CN110055157A - A kind of air stream interlayer multi-temperature zone microorganism co-incubation device - Google Patents
A kind of air stream interlayer multi-temperature zone microorganism co-incubation device Download PDFInfo
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- CN110055157A CN110055157A CN201910157908.6A CN201910157908A CN110055157A CN 110055157 A CN110055157 A CN 110055157A CN 201910157908 A CN201910157908 A CN 201910157908A CN 110055157 A CN110055157 A CN 110055157A
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- air
- setter plate
- microbiological incubator
- hole
- temperature zone
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12M—APPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
- C12M23/00—Constructional details, e.g. recesses, hinges
- C12M23/34—Internal compartments or partitions
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12M—APPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
- C12M29/00—Means for introduction, extraction or recirculation of materials, e.g. pumps
- C12M29/06—Nozzles; Sprayers; Spargers; Diffusers
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12M—APPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
- C12M41/00—Means for regulation, monitoring, measurement or control, e.g. flow regulation
- C12M41/12—Means for regulation, monitoring, measurement or control, e.g. flow regulation of temperature
Abstract
The invention discloses a kind of air stream interlayer multi-temperature zone microorganism co-incubation devices, its structure includes venthole, microbiological incubator, display screen, control button, stabilizer blade, chamber door, movable lock handle, sealing ring, venthole is set to above microbiological incubator and connects with microbiological incubator, display screen, which is inlayed, is fixedly mounted on microbiological incubator surface, compared to the prior art, air-flow is agitated by mini fan, air-flow is flowed in culture dish setter plate inner high speed, air near anti-sticking hole and front end negative inspiratory pressure hole is attracted and path is discharged before, the air-flow of high speed forms the moving air layer of one layer of high speed on culture dish setter plate periphery, since the thermal coefficient of air is 0.023W/mk, it is only above vacuum, so culture dish setter plate two sides are divided into two warm areas, simultaneously as air heat-insulation layer Air flow at high speed, but also strain at two will not because of air exchange and cross-infection.
Description
Technical field
The invention belongs to microbial apparatus technical fields, and in particular to a kind of air stream interlayer multi-temperature zone microorganism is trained jointly
Support device.
Background technique
Microorganism is that various types are with the naked eye difficult to the tiny organism observed, and covers harmful beneficial numerous kinds, woods
Lin always relates generally to every field, in order to go to understand, goes using them, researchers are gone to explore microorganism with various equipment
Secret, the first step of exploration often breed microorganism, to obtain more samples and data, and microorganism
Incubator is just devices which, is carried out using the interior add drop temperature device set to microorganism of the temperature in constant case to placement
Culture, but the prior art considers unfortunately:
The breeding of microorganism can generate different changes under extraneous a variety of causes, some changes be it is small, can
Ignore, and some are then to be difficult to ignored change, such as temperature in illumination or populated regions etc., and at present
Microbiological incubator when cultivating microorganism, can only all adjust in all spaces in case constant is a temperature,
Identical apart from the temperature which results in if one can not be located at when the Acclimation temperature ability for probing into same species of microorganism
In living environment and space, another equipment is needed to carry out assistance experiment, this results in the waste of space and cost, and improves reality
The risk that data generate error is tested, and in test in identical living environment and space, not when the breeding gap of same species of microorganism,
Two kinds of microorganisms are placed in an incubator, due to the air flowing in case, two kinds of microorganisms may cross-infection, produce
Raw unknowable consequence can then allow experiment to become complicated if successively carrying out the microbial reproduction not of the same race experiment of similarity condition
It is cumbersome, it wastes the precious time.
Summary of the invention
In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of air stream interlayer multi-temperature zone microorganism is common
Culture apparatus needs another equipment to be assisted to solve in the breeding tested under same species of microorganism difference survival temperature environment
Experiment is helped, this results in the waste of space and cost, and improves the risk that experimental data generates error, and in test identical
In living environment and space, not when the breeding gap of same species of microorganism, two kinds of microorganisms are placed in an incubator, due to
Air flowing in case, two kinds of microorganisms may cross-infection, unknowable consequence is generated, if successively carrying out similarity condition
Microbial reproduction not of the same race experiment, then experiment can be allowed to become complicated cumbersome, the problem of wasting the precious time.
To achieve the goals above, the present invention is to realize by the following technical solutions: how warm a kind of air stream interlayer is
Area's microorganism co-incubation device, structure include venthole, microbiological incubator, display screen, control button, stabilizer blade, chamber door,
Movable lock handle, sealing ring, it is characterised in that: the venthole is set to above microbiological incubator and microbiological incubator phase
Perforation, the display screen, which is inlayed, is fixedly mounted on microbiological incubator surface, and the control button inlays activity installation to micro- life
Below the display screen of object incubator surface, the stabilizer blade is threadedly coupled fixation, the chamber door right end hinge with microbiological incubator bottom end
Chain is movably arranged on the right end of microbiological incubator, and the activity lock handle is fixed in the middle part of chamber door left end, the sealing ring
The surface for being close to be fixed at microbiological incubator front openings offsets with chamber door.
Preferably, the microbiological incubator is by plate stomata, fixed placement frame, culture dish setter plate, miniature wind
Machine is conductively connected control device, elastic element, gas vent, filter plate, culture box enclosure composition, and the plate stomata, which is set to, to be fixed
Run through incubator case surface between rack, the fixed placement frame is fixedly mounted on incubator outer casing inner wall, the training
Feeding ware setter plate sliding, which is inlayed, to be mounted between fixed placement frame, the opposite side for being installed on fixed placement frame of the mini fan
And connect with fixed placement frame, the conductive connection control device movable inlaying is mounted on incubator outer casing inner wall and through solid
Determine rack, the elastic element, which is fixedly welded on, is conductively connected the one end of control device far from fixed placement frame, the exhaust
Through culture box enclosure, the filter plate, which is fixedly installed to, to be conductively connected between control device and gas vent in hole.
Preferably, the fixed placement frame by chassis body, installation mating groove, conductive embedded hole, send stream block, constant
Temperature adjustment pipe composition, the installation mating groove not exclusively run through chassis body surface, and the conduction embedded hole is located at chassis body side
Face, described that stream block and chassis body is sent to be integrated in the middle part of installation mating groove, the constant temperature adjustment pipe inlays fixation
It is mounted on chassis body surface.
Preferably, the culture dish setter plate by setter plate main body, anti-sticking hole, front end negative inspiratory pressure hole, send stream block
Slot, rear end inserted block, rear end stomata composition, the anti-sticking hole is applied in setter plate body surfaces, front end negative inspiratory pressure hole
It connects in the middle part of through setter plate body front end with anti-sticking hole, it is described that stream block slot is sent to be located at setter plate main body two sides, it is described
Rear end inserted block is integrated with setter plate main body, and the rear end stomata is in the middle part of the inserted block of rear end.
Preferably, the conductive connection control device is contracted by ventilative fixed plate, arcuate conducting prong elements, conductive bump, activity
Block composition, the ventilative fixed plate are equipped with through-hole between arcuate conducting prong elements, and the arcuate conducting prong elements are fixedly mounted on ventilative fixed plate
Surface, the conductive bump are integrated with movable contracting block, and the movable contracting block inlays that be movably arranged on arcuate conducting prong elements remote
One end from ventilative fixed plate.
Preferably, the setter plate main body is by transfer port, conduction hole, baffle, gas-tight excessive piece, flow apron, peace
Plate shell composition is set, the transfer port is applied in setter plate shell two sides, and the conduction hole is set to flow apron surface, described to lead
Stream block is fixed on setter plate outer casing inner wall, and the excessive piece of the gas-tight is integrated with setter plate shell, and the flow apron is solid
Dingan County is mounted in setter plate outer casing inner wall.
Preferably, the fixed placement frame is equipped with air storing cavity with incubator outer casing inner wall junction, gas compression adds
Fast channel, the air storing cavity are mutually communicated with gas compression accelerated passage.
Preferably, the culture dish setter plate set there are five and installation mating groove corresponding thereto also match and be arranged with
Five, the fixed placement frame is connected by being conductively connected control device with control button.
Working principle: culture dish setter plate is rationally slidably mounted between fixed placement frame by space needed for cultivating, after
End inserted block pushes ventilative fixed plate compression elastic element to make its accumulation of energy, is inconjunction with arcuate conducting prong elements and moves backward, makes conductive bump
Constant temperature adjustment pipe is powered, and the constant temperature adjustment pipe of two sides can be controlled by control button above and below culture dish setter plate, is sky where it
Between adjust temperature, while mini fan extracts air by venthole, and inputs inside air storing cavity, and air accelerates in gas compression
Channel is accelerated by structure from large to small, by sending stream block to be sent into air-flow inside culture dish setter plate through transfer port, high speed
Air-flow is limited by flow apron, the exhaust of rear end stomata, and because the slow meeting of fluid flow rate tends to flow velocity side faster
To then high-speed flow attracts the air near anti-sticking hole and front end negative inspiratory pressure hole and path is discharged before, high speed
Air-flow forms the moving air layer of one layer of high speed on culture dish setter plate periphery, since the thermal coefficient of air is 0.023W/
Mk is only above vacuum, so culture dish setter plate two sides are divided into two warm areas, simultaneously as the air of air heat-insulation layer is high
Speed flowing, but also strain at two will not because of air exchange and cross-infection, last air-flow after filter plate,
It is discharged by gas vent.
Beneficial effect
Compared to the prior art, air-flow is agitated by mini fan, air-flow is flowed in culture dish setter plate inner high speed, will
Air near anti-sticking hole and front end negative inspiratory pressure hole attracts and path is discharged before, and the air-flow of high speed is in culture dish setter plate
Periphery forms the moving air layer of one layer of high speed, since the thermal coefficient of air is 0.023W/mk, is only above vacuum, institute
Culture dish setter plate two sides are divided into two warm areas, simultaneously as the air flow at high speed of air heat-insulation layer, but also at two
Strain will not because of air exchange and cross-infection.
Detailed description of the invention
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is a kind of structural schematic diagram of air stream interlayer multi-temperature zone microorganism co-incubation device of the present invention;
Fig. 2 is microbiological incubator partial elevational diagrammatic cross-section of the present invention;
Fig. 3 is microbiological incubator partial side diagrammatic cross-section of the present invention;
Fig. 4 is fixed placement frame structural schematic diagram of the present invention;
Fig. 5 is culture dish setter plate structural schematic diagram of the present invention;
Fig. 6 is that the present invention is conductively connected control device partial structure diagram;
Fig. 7 is that setter plate main body of the present invention faces cross section view;
Fig. 8 is setter plate main body top cross-sectional view of the present invention;
Fig. 9 is diagrammatic cross-section at A of the present invention.
In figure: venthole 1, microbiological incubator 2, plate stomata 21, fixed placement frame 22, chassis body 221, installation are matched
Slot 222, conductive embedded hole 223 are closed, stream block 224 is sent, is constant temperature adjustment pipe 225, culture dish setter plate 23, setter plate main body 231, defeated
Stomata 231-1, conduction hole 231-2, baffle 231-3, gas-tight excessive piece 231-4, flow apron 231-5, setter plate shell 231-
6, anti-sticking hole 232, front end negative inspiratory pressure hole 233, send stream block slot 234, rear end inserted block 235, rear end stomata 236, mini fan
24, control device 25, ventilative fixed plate 251, arcuate conducting prong elements 252, conductive bump 253, movable contracting block 254, elasticity are conductively connected
Element 26, gas vent 27, filter plate 28, culture box enclosure 29, display screen 3, control button 4, stabilizer blade 5, chamber door 6, activity locking handle
Hand 7, sealing ring 8, air storing cavity a, gas compression accelerated passage b.
Specific embodiment
To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to
Specific embodiment, the present invention is further explained.
Please refer to Fig. 1: the venthole 1, display screen 3, control button 4, stabilizer blade 5, chamber door 6, is lived at microbiological incubator 2
Dynamic lock handle 7, sealing ring 8, it is characterised in that: the venthole 1 is set to 2 top of microbiological incubator and microbiological incubator
2 connect, and the display screen 3, which is inlayed, is fixedly mounted on 2 surface of microbiological incubator, and the control button 4 inlays movable installation
To 2 surface display screen of microbiological incubator, 3 lower section, the stabilizer blade 5 is threadedly coupled fixation with 2 bottom end of microbiological incubator, described
6 right end articulate of chamber door is mounted on the right end of microbiological incubator 2, and the activity lock handle 7 is fixed in 6 left end of chamber door
Portion, the surface that the sealing ring 8 is close to be fixed at 2 front openings of microbiological incubator offset with chamber door 6, the activity locking
Handle 7 saves space, and the device for locking chamber door 6 and handle are combined.
Please refer to Fig. 2-3: the microbiological incubator 2 is by plate stomata 21, fixed placement frame 22, culture dish setter plate
23, mini fan 24, conductive connection control device 25, elastic element 26, gas vent 27, filter plate 28, culture box enclosure 29 form,
The plate stomata 21 is set between fixed placement frame 22 through culture 29 surface of box enclosure, the fixed peace of the fixed placement frame 22
On culture 29 inner wall of box enclosure, the sliding of culture dish setter plate 23, which is inlayed, to be mounted between fixed placement frame 22, described
Mini fan 24 is opposite to be installed on the side of fixed placement frame 22 and connects with fixed placement frame 22, the conductive connection control
25 movable inlaying of device is mounted on culture 29 inner wall of box enclosure and through fixed placement frame 22, and the elastic element 26 is welded and fixed
In be conductively connected the one end of control device 25 far from fixed placement frame 22, the gas vent 27 through culture box enclosure 29, institute
It states filter plate 28 to be fixedly installed between conductive connection control device 25 and gas vent 27, the elastic element 26 is losing pressure
When reset be conductively connected control device 25.
Please refer to Fig. 4: the fixed placement frame 22 by chassis body 221, installation mating groove 222, conductive embedded hole 223,
Stream block 224, constant temperature adjustment pipe 225 composition are sent, the installation mating groove 222 not exclusively runs through 221 surface of chassis body, described to lead
Electric embedded hole 223 is located at 221 side of chassis body, described that stream block 224 and chassis body 221 is sent to be integrated set on installation
222 middle part of mating groove, the constant temperature adjustment pipe 225, which is inlayed, is fixedly mounted on 221 surface of chassis body, described to send stream block 224 logical
Enter air-flow.
Please refer to Fig. 5: the culture dish setter plate 23 is by setter plate main body 231, anti-sticking hole 232, front end negative inspiratory pressure hole
233, stream block slot 234, rear end inserted block 235, rear end stomata 236 is sent to form, the anti-sticking hole 232 is applied in setter plate main body
231 surfaces, front end negative inspiratory pressure hole 233 connect through 231 front center of setter plate main body and anti-sticking hole 232, institute
It states and stream block slot 234 is sent to be located at 231 two sides of setter plate main body, the rear end inserted block 235 is integrated knot with setter plate main body 231
Structure, for the rear end stomata 236 through 235 middle part of rear end inserted block, the anti-sticking hole 232 prevents culture dish bottom from touching placement completely
Plate surface, while the air near setter plate is flowed into inside setter plate by it by negative pressure.
Please refer to Fig. 6: the conductive connection control device 25 is by the fixed plate 251, arcuate conducting prong elements 252, conductive bump of breathing freely
253, movable contracting block 254 forms, and the ventilative fixed plate 251 is equipped with through-hole, the arcuate conducting prong elements between arcuate conducting prong elements 252
252 are fixedly mounted on ventilative 251 surface of fixed plate, and the conductive bump 253 is integrated with movable contracting block 254, described
Movable contracting block 254, which is inlayed, is movably arranged on the one end of arcuate conducting prong elements 252 far from ventilative fixed plate 251, in the activity contracting block 254
Portion is equipped with elastic element, for convenience of activity of the arcuate conducting prong elements 252 inside chassis body 221.
Please refer to Fig. 7-8: the setter plate main body 231 is by transfer port 231-1, conduction hole 231-2, baffle 231-3, anti-
Gas overflows piece 231-4, flow apron 231-5, setter plate shell 231-6 composition, and the transfer port 231-1 is applied in setter plate shell
The two sides 231-6, the conduction hole 231-2 are set to the surface flow apron 231-5, and the baffle 231-3 is fixed on outside setter plate
Shell 231-6 inner wall, the excessive piece 231-4 and setter plate shell 231-6 of the gas-tight are integrated, the flow apron 231-5
It is fixedly mounted on setter plate shell 231-6 inner wall, the baffle 231-3 and flow apron 231-5 guide air flow direction.
Specific workflow is as follows:
Culture dish setter plate 23 is rationally slidably mounted between fixed placement frame 22 by space needed for cultivating, rear end inserted block
235 push ventilative 251 compression elastic element 26 of fixed plate to make its accumulation of energy, are inconjunction with arcuate conducting prong elements 252 and move backward, make conductive stud
Block 253 is the energization of constant temperature adjustment pipe 225, and the constant temperature adjustment pipe 225 of about 23 two sides of culture dish setter plate can be by control button 4
Control is Space adjustment temperature where it, while mini fan 24 extracts air by venthole 1, and inputs in air storing cavity a
Portion, air are accelerated in gas compression accelerated passage b by structure from large to small, by sending stream block 224 by air-flow through transfer port
231-1 is sent into inside culture dish setter plate 23, and high-speed flow is limited by flow apron 231-5,236 row of rear end stomata
Gas, and because the slow meeting of fluid flow rate tends to the faster direction of flow velocity, then high-speed flow is by anti-sticking hole 232 and front end negative pressure
Air near suction hole 233 attracts and the path discharge before, the air-flow of high speed form on 23 periphery of culture dish setter plate
The moving air layer of one layer of high speed is only above vacuum, so by culture dish since the thermal coefficient of air is 0.023W/mk
23 two sides of setter plate are divided into two warm areas, simultaneously as the air flow at high speed of air heat-insulation layer, but also the strain at two is not
Can because air exchange and cross-infection, last air-flow through filter plate 28 filtering after, be discharged by gas vent 27.
The present invention is solved in the breeding tested under same species of microorganism difference survival temperature environment, and another equipment is needed to carry out
Experiment is assisted, this results in the waste of space and cost, and improves the risk that experimental data generates error, and in test in phase
With in living environment and space, not when the breeding gap of same species of microorganism, two kinds of microorganisms are placed in an incubator, by
In the air flowing in case, two kinds of microorganisms may cross-infection, unknowable consequence is generated, if successively carrying out same batten
The microbial reproduction not of the same race of part is tested, then experiment can be allowed to become complicated cumbersome, the problem of wasting the precious time, the present invention is logical
Being combined with each other for above-mentioned component to be crossed, air-flow is agitated by mini fan 24, air-flow is flowed in 23 inner high speed of culture dish setter plate,
Anti-sticking hole 232 is attracted with the air near front end negative inspiratory pressure hole 233 and path is discharged before, the air-flow of high speed is being cultivated
23 periphery of ware setter plate forms the moving air layer of one layer of high speed, only high since the thermal coefficient of air is 0.023W/mk
In vacuum, so 23 two sides of culture dish setter plate are divided into two warm areas, simultaneously as the air flow at high speed of air heat-insulation layer,
But also strain at two will not because of air exchange and cross-infection.
Above only describes basic principle of the invention and preferred embodiment, those skilled in the art can be according to foregoing description
Many changes may be made and improves, and these changes and improvements should be within the scope of protection of the invention.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiments being understood that.
Claims (7)
1. a kind of air stream interlayer multi-temperature zone microorganism co-incubation device, structure include venthole (1), microbiological incubator
(2), display screen (3), control button (4), stabilizer blade (5), chamber door (6), movable lock handle (7), sealing ring (8), feature exists
In: the venthole (1) is set to above microbiological incubator (2), and the display screen (3), which is inlayed, is mounted on microbiological incubator
(2) surface, the control button (4) are inlayed to microbiological incubator (2) surface, the stabilizer blade (5) and microbiological incubator (2)
Bottom end is threadedly coupled, and chamber door (6) the right end articulate is mounted on the right end of microbiological incubator (2), the activity locking
Handle (7) is fixed on chamber door (6) left end, and the sealing ring (8) is close to be fixed on microbiological incubator (2) front.
2. a kind of air stream interlayer multi-temperature zone microorganism co-incubation device as described in claim 1, it is characterised in that: described
Microbiological incubator (2) by plate stomata (21), fixed placement frame (22), culture dish setter plate (23), mini fan (24), lead
It is electrically connected control device (25), elastic element (26), gas vent (27), filter plate (28), culture box enclosure (29) composition, it is described to insert
Plate stomata (21) is set between fixed placement frame (22), and the fixed placement frame (22) is fixedly mounted in culture box enclosure (29)
On wall, the culture dish setter plate (23) is slidably mounted between fixed placement frame (22), and the mini fan (24) is opposite to pacify
Side loaded on fixed placement frame (22), the conductive connection control device (25) are movably arranged in culture box enclosure (29)
Wall, the elastic element (26) be fixedly welded on be conductively connected control device (25) one end, the gas vent (27) through
It cultivates box enclosure (29), the filter plate (28), which is fixedly installed to, to be conductively connected between control device (25) and gas vent (27).
3. a kind of air stream interlayer multi-temperature zone microorganism co-incubation device as claimed in claim 2, it is characterised in that: described
Fixed placement frame (22) by chassis body (221), installation mating groove (222), conductive embedded hole (223), send stream block (224), permanent
Temperature pipe (225) of setting the tone forms, and the installation mating groove (222) not exclusively runs through chassis body (221) surface, described conductive chimeric
Hole (223) is located at chassis body (221) side, described that stream block (224) is sent to be integrated with chassis body (221), described
Constant temperature adjustment pipe (225), which is inlayed, is fixedly mounted on chassis body (221) surface.
4. a kind of air stream interlayer multi-temperature zone microorganism co-incubation device as claimed in claim 2, it is characterised in that: described
Culture dish setter plate (23) by setter plate main body (231), anti-sticking hole (232), front end negative inspiratory pressure hole (233), send stream block slot
(234), rear end inserted block (235), rear end stomata (236) composition, the anti-sticking hole (232) are applied in setter plate main body (231) table
Face, front end negative inspiratory pressure hole (233) are described that stream block slot (234) is sent to set through setter plate main body (231) front center
In setter plate main body (231) two sides, the rear end inserted block (235) is integrated with setter plate main body (231), the rear end
Stomata (236) is in the middle part of rear end inserted block (235).
5. a kind of air stream interlayer multi-temperature zone microorganism co-incubation device as claimed in claim 2, it is characterised in that: described
Control device (25) are conductively connected by ventilative fixed plate (251), arcuate conducting prong elements (252), conductive bump (253), movable contracting block
(254) it forms, the ventilative fixed plate (251) is equipped with through-hole between arcuate conducting prong elements (252), and the arcuate conducting prong elements (252) are solid
Dingan County is mounted in ventilative fixed plate (251) surface, and the conductive bump (253) is integrated with movable contracting block (254), described
Movable contracting block (254), which is inlayed, is movably arranged on arcuate conducting prong elements (252) one end.
6. a kind of air stream interlayer multi-temperature zone microorganism co-incubation device as claimed in claim 2, it is characterised in that: described
Fixed placement frame (22) and culture box enclosure (29) inner wall junction are equipped with air storing cavity (a), gas compression accelerated passage (b), institute
Air storing cavity (a) is stated to be mutually communicated with gas compression accelerated passage (b).
7. a kind of air stream interlayer multi-temperature zone microorganism co-incubation device as claimed in claim 4, it is characterised in that: described
Setter plate main body (231) is overflow piece (231-4) by transfer port (231-1), conduction hole (231-2), baffle (231-3), gas-tight, is led
Baffle (231-5), setter plate shell (231-6) composition are flowed, the transfer port (231-1) is applied in setter plate shell (231-6)
Two sides, the conduction hole (231-2) are set to the surface flow apron (231-5), and the baffle (231-3) is fixed on outside setter plate
Shell (231-6) inner wall, the gas-tight piece (231-4) that overflows are integrated with setter plate shell (231-6), the flow apron
(231-5) is fixedly mounted on setter plate shell (231-6) inner wall.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201910157908.6A CN110055157A (en) | 2019-03-02 | 2019-03-02 | A kind of air stream interlayer multi-temperature zone microorganism co-incubation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201910157908.6A CN110055157A (en) | 2019-03-02 | 2019-03-02 | A kind of air stream interlayer multi-temperature zone microorganism co-incubation device |
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CN110055157A true CN110055157A (en) | 2019-07-26 |
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CN201910157908.6A Withdrawn CN110055157A (en) | 2019-03-02 | 2019-03-02 | A kind of air stream interlayer multi-temperature zone microorganism co-incubation device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114278175A (en) * | 2020-09-28 | 2022-04-05 | 洪江市旺隆牧业有限公司 | Culture apparatus for farming |
CN116121059A (en) * | 2020-06-19 | 2023-05-16 | 黑龙江省黑土保护利用研究院 | Microorganism culture equipment containing culture supporting plate and application thereof |
-
2019
- 2019-03-02 CN CN201910157908.6A patent/CN110055157A/en not_active Withdrawn
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116121059A (en) * | 2020-06-19 | 2023-05-16 | 黑龙江省黑土保护利用研究院 | Microorganism culture equipment containing culture supporting plate and application thereof |
CN116121059B (en) * | 2020-06-19 | 2023-09-19 | 黑龙江省黑土保护利用研究院 | Microorganism culture equipment containing culture supporting plate and application thereof |
CN114278175A (en) * | 2020-09-28 | 2022-04-05 | 洪江市旺隆牧业有限公司 | Culture apparatus for farming |
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