CN114276917A - Microbial cultivation device for biological cultivation - Google Patents
Microbial cultivation device for biological cultivation Download PDFInfo
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- CN114276917A CN114276917A CN202111459600.0A CN202111459600A CN114276917A CN 114276917 A CN114276917 A CN 114276917A CN 202111459600 A CN202111459600 A CN 202111459600A CN 114276917 A CN114276917 A CN 114276917A
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- 230000000813 microbial effect Effects 0.000 title claims abstract description 6
- 239000000463 material Substances 0.000 claims abstract description 45
- 244000005700 microbiome Species 0.000 claims abstract description 37
- 238000012258 culturing Methods 0.000 claims abstract description 12
- 238000005507 spraying Methods 0.000 claims abstract description 10
- 238000001125 extrusion Methods 0.000 claims description 23
- 238000005096 rolling process Methods 0.000 claims description 15
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 13
- 230000005540 biological transmission Effects 0.000 claims description 8
- 238000003825 pressing Methods 0.000 claims description 3
- 238000007599 discharging Methods 0.000 claims 2
- 239000001963 growth medium Substances 0.000 abstract description 26
- 230000004083 survival effect Effects 0.000 abstract description 9
- 230000000694 effects Effects 0.000 abstract description 6
- 239000007788 liquid Substances 0.000 abstract description 2
- 239000007787 solid Substances 0.000 description 14
- 238000009630 liquid culture Methods 0.000 description 10
- 238000000034 method Methods 0.000 description 5
- 238000005286 illumination Methods 0.000 description 3
- 238000001816 cooling Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 238000011081 inoculation Methods 0.000 description 2
- 238000011160 research Methods 0.000 description 2
- 239000007921 spray Substances 0.000 description 2
- 238000006467 substitution reaction Methods 0.000 description 2
- 230000001580 bacterial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000002156 mixing Methods 0.000 description 1
- 238000009827 uniform distribution Methods 0.000 description 1
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Abstract
The invention relates to a microorganism culture device, in particular to a microorganism culture device suitable for biological culture. The invention provides a suitable microorganism culture device for culturing organisms, which has high survival rate of the microorganisms and high automation degree. A microbial cultivation apparatus for biological cultivation, comprising: the culture frame is rotatably arranged on the bottom frame; the first support frame is arranged on the underframe; the first support block is arranged on the underframe and connected with the first support frame; the bottom frame is provided with a pushing mechanism, and the pushing mechanism is matched with the first support frame; spout the material mechanism, be equipped with on the chassis and spout the material mechanism, spout the material mechanism and be connected with first support frame. The invention achieves the effect of improving the survival rate of microorganisms, and improves the survival rate of microorganisms by culturing the microorganisms in a solid-liquid mixed culture medium through the matching of the material pushing mechanism and the material spraying mechanism.
Description
Technical Field
The invention relates to a microorganism culture device, in particular to a microorganism culture device suitable for biological culture.
Background
When people culture strains, because different strains need different culture environments, when some strains cannot reach proper conditions, the strains are difficult to grow and even die, and researches show that the growth rate of the strains can be effectively improved by adopting a solid-liquid mixed culture medium to culture the strains.
The publication number is CN212051323U, discloses a microorganism culture device, relates to the technical field of microorganisms, and the microorganism culture device comprises a U-shaped fixing frame fixedly arranged on the outer surface of the top of a base, a water inlet pipeline and a water outlet pipeline are fixedly arranged on the inner wall of one side of the U-shaped fixing frame, a steam input pipeline and a steam output pipeline are fixedly arranged on the inner wall of the other side of the U-shaped fixing frame, a culture cylinder is arranged inside the U-shaped fixing frame, a cooling cavity and a steam cavity are arranged inside the culture cylinder, the water inlet pipeline and the water outlet pipeline are both communicated with the inside of the cooling cavity, the steam input pipeline and the steam output pipeline are both communicated with the inside of the steam cavity, a U-shaped culture drawer is fixedly arranged at the bottom of the inner side of the U-shaped fixing frame, a cover plate is fixedly arranged on the outer surface of the front end of the U-shaped culture drawer, and the microorganism culture device, the microorganism culture device has the advantages that a comfortable culture environment is provided for the microorganism, the death condition of the microorganism is reduced, the automation degree of the device is lower, and the number of the cultured microorganisms is less.
Therefore, there is a need to develop and research a suitable microorganism culture apparatus for culturing a microorganism, which can improve the survival rate of the microorganism and has a high degree of automation.
Disclosure of Invention
In order to overcome the defects of high microorganism mortality and low equipment automation degree, the invention has the technical problems that: provides a suitable microorganism culture device for culturing organisms with high survival rate of the microorganisms and high automation degree.
The technical implementation scheme of the invention is as follows: a microbial cultivation apparatus for biological cultivation, comprising:
the bottom frame is rotatably provided with a culture frame;
the first support frame is arranged on the underframe;
the first support block is arranged on the underframe and connected with the first support frame;
the bottom frame is provided with a pushing mechanism, and the pushing mechanism is matched with the first support frame;
spout the material mechanism, be equipped with on the chassis and spout the material mechanism, spout the material mechanism and be connected with first support frame.
Further, the pushing mechanism comprises:
the underframe is provided with a second supporting block;
the cylinder is mounted on the second supporting block;
the first support frame is provided with a material pushing block in a sliding mode, and the material pushing block is connected with the telescopic rod of the air cylinder.
Further, spout material mechanism including:
the underframe is provided with a third supporting block;
the third supporting block is provided with a loading frame;
the extrusion block is arranged on the charging frame in a sliding manner;
the water pipe is arranged on the charging frame;
the atomizing nozzle is connected to the water pipe and connected with the first support frame.
Further, the method also comprises the following steps:
the rotating mechanism is arranged on the underframe and is connected with the material pushing mechanism and the culture frame;
the rotating mechanism comprises:
the bottom frame is rotatably provided with a first rotating shaft;
the transmission assembly is connected between the first rotating shaft and the culture frame;
the first rotating shaft is provided with a directional gear;
the rack is arranged on the underframe in a sliding manner and meshed with the directional gear;
the first sliding rod is arranged on the underframe and is connected with the rack in a sliding manner;
the first spring is wound on the first sliding rod and connected with the chassis and the rack;
the rack is provided with a wedge block;
the pushing block is provided with a pushing frame;
the rolling block is arranged on the pushing frame in a rotating mode and matched with the wedge-shaped block;
the first support frame is provided with a first slide rail, and the first slide rail is connected with the pushing frame in a sliding manner.
Further, the method also comprises the following steps:
the first support frame is provided with a feeding mechanism, and the feeding mechanism is connected with the material pushing mechanism;
unloading mechanism including:
the first support frame is provided with two first support blocks;
the two fourth supporting blocks are connected with the blanking frame;
the stop block is arranged on the material pushing block and matched with the blanking frame.
Further, the method also comprises the following steps:
the extrusion mechanism is arranged on the material spraying mechanism and is connected with the culture frame;
the extrusion mechanism includes:
the culture frame is provided with a rotating block;
the rotary block is provided with two lugs;
the first sliding sleeve is arranged on the charging frame;
the first sliding sleeve is provided with a first sliding rod in a sliding manner;
the second spring is wound on the second sliding rod and connected with the second sliding rod and the first sliding sleeve;
the second sliding rod is provided with a jacking block, and the jacking block is matched with the convex block;
the shaft sleeve is arranged on the charging frame;
the shaft sleeve is rotatably provided with a swing rod, and the swing rod is matched with the extrusion block and the second sliding rod.
Further, the method also comprises the following steps:
the light control mechanism is arranged on the first support frame.
Further, the light control mechanism includes:
the first support frame is provided with a fifth support block;
two second slide rails are arranged on the fifth supporting block;
the two second sliding rails are connected with the refraction lenses in a sliding mode, and the refraction lenses are connected with handles in a sliding mode;
and the second sliding sleeve is arranged on the fifth supporting block and is connected with the handle in a sliding manner.
The invention has the following advantages:
1. the invention achieves the effect of improving the survival rate of microorganisms, and can effectively improve the growth efficiency of strains by mixing and culturing the microorganisms by the solid-liquid culture medium through the matching of the material pushing mechanism and the material spraying mechanism, thereby improving the survival rate of the microorganisms.
2. The invention achieves the effect of improving the automation of equipment, can facilitate the blanking of liquid culture medium and solid culture medium by the matching of the rotating mechanism, the blanking mechanism and the extruding mechanism, and can automatically shake the culture frame to ensure the uniform distribution of strains.
3. The invention achieves the effect of adjusting the culture conditions of the strains, and the left and right movement of the refraction lens can be realized by moving the handle left and right through the light control mechanism, so that the illumination intensity of the illumination entering the culture frame is adjusted, and people can adjust different light intensities according to different strains.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of the pushing mechanism of the present invention.
Fig. 3 is a schematic perspective view of the pressing mechanism of the present invention.
Fig. 4 is a schematic perspective view of the rotating mechanism of the present invention.
Fig. 5 is a schematic perspective view of the blanking mechanism of the present invention.
Fig. 6 is a schematic perspective view of the pressing mechanism of the present invention.
Fig. 7 is a schematic perspective view of a light control mechanism according to the present invention.
In the above drawings: 1: chassis, 2: culture frame, 3: first support frame, 4: first support block, 5: pushing mechanism, 51: second support block, 52: cylinder, 53: pusher block, 6: spout material mechanism, 61: third support block, 62: material loading frame, 63: extrusion block, 64: water pipe, 65: atomizer, 7: rotation mechanism, 71: transmission assembly, 72: first rotating shaft, 73: directional gear, 74: rack, 75: first slide lever, 76: first spring, 77: wedge block, 78: rolling block, 79: push frame, 710: first slide rail, 8: unloading mechanism, 81: fourth support block, 82: blanking frame, 83: stopper, 9: extrusion mechanism, 91: rotation block, 92: bump, 93: jack-up block, 94: second slide bar, 95: first runner, 96: second spring, 97: swing lever, 98: shaft sleeve, 10: light control mechanism, 101: fifth support block, 102: second slide rail, 103: refractive lens, 104: handle, 105: and the second sliding sleeve.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
The utility model provides a biological cultivation is with being suitable for microbial cultivation device, as shown in figure 1, including chassis 1, cultivate frame 2, first support frame 3, first supporting block 4, pushing equipment 5 and spout material mechanism 6, the middle part rotary type is equipped with cultivates frame 2 on chassis 1, the upper left part of chassis 1 is equipped with first support frame 3, the upper right part of chassis 1 is equipped with first supporting block 4, first supporting block 4 is connected with first support frame 3, chassis 1 front side is equipped with pushing equipment 5, pushing equipment 5 cooperates with first support frame 3, chassis 1 rear side is equipped with spouts material mechanism 6, it is connected with first support frame 3 to spout material mechanism 6.
When people culture microorganisms, the number of the cultured microorganisms is small due to improper environment, the method helps people improve the survival rate of the microorganisms, after the equipment is comprehensively sterilized, firstly, the solid culture medium is pushed into the culture frame 2 through the material pushing mechanism 5, then, the liquid culture medium is sprayed into the culture frame 2 through the material spraying mechanism 6, then, the strains are put into the culture frame 2 for inoculation, the culture frame 2 is manually rotated, so that the inoculation of the strains is uniform, the strains can be obtained after being cultured for a period of time, the growth efficiency of the strains can be effectively improved through mixed culture of the solid culture medium and the liquid culture medium, the survival rate of the microorganisms is improved, and when the equipment is used again, the steps are repeated.
Example 2
Based on embodiment 1, as shown in fig. 2 and fig. 3, the pushing mechanism 5 includes a second supporting block 51, an air cylinder 52 and a pushing block 53, the second supporting block 51 is disposed on the front side of the chassis 1, the air cylinder 52 is mounted on the rear side of the upper portion of the second supporting block 51, the pushing block 53 is slidably disposed on the top of the first supporting frame 3, and the pushing block 53 is connected to the air cylinder 52 through a telescopic rod.
Firstly, a solid culture medium is placed on the first support frame 3, after the air cylinder 52 is started, the telescopic rod of the air cylinder 52 drives the pushing block 53 to move backwards, after the pushing block 53 is matched with the solid culture medium, the pushing block 53 pushes the solid culture medium backwards until the pushing block 53 pushes the solid culture medium away from the first support frame 3, the solid culture medium drops into the culture frame 2 due to gravity, then the telescopic rod of the air cylinder 52 drives the pushing block 53 to move forwards to an initial position, at the moment, people close the air cylinder 52, the effect of transferring the solid culture medium can be realized, and when the equipment is used again, the steps are repeated.
The material spraying mechanism 6 comprises a third supporting block 61, a material loading frame 62, an extrusion block 63, a water pipe 64 and an atomizing nozzle 65, the third supporting block 61 is arranged on the rear side of the underframe 1, the material loading frame 62 is arranged at the top of the third supporting block 61, the extrusion block 63 is slidably arranged at the top of the material loading frame 62, the water pipe 64 is arranged on the front side of the material loading frame 62, the atomizing nozzle 65 is connected to the front portion of the water pipe 64, and the atomizing nozzle 65 is connected with the first supporting frame 3.
Firstly, people add liquid culture medium into the material loading frame 62, then press the extrusion block 63 downwards, due to air pressure, the liquid culture medium in the material loading frame 62 enters the atomizing nozzle 65 through the water pipe 64, the atomizing nozzle 65 sprays the liquid culture medium into the culture frame 2, after the extrusion block 63 is stopped being pressed, the extrusion block 63 automatically moves upwards to an initial state under the action of the spring, the atomizing nozzle 65 does not spray the liquid culture medium any more, and when the equipment is used again, the steps are repeated.
Example 3
On the basis of the embodiment 2, as shown in fig. 1, 4, 5, 6 and 7, the present invention further comprises a rotating mechanism 7, the front portion of the bottom chassis 1 is provided with the rotating mechanism 7, the rotating mechanism 7 is connected with the pushing mechanism 5 and the culture frame 2, the rotating mechanism 7 comprises a transmission assembly 71, a first rotating shaft 72, a directional gear 73, a rack 74, a first sliding rod 75, a first spring 76, a wedge 77, a rolling block 78, a pushing frame 79 and a first sliding rail 710, the front portion of the bottom chassis 1 is rotatably provided with the first rotating shaft 72, the transmission assembly 71 is connected between the first rotating shaft 72 and the culture frame 2, the transmission assembly 71 comprises the first rotating shaft 72, a chain wheel on the culture frame 2 and a chain wound between the two chain wheels, the upper portion of the first rotating shaft 72 is provided with the directional gear 73, the front portion of the bottom chassis 1 is slidably provided with the rack 74, the rack 74 is engaged with the directional gear 73, the front portion of the bottom chassis 1 is provided with the first sliding rod 75, the first sliding rod 75 is connected with the rack 74 in a sliding manner, the first spring 76 is wound on the first sliding rod 75, the first spring 76 is connected with the underframe 1 and the rack 74, the wedge-shaped block 77 is arranged on the upper side of the left part of the rack 74, the pushing frame 79 is arranged on the front side of the pushing block 53, the rolling block 78 is rotatably arranged on the right part of the pushing frame 79, the rolling block 78 is matched with the wedge-shaped block 77, the first sliding rail 710 is arranged on the front side of the upper part of the first support frame 3, and the first sliding rail 710 is connected with the pushing frame 79 in a sliding manner.
When the material pushing block 53 moves backwards, the material pushing block 53 drives the pushing frame 79 to move backwards, the pushing frame 79 drives the rolling block 78 to move backwards, when the rolling block 78 is matched with the wedge block 77, the rolling block 78 pushes the wedge block 77 to move leftwards, the wedge block 77 drives the rack 74 to move leftwards, the first spring 76 compresses, as the rack 74 is meshed with the directional gear 73, the rack 74 drives the directional gear 73 to rotate, the directional gear 73 drives the first rotating shaft 72 to rotate, the first rotating shaft 72 drives the transmission assembly 71 to rotate, the transmission assembly 71 drives the culture frame 2 to rotate, so that strains in the culture frame 2 are uniformly shaken, when the material pushing block 53 moves forwards, the rolling block 78 does not push the wedge block 77 any more, the first spring 76 returns to the initial state, the first spring 76 drives the rack 74 to move rightwards, so that the wedge block 77 moves rightwards, as the directional gear 73 is a one-way gear, when the directional gear 73 is meshed with the rack 74, the directional gear 73 idles, after the first spring 76 is completely restored to the initial state, the directional gear 73 stops rotating, due to friction, when the wedge-shaped block 77 is matched with the rolling block 78, the rolling block 78 rotates, when the wedge-shaped block 77 is not matched with the rolling block 78, the rolling block 78 stops rotating, and when the device is used again, the above steps are repeated.
The blanking mechanism 8 is arranged on the first support frame 3, the blanking mechanism 8 is connected with the pushing mechanism 5, the blanking mechanism 8 comprises fourth support blocks 81, a blanking frame 82 and a stop block 83, the front portion of the top side of the first support frame 3 is provided with the two fourth support blocks 81, the inner sides of the upper portions of the two fourth support blocks 81 are connected with the blanking frame 82, the top of the pushing block 53 is provided with the stop block 83, and the stop block 83 is matched with the blanking frame 82.
In the initial state, the stopper 83 cannot completely block the through hole at the bottom of the blanking frame 82, and people can place a large amount of solid culture medium into the blanking frame 82, due to gravity, the solid culture medium drops on the first support frame 3, when the pushing block 53 moves backwards, the pushing block 53 drives the stopper 83 to move backwards, after the stopper 83 completely blocks the through hole at the bottom of the blanking frame 82, the solid culture medium in the blanking frame 82 stops dropping, meanwhile, the pushing block 53 pushes the solid culture medium backwards, when the pushing block 53 moves forwards, the pushing block 53 drives the stopper 83 to move forwards to the initial position, so that the solid culture medium in the blanking frame 82 continues to drop, so that the effect of facilitating feeding can be realized, and when the equipment is used again, the steps are repeated.
Also comprises an extrusion mechanism 9, the material spraying mechanism 6 is provided with the extrusion mechanism 9, the extrusion mechanism 9 is connected with the culture frame 2, the extrusion mechanism 9 comprises a rotating block 91, a convex block 92, a jacking block 93 and a second sliding rod 94, the culture frame comprises a first sliding sleeve 95, a second spring 96, a swinging rod 97 and a shaft sleeve 98, wherein a rotating block 91 is arranged at the upper part of the culture frame 2, two convex blocks 92 are arranged at the top of the rotating block 91, the first sliding sleeve 95 is arranged at the front side of the charging frame 62, a second sliding rod 94 is arranged in the first sliding sleeve 95 in a sliding manner, the second spring 96 is wound on the upper part of the second sliding rod 94, the second spring 96 is connected with the second sliding rod 94 and the first sliding sleeve 95, a jacking block 93 is arranged at the bottom of the second sliding rod 94, the jacking block 93 is matched with the convex blocks 92, the shaft sleeve 98 is arranged at the front part of the top side of the charging frame 62, the swinging rod 97 is rotatably arranged at the upper part of the shaft sleeve 98, and the swinging rod 97 is matched with the extrusion block 63 and the second sliding rod 94.
When the culture frame 2 rotates, the culture frame 2 drives the rotating block 91 to rotate, the rotating block 91 drives the bump 92 to rotate, when the bump 92 is matched with the jacking block 93, the bump 92 pushes the jacking block 93 upwards, the jacking block 93 drives the second sliding rod 94 to move upwards, the second spring 96 stretches, the second sliding rod 94 pushes the front part of the swinging rod 97 upwards, due to the lever principle, the swinging rod 97 rotates, the swinging rod 97 presses the extrusion block 63 downwards at the rear side to realize the spraying of the liquid culture medium, when the bump 92 is not matched with the jacking block 93, the second spring 96 returns to the initial state, the second spring 96 drives the second sliding rod 94 to move downwards, so that the jacking block 93 moves downwards, the second sliding rod 94 does not push the front part of the swinging rod 97 upwards any more, when the extrusion block 63 moves upwards, the extrusion block 63 pushes the swinging rod 97 to rotate reversely to the initial state, so that the automatic spraying of the liquid culture medium can be realized, when the culture frame 2 stops rotating, the projection 92 stops rotating, and when the device is used again, the above steps are repeated.
Still including controlling light mechanism 10, first support frame 3 rear portion is equipped with accuse light mechanism 10, accuse light mechanism 10 is including fifth supporting block 101, second slide rail 102, refraction lens 103, handle 104 and second sliding sleeve 105, first support frame 3 top side rear portion is equipped with fifth supporting block 101, fifth supporting block 101 top side is equipped with two second slide rails 102, two second slide rail 102 right part sliding connection have refraction lens 103, refraction lens 103 left part is connected with handle 104, fifth supporting block 101 top side left part is equipped with second sliding sleeve 105, second sliding sleeve 105 and handle 104 sliding connection.
People can realize the left-right movement of the refraction lens 103 by moving the handle 104 left and right, thereby adjusting the illumination intensity of the irradiation entering the culture frame 2, and after people adjust the light intensity to the degree suitable for culturing the bacterial strain, the movement of the handle 104 is stopped, and the steps are repeated when the equipment is used again.
The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.
Claims (8)
1. A microbial cultivation apparatus for cultivating a living organism, comprising:
the culture frame (2) is rotationally arranged on the bottom frame (1);
the first support frame (3) is arranged on the bottom frame (1);
the first supporting block (4) is arranged on the underframe (1), and the first supporting block (4) is connected with the first supporting frame (3);
the bottom frame (1) is provided with a material pushing mechanism (5), and the material pushing mechanism (5) is matched with the first support frame (3);
spout material mechanism (6), be equipped with on chassis (1) and spout material mechanism (6), spout material mechanism (6) and be connected with first support frame (3).
2. A device for cultivating microorganisms, according to claim 1, wherein the pushing means (5) comprise:
a second supporting block (51), wherein the underframe (1) is provided with the second supporting block (51);
the air cylinder (52) is mounted on the second supporting block (51);
the first support frame (3) is provided with a material pushing block (53) in a sliding mode, and the material pushing block (53) is connected with an expansion rod of the air cylinder (52).
3. A device for culturing microorganisms suitable for the culture of organisms according to claim 2, characterized in that the spraying means (6) comprise:
a third supporting block (61), wherein the underframe (1) is provided with the third supporting block (61);
the third supporting block (61) is provided with a loading frame (62);
the extrusion block (63) is arranged on the charging frame (62) in a sliding manner;
a water pipe (64) is arranged on the charging frame (62);
the atomizing nozzle (65) is connected to the water pipe (64), and the atomizing nozzle (65) is connected with the first support frame (3).
4. A device for culturing microorganisms suitable for culturing organisms according to claim 3, further comprising:
the rotating mechanism (7) is arranged on the bottom frame (1), and the rotating mechanism (7) is connected with the material pushing mechanism (5) and the culture frame (2);
the rotating mechanism (7) comprises:
the first rotating shaft (72) is rotatably arranged on the bottom frame (1);
the transmission assembly (71) is connected between the first rotating shaft (72) and the culture frame (2);
the first rotating shaft (72) is provided with a directional gear (73);
the rack (74) is arranged on the bottom frame (1) in a sliding mode, and the rack (74) is meshed with the directional gear (73);
the chassis (1) is provided with a first sliding rod (75), the first sliding rod (75) is arranged on the chassis (1), and the first sliding rod (75) is connected with the rack (74) in a sliding manner;
the first spring (76) is wound on the first sliding rod (75), and the first spring (76) is connected with the chassis (1) and the rack (74);
the rack (74) is provided with a wedge block (77);
the pushing frame (79) is arranged on the pushing block (53);
the rolling block (78) is rotationally arranged on the pushing frame (79), and the rolling block (78) is matched with the wedge-shaped block (77);
the first support frame (3) is provided with a first sliding rail (710), and the first sliding rail (710) is connected with the pushing frame (79) in a sliding manner.
5. The apparatus for culturing microorganisms according to claim 4, further comprising:
the first support frame (3) is provided with a discharging mechanism (8), and the discharging mechanism (8) is connected with the material pushing mechanism (5);
unloading mechanism (8) including:
the first support frame (3) is provided with two fourth support blocks (81);
the two fourth supporting blocks (81) are connected with a blanking frame (82);
the stop block (83) is arranged on the pushing block (53), and the stop block (83) is matched with the blanking frame (82).
6. The apparatus for culturing microorganisms according to claim 5, further comprising:
the extrusion mechanism (9) is arranged on the material spraying mechanism (6), and the extrusion mechanism (9) is connected with the culture frame (2);
the pressing mechanism (9) includes:
the rotating block (91) is arranged on the culture frame (2);
the rotary block (91) is provided with two lugs (92);
the first sliding sleeve (95) is arranged on the charging frame (62);
the second sliding rod (94), the first sliding sleeve (95) is provided with the second sliding rod (94) in a sliding way;
the second spring (96) is wound on the second sliding rod (94), and the second spring (96) is connected with the second sliding rod (94) and the first sliding sleeve (95);
the second sliding rod (94) is provided with a jacking block (93), and the jacking block (93) is matched with the convex block (92);
the shaft sleeve (98) is arranged on the charging frame (62);
the swinging rod (97) is rotatably arranged on the shaft sleeve (98), and the swinging rod (97) is matched with the extrusion block (63) and the second sliding rod (94).
7. The apparatus for culturing microorganisms according to claim 6, further comprising:
the light control mechanism (10) is arranged on the first support frame (3).
8. A device for cultivating microorganisms, according to claim 7, wherein the light control means (10) comprise:
a fifth supporting block (101), wherein the first supporting frame (3) is provided with the fifth supporting block (101);
two second sliding rails (102) are arranged on the fifth supporting block (101);
the two second slide rails (102) are connected with the refractive lenses (103) in a sliding mode, the handle (104) is connected with the refractive lenses (103), and the handle (104) is connected with the refractive lenses (103);
a second sliding sleeve (105) is arranged on the fifth supporting block (101), and the second sliding sleeve (105) is connected with the handle (104) in a sliding manner.
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CN112322459A (en) * | 2020-10-14 | 2021-02-05 | 广州市粤家科技发展有限公司 | Light source intensity adjusting device for microbial cultivation |
CN112625894A (en) * | 2020-12-08 | 2021-04-09 | 郭向东 | Illumination intensity adjusting device is cultivated to microorganism |
CN112623300A (en) * | 2021-01-07 | 2021-04-09 | 李利平 | Culture dish is filling equipment in batches for biological cultivation |
CN113462525A (en) * | 2021-06-22 | 2021-10-01 | 詹双建 | Can improve microbial cultivation device of survival rate |
CN113652336A (en) * | 2021-08-19 | 2021-11-16 | 延安大学 | Mobilizable environmental microorganism screening and expanding numerous culture apparatus |
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