbon dioxide sensor, electric putter, scavenger fan structure, solved the inside humiture of unable real-time supervision cultivation room main part and improved and the problem of unable real-time supervision carbon dioxide concentration.

Description

Integrated intelligent bacterial cultivation room of thing networking

Technical Field

The utility model relates to a technical field is cultivated to the bacterial, specifically is an integrated intelligent bacterial cultivation room of thing networking.

Background

The strains are microorganisms used as live cell catalysts in the fermentation process and comprise four major groups of bacteria, actinomycetes, yeasts and molds. Is derived from a large number of microorganisms in the nature, useful strains are separated and screened from the microorganisms, and then the microorganisms are improved and stored for production. The strain is a propagation material consisting of edible fungi, industrial fungi, agricultural fungi mycelium and growth matrix thereof. The strain is a basic material for microbiological and life science research, and in the medical field, the preparation of diagnostic products, the production of bacterins, the research of microbial pathogenicity, the bacteriostatic test of medicaments, the microbial inspection of medicaments and the like all have a set of complete strains, and the strains are divided into three grades, namely a mother strain (a first grade strain), an original strain (a second grade strain) and a cultivated strain (a third grade strain). The cultivation room is specially set for cultivating strains, and in order to cultivate strains with higher efficiency, various real-time monitoring and environment improvement works need to be carried out in the cultivation room. The utility model particularly relates to an integrated intelligent bacterial cultivation room of thing networking.

However, the prior art has the following defects:

1. The existing cultivation room can not detect the illumination intensity in real time, can not supplement the illumination intensity in time when the illumination intensity is insufficient, and can not detect and adjust the temperature and humidity in the cultivation room in time;

2. The carbon dioxide concentration in the culture room can not be monitored in real time, the strain can not be supplemented in time when the carbon dioxide is lacked, the strain can not be ventilated in time when the concentration is too high, and the culture solution can not be intelligently added at regular time.

SUMMERY OF THE UTILITY MODEL

not enough to prior art, the utility model provides an integrated intelligent bacterial cultivation room of thing networking has solved the inside humiture of unable real-time supervision cultivation room main part and has improved and the problem of unable real-time supervision carbon dioxide concentration.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an integrated intelligent bacterial cultivation room of thing networking, includes the cultivation room main part, the inside of cultivation room main part is provided with the passageway, the cultivation room main part inside of passageway both sides is provided with cultivates the district, cultivate and install fixed frame on the cultivation room main part inner wall of district top, the heat lamp is installed to fixed frame's bottom, the light filling lamp is installed to the fixed frame bottom of heat lamp one side, the cultivation room main part internally mounted of passageway one end has the baffle, the inside water tank of having placed of cultivation room main part of baffle one side, the spandrel girder is installed to the top of cultivation room main part, the crossbeam is installed to the top of spandrel girder, the ceiling is installed to the both sides of crossbeam.

Preferably, the inside of water tank is provided with the water storage chamber, the internally mounted in water storage chamber has first water pump, the inside stock solution chamber that is provided with of water storage chamber one side, the internally mounted in stock solution chamber has the second water pump.

Preferably, a fixing clamp is installed at the bottom of the fixing frame on one side of the light supplement lamp, a liquid guide pipe is clamped on the inner side of the fixing clamp, a liquid outlet pipe is connected to the surface of the liquid guide pipe, and the input end of the liquid guide pipe is connected with the second water pump.

Preferably, electric push rods are installed on two sides of the bearing beam through first hinged shafts, and output ends of the electric push rods are connected with the ceiling through second hinged shafts.

Preferably, the ceiling comprises an installation frame, a glass plate and a solar cell panel, the installation frame is rotatably connected with the cross beam, the glass plate and the solar cell panel are installed on the surface of the installation frame in a staggered mode, a support is installed on the rear side wall inside the cultivation room main body, a storage battery pack is installed above the support, and the input end of the storage battery pack is connected with the solar cell panel.

Preferably, the cultivation room body of the inner side of the cultivation area is internally provided with a spray pipe, the top end of the spray pipe is provided with an atomizing nozzle, and the input end of the spray pipe is connected with the output end of the first water pump through a water delivery pipe.

Preferably, a carbon dioxide sensor is installed above the fixed frame, a temperature and humidity sensor is installed above the fixed frame on one side of the carbon dioxide sensor, an illumination sensor is installed above the fixed frame on one side of the temperature and humidity sensor, and an output end of the carbon dioxide sensor is connected with the controller.

Preferably, install the controller on the inside lateral wall of cultivation room main part, the input and the illumination sensor of controller and temperature and humidity sensor are connected, the output and the light filling lamp of controller, heat lamp, first water pump, second water pump and electric putter are connected.

preferably, a door body is mounted on the surface of the cultivation chamber main body, ventilating fans are mounted on the surface of the cultivation chamber main body on two sides of the door body, and input ends of the ventilating fans are connected with the controller.

The utility model provides an integrated intelligent bacterial cultivation room of thing networking possesses following beneficial effect:

(1) The utility model can detect the temperature and humidity inside the main body of the cultivation room in real time and effectively and timely process the change of the temperature and humidity by arranging the temperature and humidity sensor, the controller, the water tank, the light supplement lamp, the heating lamp and the fixed frame, so that the inside of the main body of the cultivation room is always in a constant cultivation environment, thereby effectively solving the problem that the temperature and the humidity inside the main body of the cultivation room can not be monitored in real time and improved, the cultivation area is arranged inside the main body of the cultivation room, the cultivation area is internally used for cultivating strains, the fixed frame is arranged on the inner wall of the main body of the cultivation room above the cultivation area, the temperature and humidity sensor is arranged above the fixed frame, the heating lamp is arranged at the bottom of the fixed frame, the light supplement lamp is arranged at the bottom of the fixed frame at one side of the heating lamp, the temperature and humidity sensor is, the detection data is transmitted to the controller in real time, the controller is used for internal calibration and comparison, when the temperature and humidity are changed, if the temperature is too low, the controller starts the heating lamp to carry out indoor heating, so that the temperature in the cultivation chamber main body is quickly raised, and when the humidity is too low, the purified water is conveyed to the spray pipe through the water pipe and is sprayed out through the atomizing spray head through the first water pump in the water storage cavity in the water tank, so that the environmental humidity in the cultivation chamber main body is improved, the automatic maintenance of strains is facilitated, the intelligent degree is high, the cultivation effect is good, the illumination sensor is arranged above the fixed frame on one side of the temperature and humidity sensor, after the strains are formed and grown up, the illumination intensity is sensed by the illumination sensor, the external illumination is received through the glass plate in the ceiling, and when the illumination is insufficient, the illumination sensor transmits signals to the controller, controller control light filling lamp work improves the illumination effect, helps the cultivation of bacterial and microorganism, and further installation frame surface mounting in the ceiling has solar cell panel, and the ceiling includes installation frame, glass board and solar cell panel, and the installation frame rotates with the crossbeam to be connected, and the crisscross glass board and the solar cell panel of installing in surface of installation frame utilize solar cell panel to receive light energy, turn into the electric energy and supply storage battery to store the use, utilize storage battery to give the utility model discloses all power equipment supplies power, realize renewable resources's pluralism utilization, the consumption of the energy can be saved.

(2) The utility model can monitor the carbon dioxide concentration inside the main body of the cultivation room in real time by arranging the carbon dioxide sensor, the electric push rod and the ventilation fan, and display the data on the controller in real time, and timely ventilate when the concentration is too high, thereby ensuring the normal growth environment of strains, effectively solving the problem that the carbon dioxide concentration cannot be monitored in real time, the carbon dioxide sensor is arranged above the fixed frame, the carbon dioxide sensor is used for sensing the carbon dioxide concentration inside the main body of the cultivation room and transmitting the detected data to the surface of the controller for displaying, thereby being convenient for an operator to know the carbon dioxide content in real time, being convenient for adding in time to ensure the normal growth of strains, when the carbon dioxide concentration is too high, the controller opens the ventilation fan for ventilation, introduces fresh air for uniform blending, and the controller can control the second water pump inside the liquid storage cavity in the water tank to work in a timed manner, derive the culture solution through the catheter, in deriving to cultivating the district through the drain pipe, realize regularly the ration and add, then, after the inside bacterial of cultivation room main part is ripe, when needing ventilation to carry out next batch bacterial cultivation, through controller control electric putter work, use the crossbeam as the rotatory jack-up in center with the ceiling, improve the draught area, suitable quick taking a breath, the practicality is high.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a top view of the main body of the incubator of the present invention;

fig. 3 is a top view of the present invention;

FIG. 4 is a right side sectional view of the present invention;

fig. 5 is a schematic structural view of the present invention;

Fig. 6 is an internal view of the water tank of the present invention.

In the figure: 1. an incubation chamber body; 2. a cultivation area; 3. a nozzle; 4. a liquid outlet pipe; 5. a heating lamp; 6. an illumination sensor; 7. a temperature and humidity sensor; 8. a spandrel girder; 9. a cross beam; 10. an aisle; 11. a support; 12. a battery pack; 13. a controller; 14. a light supplement lamp; 15. a fixed frame; 16. a carbon dioxide sensor; 17. a first hinge shaft; 18. an electric push rod; 19. a second hinge shaft; 20. a ceiling; 21. an atomizing spray head; 22. a partition plate; 23. a water tank; 24. a catheter; 25. a water delivery pipe; 26. a mounting frame; 27. a glass plate; 28. a solar panel; 29. a fixing clip; 30. a door body; 31. a ventilator; 32. a water storage cavity; 33. a first water pump; 34. a liquid storage cavity; 35. and a second water pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-6, the utility model provides a technical solution: an integrated intelligent strain cultivation room of the Internet of things comprises a cultivation room main body 1, a passageway 10 is arranged inside the cultivation room main body 1, cultivation areas 2 are arranged inside the cultivation room main body 1 on two sides of the passageway 10, a spray pipe 3 is arranged inside the cultivation room main body 1 on the inner side of each cultivation area 2, an atomization nozzle 21 is arranged at the top end of the spray pipe 3, the input end of the spray pipe 3 is connected with the output end of a first water pump 33 through a water pipe 25, a fixed frame 15 is arranged on the inner wall of the cultivation room main body 1 above each cultivation area 2, a carbon dioxide sensor 16 is arranged above the fixed frame 15, a temperature and humidity sensor 7 is arranged above the fixed frame 15 on one side of the carbon dioxide sensor 16, a light sensor 6 is arranged above the fixed frame 15 on one side of the temperature and humidity sensor 7, the output end of the carbon dioxide sensor 16 is connected with a controller 13, and, belongs to the prior art, the model of the temperature and humidity sensor 7 is H7012A temperature and humidity sensor, belongs to the prior art, the model of the illumination sensor 6 is HA2003 illumination sensor, belongs to the prior art, the bottom of the fixed frame 15 is provided with a heating lamp 5, the model of the heating lamp 5 is TCD-50 ceramic heating lamp, belongs to the prior art, the bottom of the fixed frame 15 at one side of the heating lamp 5 is provided with a light supplement lamp 14, the model of the light supplement lamp 14 is E42 light supplement lamp, belongs to the prior art, the bottom of the fixed frame 15 at one side of the light supplement lamp 14 is provided with a fixing clamp 29, the inner side of the fixing clamp 29 clamps a catheter 24, the surface of the catheter 24 is connected with a liquid outlet pipe 4, the input end of the catheter 24 is connected with a second water pump 35, a partition plate 22 is arranged inside the cultivation room main body 1 at one end of the passageway 10, a water tank 23, a first water pump 33 is arranged in a water storage cavity 32, a liquid storage cavity 34 is arranged in a water tank 23 on one side of the water storage cavity 32, a second water pump 35 is arranged in the liquid storage cavity 34, the models of the first water pump 33 and the second water pump 35 are ISGD single-stage water pumps, the cultivation room belongs to the prior art, a cultivation area 2 is arranged in a cultivation room main body 1, strains are cultivated in the cultivation area 2, a fixed frame 15 is arranged on the inner wall of the cultivation room main body 1 above the cultivation area 2, a temperature and humidity sensor 7 is arranged above the fixed frame 15, a heating lamp 5 is arranged at the bottom of the fixed frame 15, a light supplement lamp 14 is arranged at the bottom of the fixed frame 15 on one side of the heating lamp 5, the temperature and humidity sensor 7 is used for sensing the environment temperature and humidity condition in the cultivation room main body 1, detected data are transmitted to a controller 13 in real time, internal calibration and comparison are carried out by the, if the temperature is too low, the controller 13 turns on the heating lamp 5 to heat the indoor, so that the temperature inside the cultivation room main body 1 is rapidly raised, and when the humidity is too low, the first water pump 33 inside the water storage cavity 32 in the water tank 23 works, so that the purified water is conveyed to the spray pipe 3 through the water conveying pipe 25 and is sprayed out through the atomizing spray head 21, thereby improving the environmental humidity inside the cultivation room main body 1, facilitating the automatic maintenance of strains, having high intelligent degree and good cultivation effect, and the illumination sensor 6 is arranged above the fixed frame 15 on one side of the temperature and humidity sensor 7, when the strains grow up, and need illumination, the illumination intensity is sensed by the illumination sensor 6, the external illumination is received through the glass plate 27 in the ceiling 20, and when the illumination is insufficient, the illumination sensor 6 transmits a signal to the controller 13, the controller 13 controls the light supplement lamp 14 to work, so as to improve the illumination effect, the cultivation of strains and microorganisms is facilitated, a solar cell panel 28 is further arranged on the surface of an installation frame 26 in a ceiling 20, the ceiling 20 comprises the installation frame 26, a glass plate 27 and the solar cell panel 28, the installation frame 26 is rotatably connected with a cross beam 9, the glass plate 27 and the solar cell panel 28 are arranged on the surface of the installation frame 26 in a staggered mode, the solar cell panel 28 is used for receiving light energy and converting the light energy into electric energy for storage and use by a storage battery 12, the storage battery 12 is used for supplying power to all electric power appliances of the utility model, diversified utilization of renewable resources is realized, energy consumption is saved, the temperature and humidity condition inside the cultivation room main body 1 can be detected in real time, the change of the temperature and humidity can be effectively and timely processed, the inside of the cultivation room main body 1 is always in a constant cultivation environment, and a bearing beam 8 is arranged above the cultivation room main, the side wall of the interior of the cultivation room main body 1 is provided with a controller 13, the input end of the controller 13 is connected with a light sensor 6 and a temperature and humidity sensor 7, the output end of the controller 13 is connected with a light supplement lamp 14, a heating lamp 5, a first water pump 33, a second water pump 35 and an electric push rod 18, the model of the controller 13 is an MAM-330 controller, the cultivation room belongs to the prior art, a cross beam 9 is arranged above a bearing beam 8, two sides of the cross beam 9 are provided with a ceiling 20, the ceiling 20 comprises an installation frame 26, a glass plate 27 and a solar cell panel 28, the installation frame 26 is rotatably connected with the cross beam 9, the surface of the installation frame 26 is provided with the glass plate 27 and the solar cell panel 28 in a staggered manner, a support 11 is arranged on the rear side wall of the interior of the cultivation room main body 1, a storage battery 12 is arranged above the support 11, the input end of the storage battery 12 is connected, the output end of the electric push rod 18 is connected with the ceiling 20 through the second hinge shaft 19, the model of the electric push rod 18 is PXTL electric push rod, which belongs to the prior art, the surface of the cultivation room main body 1 is provided with the door body 30, the surfaces of the cultivation room main bodies 1 at the two sides of the door body 30 are provided with the ventilation fans 31, the input end of the ventilation fan 31 is connected with the controller 13, the model of the ventilation fan 31 is BPT15-23C ventilation fan, which belongs to the prior art, the carbon dioxide sensor 16 is arranged above the fixed frame 15, the carbon dioxide sensor 16 is used for sensing the carbon dioxide concentration in the cultivation room main body 1, and the detected data is transmitted to the surface of the controller 13 for displaying, so that an operator can know the carbon dioxide content in real time, the timely adding is convenient to ensure the normal growth of strains, and when the carbon dioxide concentration is too high, the controller 13 starts the ventilation, and controller 13 can be regularly in the control water tank 23 inside second water pump 35 work of stock solution chamber 34, derive the culture solution through catheter 24, derive to cultivating in the district 2 through drain pipe 4, realize regularly quantitative interpolation, then, after 1 inside bacterial maturity of cultivation room main part, when needing ventilation to carry out next batch of bacterial cultivation, through controller 13 control electric putter 18 work, use roof 20 to lift up as the center rotation, improve the draught area, suitable quick ventilation, the practicality is high, make the utility model discloses can 1 inside carbon dioxide concentration of real-time supervision cultivation room main part to with the real-time demonstration of data on controller 13, timely ventilation when concentration is too high, guarantee the normal growing environment of bacterial.

when in use, the utility model is provided with a culture area 2 inside a culture chamber main body 1, the culture area 2 is used for culturing strains, a fixed frame 15 is arranged on the inner wall of the culture chamber main body 1 above the culture area 2, a temperature and humidity sensor 7 is arranged above the fixed frame 15, a heating lamp 5 is arranged at the bottom of the fixed frame 15, a light supplement lamp 14 is arranged at the bottom of the fixed frame 15 at one side of the heating lamp 5, the temperature and humidity condition of the environment inside the culture chamber main body 1 is sensed by the temperature and humidity sensor 7, the detected data is transmitted to a controller 13 in real time, the controller 13 is used for internal calibration and comparison, when the temperature and the humidity are changed, if the temperature is too low, the controller 13 starts the heating lamp 5 for indoor heating, so that the temperature inside the culture chamber main body 1 is rapidly raised, and when the humidity is too low, the water pump 33 inside a water storage cavity 32 in a water tank 23 works, the purified water is conveyed to the spray pipe 3 through the water conveying pipe 25 and sprayed out through the atomizing nozzle 21, so that the environment humidity inside the cultivation chamber main body 1 is improved, the automatic maintenance of strains is facilitated, the intelligent degree is high, the cultivation effect is good, the illumination sensor 6 is installed above the fixed frame 15 on one side of the temperature and humidity sensor 7, after the strains grow up and need illumination, the illumination sensor 6 is used for sensing the illumination intensity, the external illumination is received through the glass plate 27 in the ceiling 20, when the illumination is insufficient, the illumination sensor 6 transmits a signal to the controller 13, the controller 13 controls the light supplement lamp 14 to work, the illumination effect is improved, the cultivation of the strains and microorganisms is facilitated, the solar cell panel 28 is further installed on the surface of the installation frame 26 in the ceiling 20, the ceiling 20 comprises the installation frame 26, the glass plate 27 and the solar cell panel 28, the installation frame 26 is rotatably connected with the cross beam 9, the surface of the mounting frame 26 is provided with glass plates 27 and solar cell panels 28 in a staggered manner, the solar cell panels 28 are utilized to receive light energy and convert the light energy into electric energy for storage of the storage battery 12, the storage battery 12 is utilized to supply power for all electric power apparatuses of the utility model, diversified utilization of renewable resources is realized, energy consumption is saved, the carbon dioxide sensor 16 is arranged above the fixed frame 15, the carbon dioxide sensor 16 is utilized to sense the concentration of carbon dioxide in the cultivation room main body 1, detected data is transmitted to the surface of the controller 13 to be displayed, an operator can know the content of carbon dioxide in real time conveniently, timely addition is convenient to ensure the normal growth of strains, when the concentration of carbon dioxide is too high, the controller 13 opens the ventilating fan 31 to ventilate, fresh air is introduced to uniformly blend, and the controller 13 can control the second water pump 35 in the liquid storage cavity 34 in the water tank 23 to work regularly, the culture solution is led out through the liquid guide pipe 24 and led out to the culture area 2 through the liquid outlet pipe 4, timed and quantitative addition is achieved, then, after the strains in the culture chamber main body 1 are mature, when the next batch of strains are cultured by ventilation, the electric push rod 18 is controlled to work through the controller 13, the ceiling 20 is lifted up in a rotating mode by taking the cross beam 9 as the center, the ventilation area is increased, and the quick ventilation is suitable.

To sum up, the utility model discloses a set up temperature and humidity sensor 7, controller 13, water tank 23, light filling lamp 14, heating lamp 5, fixed frame 15, carbon dioxide sensor 16, electric putter 18, scavenger fan 31 structure, solved the inside humiture of unable real-time supervision cultivation room main part and improved and the problem of unable real-time supervision carbon dioxide concentration.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (9)

1. The utility model provides an integrated intelligent bacterial cultivation room of thing networking, includes cultivation room main part (1), its characterized in that: the interior of the cultivation room main body (1) is provided with a passageway (10), the cultivation room main body (1) at two sides of the passageway (10) is internally provided with a cultivation area (2), a fixed frame (15) is arranged on the inner wall of the culture chamber main body (1) above the culture area (2), a heating lamp (5) is arranged at the bottom of the fixed frame (15), a light supplement lamp (14) is arranged at the bottom of the fixed frame (15) at one side of the heating lamp (5), a clapboard (22) is arranged in the cultivation room main body (1) at one end of the passageway (10), a water tank (23) is arranged in the culture chamber main body (1) at one side of the clapboard (22), a bearing beam (8) is installed above the cultivation room main body (1), a cross beam (9) is installed above the bearing beam (8), and ceilings (20) are installed on two sides of the cross beam (9).

2. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: the inside of water tank (23) is provided with water storage chamber (32), the internally mounted of water storage chamber (32) has first water pump (33), the inside stock solution chamber (34) that is provided with of water tank (23) of water storage chamber (32) one side, the internally mounted of stock solution chamber (34) has second water pump (35).

3. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: fixing clamps (29) are installed at the bottom of a fixing frame (15) on one side of the light supplementing lamp (14), a liquid guide pipe (24) is clamped on the inner side of each fixing clamp (29), a liquid outlet pipe (4) is connected to the surface of each liquid guide pipe (24), and the input end of each liquid guide pipe (24) is connected with a second water pump (35).

4. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: electric push rods (18) are installed on two sides of the bearing beam (8) through first hinge shafts (17), and the output ends of the electric push rods (18) are connected with a ceiling (20) through second hinge shafts (19).

5. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: ceiling (20) are including installation frame (26), glass board (27) and solar cell panel (28), installation frame (26) are rotated with crossbeam (9) and are connected, the crisscross glass board (27) and solar cell panel (28) of installing in surface of installation frame (26), install support (11) on the inside back lateral wall of cultivation room main part (1), storage battery (12) are installed to the top of support (11), the input and the solar cell panel (28) of storage battery (12) are connected.

6. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: cultivate room main part (1) internally mounted in district (2) has spray tube (3), atomizer (21) are installed on the top of spray tube (3), the input of spray tube (3) passes through raceway (25) and is connected with the output of first water pump (33).

7. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: carbon dioxide sensor (16) are installed to the top of fixed frame (15), temperature and humidity sensor (7) are installed to fixed frame (15) top of carbon dioxide sensor (16) one side, illumination sensor (6) are installed to fixed frame (15) top of temperature and humidity sensor (7) one side, the output and the controller (13) of carbon dioxide sensor (16) are connected.

8. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: install controller (13) on the inside lateral wall of cultivation room main part (1), the input and the light intensity sensor (6) and temperature and humidity sensor (7) of controller (13) are connected, the output and the light filling lamp (14), heat lamp (5), first water pump (33), second water pump (35) and electric putter (18) of controller (13) are connected.

9. The internet of things integrated intelligent spawn cultivation room of claim 1, wherein: the surface of the cultivation room main body (1) is provided with a door body (30), the surfaces of the cultivation room main bodies (1) at two sides of the door body (30) are provided with ventilation fans (31), and the input ends of the ventilation fans (31) are connected with the controller (13).