CN211689080U

CN211689080U - Microorganism rotation type culture apparatus

Info

Publication number: CN211689080U
Application number: CN201922253587.8U
Authority: CN
Inventors: 王蔚; 曹音; 梁慧玲; 滕雪萍
Original assignee: School Of Traditional Chinese Medicine Affiliated To Guangxi University Of Traditional Chinese Medicine
Current assignee: School Of Traditional Chinese Medicine Affiliated To Guangxi University Of Traditional Chinese Medicine
Priority date: 2019-12-16
Filing date: 2019-12-16
Publication date: 2020-10-16
Anticipated expiration: 2029-12-16

Abstract

The utility model discloses a microorganism rotation type culture apparatus, including incubator, revolution mechanic and temperature control structure, the front end of incubator is open structure, and the inside bottom of incubator is equipped with the backup pad, and the back wall upper end of incubator is equipped with the round mouth, and the left wall upper end of incubator is equipped with the thermovent, and revolution mechanic sets up in the upper end of backup pad, and corresponds the setting with the inner chamber of incubator, and the temperature control structure sets up in the back wall round mouth department of incubator, wherein: still include temperature sensor and PLC controller, temperature sensor sets up in the inner wall upper end of incubator, the PLC controller sets up on the right side outer wall of incubator, the input of PLC controller is connected to temperature sensor's output electricity, this microorganism rotation type culture apparatus, and easy operation guarantees that the microorganism can both fully accept the influence of cultivateing the environment, has satisfied the cultivation user demand, can be accurate to the suitable temperature environment of accuse, thereby the guarantor improves and cultivates the quality, personnel's work burden has been alleviateed.

Description

Microorganism rotation type culture apparatus

Technical Field

The utility model relates to a microbial cultivation equipment technical field specifically is a microbial rotation type culture apparatus.

Background

Autotrophic microorganisms are producers in the ecosystem, convert inorganic matters into organic matters, part of microorganisms are heterotrophic, are decomposers in the ecosystem, decompose animal and plant remains excrement and can convert the organic matters into the inorganic matters, and have great application in daily production and life of people according to the characteristics of different microorganisms, such as lactic acid bacteria, acetic acid bacteria, yeast, rhizobia and the like, everyone and even each individual animal and plant has a large amount of microbial flora on the body surface and in the body, and as for human beings, the microorganisms on the body surface and in the body are usually harmless and even beneficial, so that the culture of the microorganisms is vital, the culture of the microorganisms needs to be assisted by a special culture device, but the traditional microorganism culture device has many defects, is complex to operate, cannot realize the rotation of a culture structure along the axial direction of a frame body at the same time of the rotation, the influence of cultivateing the environment can both fully be accepted to unable assurance microorganism, cultivates and growth quality is difficult to obtain the guarantee, can't satisfy and cultivates the user demand, can not be accurate to the suitable temperature environment of accuse, filtration purification before the unable gaseous heat transfer of assurance to the cultivation quality that leads to the microorganism is not good, has increased personnel's work burden in the intangible, consequently can solve a microorganism rotation type culture apparatus's of this type of problem realization is imperative.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to overcome current defect, provide a microorganism rotation type culture apparatus, easy operation guarantees that the microorganism can both fully accept the influence of cultivateing the environment, has satisfied the cultivation user demand, can be accurate to the suitable temperature environment of accuse, thereby protect and improve the cultivation quality, has alleviateed personnel's work burden, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a rotary microorganism culture device comprises an incubator, a rotary structure and a temperature control structure;

an incubator: the front end of the incubator is of an open structure, the bottom end inside the incubator is provided with a supporting plate, the upper end of the rear wall of the incubator is provided with a round opening, and the upper end of the left wall of the incubator is provided with a heat dissipation opening;

the rotating structure is as follows: the rotating structure is arranged at the upper end of the supporting plate and corresponds to the inner cavity of the incubator;

the temperature control structure: the temperature control structure is arranged at the round opening of the rear wall of the incubator;

wherein: still include temperature sensor and PLC controller, temperature sensor sets up in the inner wall upper end of incubator, the PLC controller sets up on the right side outer wall of incubator, the input of PLC controller is connected to temperature sensor's output electricity, external power source is connected to the input electricity of PLC controller, and the operation is simple, along support body axial rotation when can realizing cultivateing the structure rotation, guarantee that the microorganism can both fully accept the influence of cultivateing the environment, cultivate and growth quality has obtained the guarantee, the cultivation user demand has been satisfied, can be accurate to the suitable temperature environment of accuse, guarantee the filtration purification before the gas heat transfer, thereby improve cultivation quality, personnel's work burden has been alleviateed.

Furthermore, the rotating structure comprises a rotating shaft part, a rotating frame, a culture tank, a circular chute, a guide slide block, a connecting plate, a turnover connecting plate, a motor and a driving gear, wherein the rotating shaft part is rotatably connected to the middle part of the supporting plate through a bearing, the upper end and the lower end of the rotating shaft part both extend to the outer side of the supporting plate, the rotating frame is correspondingly arranged at the upper end of the shaft body of the rotating shaft part, a fixed shaft at the bottom end of the culture tank is rotatably connected with the corresponding plate body of the rotating frame through a bearing, the culture tank is correspondingly arranged with the inner cavity of the incubator, the circular chute is arranged at the middle part of the upper wall of the supporting plate, the guide slide block is uniformly and slidably connected inside the circular chute, a rotating hole at the inner side end of the connecting plate is rotatably connected with a rotating shaft at the upper wall of the corresponding guide slide block, a rotating hole at the outer side end of the connecting plate is rotatably, the motor sets up in the bottom surface of backup pad, and the driving gear sets up in the output shaft bottom of motor, and the driving gear is connected with the bottom driven gear meshing of axis of rotation spare, and the output of PLC controller is connected to the input electricity of motor, fully guarantees that the microorganism can accept the influence of cultivateing the environment such as illumination.

Further, the control by temperature change structure includes pipe, axial fan, hourglass orifice plate, filter screen cover, active carbon bobble and snakelike heater strip, the pipe correspondence sets up in the back wall round mouth department of incubator, and axial fan sets up in the inside front side of pipe through the mounting bracket, and the hourglass orifice plate sets up in the inside center of pipe, and the filter screen cover corresponds through the bolt and installs in the outside mouth of pipe department of pipe, and the active carbon bobble is filled in filter screen cover and the clearance department of leaking the orifice plate, and snakelike heater strip corresponds and sets up on the preceding lateral wall of leaking the orifice plate, and the output of PLC controller is connected to the equal electricity of input of axial fan and snakelike heater strip, realizes the reasonable management and control of.

Further, still include filter screen, light and gas injection pipe, the filter screen correspondence sets up in the thermovent of incubator left wall upper end, and the light sets up respectively in the inner wall upper end of incubator, and the gas injection pipe sets up in the upper wall gas injection mouth department of incubator, and the output of PLC controller is connected to the input electricity of light, guarantees normal environmental regulation and control.

Further, still include chamber door and observation window, the chamber door passes through the hinge and articulates in the antetheca left side of incubator, and the chamber door corresponds the setting with the front end opening of incubator, and the observation window corresponds and sets up in the mid-mounting of chamber door, is convenient for observe and inside management.

Compared with the prior art, the beneficial effects of the utility model are that: the rotary microorganism culture device has the following advantages:

1. connecting a gas injection pipe with an external oxygen manufacturing equipment pipeline, culturing microorganisms in a culture tank according to standard operation, regulating and controlling by a PLC controller in the use process, turning on an illuminating lamp, assisting the culture growth of the microorganisms through illumination, periodically injecting oxygen into the culture tank through the gas injection pipe, monitoring the temperature information in the culture tank in real time by a temperature sensor, timely presenting the monitored temperature data to the PLC controller for integration and analysis, operating an axial flow fan in a circular pipe when the temperature is high, filtering external gas through a filter screen cover, absorbing and purifying the external gas through an activated carbon small ball, fully exchanging with heat in the culture tank for cooling, discharging the hot gas through a heat dissipation port at the upper end of the left wall of the culture tank in time, isolating dust when the filter screen exchanges the gas between the inside and the outside of the culture tank during normal use, heating a snake-shaped heating wire at the front side wall of a leak hole plate when the temperature is low, and heating the ambient air, axial fan operation takes in the gas of heating to realize rapid heating up, easy operation can be accurate to the suitable temperature environment of accuse, guarantees the filtration purification before the gas heat transfer, thereby improves and cultivates the quality, has alleviateed personnel's work burden.

2. The rotation of the output shaft drives the driving gear to rotate by the regulation and control of the PLC controller, the motor operates, the driving gear is meshed and connected with the driven gear at the bottom end of the rotating shaft part, the rotating shaft part is rotatably connected to the middle part of the supporting plate by a bearing, the rotating frame is rotated, further, the culture tank on the rotating frame is ensured to rotate along the axial direction of the rotating frame, as the fixed shaft at the bottom end of the culture tank is rotatably connected with the corresponding plate body of the rotating frame by the bearing, the guide sliding blocks are uniformly and slidably connected inside the circular chute, the rotating hole at the inner side end of the connecting plate is rotatably connected with the rotating shaft at the upper wall of the corresponding guide sliding block, the rotating hole at the outer side end of the connecting plate is rotatably connected with the corresponding bottom end of the culture tank, the rotating shafts at the upper wall of two adjacent culture tanks are respectively rotatably connected with the rotating hole at the end of the corresponding turnover, and then realize culture tank self along its axial rotation to realize the rotation and along the axial rotation of swivel mount, fully guarantee that the microorganism can both accept the influence of cultivateing environment such as illumination in every culture tank, guaranteed cultivation and growth quality, satisfied the user demand, through the interior condition of observation window observation box, open the chamber door according to the condition and add appropriate amount nutrient solution to every culture tank in.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the internal cross-sectional structure of the rotary structure of the present invention;

fig. 4 is the schematic view of the internal sectional plane structure of the temperature control structure of the present invention.

In the figure: the automatic culture device comprises an incubator 1, a support plate 2, a rotating structure 3, a rotating shaft 31, a rotating frame 32, a culture tank 33, a circular chute 34, a guide sliding block 35, a connecting plate 36, a connecting plate 37 for overturning, a motor 38, a driving gear 39, a temperature control structure 4, a circular tube 41, an axial flow fan 42, a perforated plate 43, a filter screen cover 44, an activated carbon pellet 45, a snake-shaped heating wire 46, a temperature sensor 5, a PLC controller 6, a filter screen 7, an illuminating lamp 8, an air injection pipe 9, a box door 10 and an observation window 11.

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.

Referring to fig. 1-4, the present invention provides a technical solution: a microorganism rotary culture device comprises an incubator 1, a rotary structure 3 and a temperature control structure 4;

an incubator 1: the front end of the incubator 1 is an open structure, the incubator 1 provides structures and a microorganism culture place, a support plate 2 is arranged at the bottom end inside the incubator 1, the support plate 2 provides a support and installation place, a round opening is formed in the upper end of the rear wall of the incubator 1, and a heat dissipation opening is formed in the upper end of the left wall of the incubator 1, so that normal gas exchange during ordinary use is guaranteed;

the rotating structure 3: the rotating structure 3 is arranged at the upper end of the supporting plate 2 and is arranged corresponding to the inner cavity of the incubator 1, the rotating structure 3 comprises a rotating shaft 31, a rotating frame 32, an incubation groove 33, a circular sliding groove 34, a guide sliding block 35, a connecting plate 36, a turnover connecting plate 37, a motor 38 and a driving gear 39, the rotating shaft 31 is rotatably connected to the middle part of the supporting plate 2 through a bearing, the upper end and the lower end of the rotating shaft 31 both extend to the outer side of the supporting plate 2, the rotating frame 32 is correspondingly arranged at the upper end of the shaft body of the rotating shaft 31, a fixed shaft at the bottom end of the incubation groove 33 is rotatably connected with a plate body corresponding to the rotating frame 32 through a bearing, the incubation groove 33 is correspondingly arranged with the inner cavity of the incubator 1, the circular sliding groove 34 is arranged at the middle part of the upper wall of the supporting plate 2, the guide sliding block 35 is uniformly and slidably connected to the inner, the rotary holes at the outer side ends of the connecting plates 36 are rotatably connected with the corresponding fixed shafts at the bottom ends of the culture tanks 33, the upper wall rotary shafts of two adjacent culture tanks 33 are respectively rotatably connected with the rotary holes at the end ends of the turning connecting plates 37, the motor 38 is arranged at the bottom surface of the supporting plate 2, the driving gear 39 is arranged at the bottom end of the output shaft of the motor 38, the driving gear 39 is meshed with the bottom driven gear of the rotary shaft 31, the motor 38 operates, the output shaft rotates to drive the driving gear 39 to rotate, because the driving gear 39 is meshed with the bottom driven gear of the rotary shaft 31, the rotary shaft 31 is rotatably connected with the middle part of the supporting plate 2 through a bearing, the rotary frame 32 is rotated, the culture tanks 33 on the rotary frame 32 are further ensured to rotate along the axial direction of the rotary frame 32, because the fixed shafts at the bottom ends of the culture tanks 33 are rotatably connected with, the rotating holes at the inner side ends of the connecting plates 36 are rotatably connected with the rotating shafts on the upper walls of the corresponding guide sliding blocks 35, the rotating holes at the outer side ends of the connecting plates 36 are rotatably connected with the fixed shafts at the bottom ends of the corresponding culture tanks 33, the rotating shafts on the upper walls of the two adjacent culture tanks 33 are respectively rotatably connected with the rotating holes at the ends of the corresponding turnover connecting plates 37, in the rotating process of the rotating frame 32, the arc-shaped sliding stroke of the guide sliding blocks 35 and the circular sliding grooves 34 is smaller than the rotating stroke of the corresponding culture tanks 33, so that the culture tanks 33 can rotate along the axial direction thereof, the rotation and the axial rotation of the rotating frame 32 are realized, the microorganisms in each culture tank 33 can be fully ensured to be influenced by culture environments such as illumination, the culture and growth quality is ensured, and the;

temperature control structure 4: the temperature control structure 4 is arranged at a round opening of the rear wall of the incubator 1, the temperature control structure 4 comprises a round pipe 41, an axial flow fan 42, a perforated plate 43, a filter screen cover 44, an activated carbon small ball 45 and a snake-shaped heating wire 46, the round pipe 41 is correspondingly arranged at the round opening of the rear wall of the incubator 1, the axial flow fan 42 is arranged at the front side of the inner part of the round pipe 41 through a mounting rack, the perforated plate 43 is arranged at the center of the inner part of the round pipe 41, the filter screen cover 44 is correspondingly arranged at the pipe opening of the outer side of the round pipe 41 through bolts, the activated carbon small ball 45 is filled in a gap between the filter screen cover 44 and the perforated plate 43, the snake-shaped heating wire 46 is correspondingly arranged on the front side wall of the perforated plate 43, when the temperature is high, the axial flow fan 42 in the round pipe 41 operates, external air is filtered through the filter screen cover 44 and absorbed and purified through the activated carbon small ball 45, when the temperature is lower, the snake-shaped heating wire 46 on the front side wall of the orifice plate 43 is heated to heat the surrounding air, the axial flow fan 42 is operated to pump in the heated air, so that the rapid temperature rise is realized, the proper temperature in the box body is ensured, the culture quality is improved, and the workload of personnel is reduced;

wherein: still include temperature sensor 5 and PLC controller 6, temperature information in temperature sensor 5 real-time supervision incubator 1, and the temperature data with the monitoring in time is presented and gives PLC controller 6 integrated analysis and regulation and control, temperature sensor 5 sets up in incubator 1's inner wall upper end, PLC controller 6 sets up on incubator 1's right side outer wall, PLC controller 6's input is connected to temperature sensor 5's output electricity, external power source is connected to PLC controller 6's input electricity, motor 38, PLC controller 6's output is connected to the equal electricity of axial fan 42 and serpentine heater 46's input.

Wherein: still include filter screen 7, light 8 and gas injection pipe 9, filter screen 7 guarantees that the dust before the gas exchange is taken into the photograph keeps apart, light 8 provides the illumination, supplementary microbial growth, gas injection pipe 9 is convenient for grow the injection of oxygen, filter screen 7 corresponds and sets up in the thermovent of 1 left wall upper end of incubator, light 8 sets up respectively in incubator 1's inner wall upper end, gas injection pipe 9 sets up in incubator 1's upper wall gas injection mouth department, the output of PLC controller 6 is connected to light 8's input electricity.

Wherein: still include chamber door 10 and observation window 11, chamber door 10 passes through the hinge and articulates in the antetheca left side of incubator 1, and chamber door 10 corresponds the setting with the front end opening of incubator 1, and observation window 11 corresponds and sets up in the mid-mounting of chamber door 10, through the interior condition of observation window 11 observation box, opens chamber door 10 according to the condition and adds appropriate amount nutrient solution to every culture tank 33 in.

When in use: the gas injection pipe 9 is connected with an external oxygen manufacturing equipment pipeline, microorganisms are cultured in the culture tank 33 according to standard operation, in the using process, the PLC controller 6 is used for regulating and controlling, the illuminating lamp 8 is turned on, the culture and growth of the microorganisms are assisted by illumination, oxygen is injected into the culture box 1 through the gas injection pipe 9 regularly, the temperature sensor 5 monitors the temperature information in the culture box 1 in real time, the monitored temperature data are presented to the PLC controller 6 in time for integration and analysis, when the temperature is high, the axial flow fan 42 in the circular pipe 41 is operated, external gas is filtered through the filter screen cover 44 and absorbed and purified by the activated carbon small balls 45, the temperature is fully exchanged and reduced with the hot gas in the culture box, the hot gas is discharged through a heat dissipation port at the upper end of the left wall of the culture box 1 in time, when the filter screen 7 is used at ordinary times, dust is isolated when the gas in the interior and exterior of the culture box is exchanged, when the temperature is, the surrounding air is heated, the axial flow fan 42 operates, the heated gas is pumped in, so that the rapid temperature rise is realized, the proper temperature in the box body is ensured, the culture quality is improved, the work load of personnel is lightened, in order to ensure that microorganisms in each culture tank 33 can fully accept the influence of culture environments such as illumination and the like, the motor 38 operates, the output shaft rotates to drive the driving gear 39 to rotate, as the driving gear 39 is meshed with the driven gear at the bottom end of the rotating shaft 31, the rotating shaft 31 is rotatably connected to the middle part of the supporting plate 2 through a bearing, the rotating frame 32 rotates, further the culture tanks 33 on the rotating frame 32 are ensured to rotate along the axial direction of the rotating frame 32, as the fixed shaft at the bottom ends of the culture tanks 33 is rotatably connected with the plate bodies corresponding to the rotating frame 32 through bearings, the guide sliders 35 are uniformly and slidably connected to the inner parts of the circular ring chutes 34, and the rotating holes at, the rotating holes at the outer side ends of the connecting plates 36 are rotatably connected with the corresponding rotating holes at the bottom ends of the culture tanks 33, the rotating shafts on the upper walls of the two adjacent culture tanks 33 are respectively rotatably connected with the rotating holes at the ends of the turning connecting plates 37, in the rotating process of the rotating frame 32, the arc-shaped sliding strokes of the guide sliding blocks 35 and the circular sliding grooves 34 are smaller than the rotating strokes of the corresponding culture tanks 33, and further the culture tanks 33 rotate along the axial direction of the culture tanks, so that the rotation and the axial rotation along the rotating frame 32 are realized, the microorganisms in each culture tank 33 can be fully guaranteed to be influenced by the culture environments such as illumination, the culture and growth quality is guaranteed, the use requirements are met, the conditions in the box are observed through the observation windows 11, and the box door 10 is opened according to the conditions to add a proper amount of.

It should be noted that the specific model of the PLC controller 6 disclosed in this embodiment is siemens S7-200, the temperature sensor 5 may be a PTOD102 platinum resistance temperature sensor, the PLC controller 6 controls the operation of the illumination lamp 8, the motor 38, the axial flow fan 42 and the serpentine heating wire 46 by a method commonly used in the prior art, and the illumination lamp 8, the motor 38, the axial flow fan 42 and the serpentine heating wire 46 are all original components commonly used in a microorganism culture apparatus in the prior art.

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. A microorganism rotary culture device is characterized in that: comprises an incubator (1), a rotating structure (3) and a temperature control structure (4);

incubator (1): the front end of the incubator (1) is of an open structure, a supporting plate (2) is arranged at the bottom end inside the incubator (1), a round opening is formed in the upper end of the rear wall of the incubator (1), and a heat dissipation opening is formed in the upper end of the left wall of the incubator (1);

rotation structure (3): the rotating structure (3) is arranged at the upper end of the supporting plate (2) and corresponds to the inner cavity of the incubator (1);

temperature control structure (4): the temperature control structure (4) is arranged at a round opening of the rear wall of the incubator (1);

wherein: still include temperature sensor (5) and PLC controller (6), temperature sensor (5) set up in the inner wall upper end of incubator (1), and PLC controller (6) set up on the right side outer wall of incubator (1), and the input of PLC controller (6) is connected to the output electricity of temperature sensor (5), and external power source is connected to the input electricity of PLC controller (6).

2. The rotary microbial culture apparatus of claim 1, wherein: the rotating structure (3) comprises a rotating shaft part (31), a rotating frame (32), a culture tank (33), a circular chute (34), a guide sliding block (35), a connecting plate (36), a turnover connecting plate (37), a motor (38) and a driving gear (39), wherein the rotating shaft part (31) is rotatably connected to the middle part of the support plate (2) through a bearing, the upper end and the lower end of the rotating shaft part (31) both extend to the outer side of the support plate (2), the rotating frame (32) is correspondingly arranged at the upper end of a shaft body of the rotating shaft part (31), a fixed shaft at the bottom end of the culture tank (33) is rotatably connected with a plate body corresponding to the rotating frame (32) through a bearing, the culture tank (33) is correspondingly arranged with an inner cavity of the culture box (1), the circular chute (34) is arranged at the middle part of the upper wall of the support plate (2), the guide sliding block (35) is uniformly and slidably connected inside the circular chute (34), a rotating hole at the inner side end of the connecting plate (36, the rotating hole at the outer end of the connecting plate (36) is rotatably connected with a bottom end fixing shaft of the corresponding culture tank (33), the rotating shafts of the upper walls of the two adjacent culture tanks (33) are respectively rotatably connected with the rotating holes at the ends of the corresponding turnover connecting plates (37), the motor (38) is arranged on the bottom surface of the support plate (2), the driving gear (39) is arranged at the bottom end of an output shaft of the motor (38), the driving gear (39) is meshed with a bottom driven gear of the rotating shaft piece (31), and the input end of the motor (38) is electrically connected with the output end of the PLC (6).

3. The rotary microbial culture apparatus of claim 1, wherein: temperature control structure (4) include pipe (41), axial fan (42), hourglass orifice plate (43), filter screen cover (44), activated carbon bobble (45) and snakelike heater strip (46), pipe (41) correspond to set up in the back wall mouth of a circle department of incubator (1), axial fan (42) set up in the inside front side of pipe (41) through the mounting bracket, leak orifice plate (43) and set up in the inside center of pipe (41), filter screen cover (44) correspond through the bolt and install in the outside mouth of pipe department of pipe (41), activated carbon bobble (45) are filled in the clearance department of filter screen cover (44) and hourglass orifice plate (43), snakelike heater strip (46) correspond and set up on the preceding lateral wall of hourglass orifice plate (43), the output of PLC controller (6) is all connected electrically to the input of axial fan (42) and snakelike heater strip (46).

4. The rotary microbial culture apparatus of claim 1, wherein: still include filter screen (7), light (8) and gas injection pipe (9), filter screen (7) correspond to set up in the radiator hole of incubator (1) left wall upper end, and light (8) set up respectively in the inner wall upper end of incubator (1), and gas injection pipe (9) set up in the last wall gas injection mouth department of incubator (1), and the output of PLC controller (6) is connected to the input electricity of light (8).

5. The rotary microbial culture apparatus of claim 1, wherein: still include chamber door (10) and observation window (11), chamber door (10) pass through the hinge and articulate in the antetheca left side of incubator (1), and chamber door (10) correspond the setting with the front end opening of incubator (1), and observation window (11) correspond and set up in the middle part of chamber door (10) is installed intraorally.