CN210298927U - Tissue culture observation unit, incubator and culture frame - Google Patents

Abstract

The utility model discloses a tissue culture observation unit and incubator, cultivation frame mainly relates to plant cultivation facility field. The lifting sliding table comprises a lifting module and a lifting sliding table, wherein the lifting sliding table is used for lifting up and down along the vertical direction; the observation module is fixed at the front end of the detecting module and comprises an upper scanning mechanism and a lower scanning mechanism; the upper scanning mechanism is fixed at one end of the upper rail, an adjusting disc is rotatably mounted on the upper scanning mechanism, an upper camera is arranged on the bottom surface of the adjusting disc, the upper camera captures images downwards, the angle of the acquired images can incline towards the circle center of the adjusting disc, the lower scanning mechanism is fixed at one end of the lower rail, and a lower camera for capturing images upwards is mounted on the lower scanning mechanism; and the display module is used for displaying the images acquired by the upper camera and the lower camera in real time. The beneficial effects of the utility model reside in that: the tissue culture conditions in the erlenmeyer flasks on each layer of culture rack can be clearly observed one by one.

Description

Tissue culture observation unit, incubator and culture frame

Technical Field

The utility model relates to a facility field is cultivateed to the plant, specifically is a tissue culture observation unit and incubator, cultivation frame.

Background

The initial tissue culture of plants is usually carried out by placing the plants in an incubator or a culture rack of a layer-by-layer structure in an Erlenmeyer flask containing a culture medium or a culture solution under aseptic closed conditions. In the initial culture of plants, due to the reasons of bacteria contamination, culture conditions, culture media and the like, the conditions of bacteria contamination, mildew, browning and the like often occur, and timely intervention and tissue recovery are required to be realized to the greatest extent so as to reduce the loss in the test and improve the statistical accuracy. However, in general, in order to meet experimental requirements, the number of conical flasks (i.e., the number of conical flasks) required for culture is very large, several tens to hundreds of conical flasks with dense hemp are placed on each layer, and if the conical flasks are not located on the side, the details are difficult to observe, so that when a problem is found, the problem is already obvious, and the time for intervention and treatment is lost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a tissue culture observation unit and incubator, cultivation frame, it can carry out clear observation one by one to the inside tissue culture condition of erlenmeyer flask on every layer of cultivation frame, can just in time discover and intervene just before the abnormal conditions appear.

The utility model discloses a realize above-mentioned purpose, realize through following technical scheme:

a tissue culture observation set comprising:

the lifting module is used for providing a lifting sliding table which can lift up and down along the vertical direction;

the detecting module comprises a mounting plate fixed on the lifting sliding table, the mounting surface where the mounting plate is arranged along the vertical direction, an upper driving belt wheel and a lower driving belt wheel are rotationally matched on the mounting plate, the upper driving belt wheel and the lower driving belt wheel are respectively driven by electric power,

the upper part and the lower part of the mounting plate are respectively provided with an upper rail and a lower rail which extend in the horizontal direction, an upper sliding block is matched on the upper rail in a sliding manner, a lower sliding block is matched on the lower rail in a sliding manner, the upper sliding block and the lower sliding block are both arranged and fixed on the mounting plate, the upper rail and an upper driving belt wheel are driven by an upper driving belt, and the lower rail and a lower driving belt wheel are driven by a lower driving belt;

the observation module comprises an upper scanning mechanism and a lower scanning mechanism;

the upper scanning mechanism is fixed at one end of the upper track, the upper scanning mechanism is rotatably provided with an adjusting disc, the bottom surface of the adjusting disc is provided with an upper camera, the upper camera takes images downwards, the angle of the images acquired by the upper camera can incline towards the center of the adjusting disc,

the lower scanning mechanism is fixed at one end of the lower rail, and a lower camera for taking images upwards is mounted on the lower scanning mechanism;

and the display module is used for displaying the images acquired by the upper camera and the lower camera in real time.

The lifting module comprises a guide rail rod and a lead screw, wherein the guide rail rod and the lead screw are vertically installed and arranged, a lifting slide block is arranged on the guide rail rod in a sliding fit mode, a nut block is arranged on the lead screw in a sliding fit mode, and the nut block and the lifting slide block are both fixed on the lifting sliding table.

The upper driving belt wheel is symmetrically provided with upper tensioning wheels in a bilateral mode above the upper driving belt wheel, the lower driving belt wheel is symmetrically provided with lower tensioning wheels in a bilateral mode below the lower driving belt wheel, the upper transmission belt is wound on the upper driving belt wheel and the upper tensioning wheels, two ends of the upper transmission belt are fixedly connected to the front end and the rear end of the upper rod body respectively, the lower transmission belt is wound on the lower driving belt wheel and the lower tensioning wheels, and two ends of the lower transmission belt are fixedly connected to the front end and the rear end of the lower rod body.

Go up scanning mechanism and include the upper flat plate, the upper flat plate includes installation department and connecting portion, connecting portion are used for with the one end fixed connection of the last body of rod, the adjustment disk rotates and installs on the installation department, radially install along it on the adjustment disk and can rotate and by electric drive's screw rod, the cooperation has the nut piece on the screw rod, it is equipped with the spout to correspond the screw rod position on the adjustment disk, the nut piece can with spout sliding fit, be fixed with the camera mount pad on the nut piece, camera mount pad normal running fit has the camera wheel, it fixes on the camera wheel to go up the camera.

And an optical band for light supplement is arranged outside the lower camera.

The bottom of the lifting module is provided with a corner wheel.

As another aspect of the utility model is an incubator, be equipped with slide rail mechanism along its length direction in the incubator, the installation is fixed with can follow the gliding observation unit of slide rail mechanism on the slide rail mechanism, the foretell observation unit of observation unit.

The incubator is internally provided with a light source and a heat source and is matched with a light control system and a temperature control system.

As another aspect of the present invention, the present invention provides a cultivation rack, wherein the cultivation rack is provided with a slide rail mechanism along the length direction thereof, the slide rail mechanism is provided with an observation unit capable of sliding along the slide rail mechanism, and the observation unit is an observation unit according to the above.

The observation unit and the slide rail mechanism are of quick-release structures.

Contrast prior art, the beneficial effects of the utility model reside in that:

the utility model discloses can realize the clear observation to the erlenmeyer flask of placing on every layer, include under the above visual angle, through the observation visual angle of the side slope of relative erlenmeyer flask, the inclined plane lateral wall that sees through the erlenmeyer flask looks over the inside condition, and observation angle is clear comprehensive, dodges and opens sheltering from that the top sealed to under the below visual angle, look over the condition of erlenmeyer flask bottom culture medium, know the growth condition of plant tissue comprehensively, in time discover to stain fungus and other growth problems, be favorable to taking effectual intervention measure.

Drawings

Fig. 1 is a schematic diagram of embodiment 1 of the present invention.

Fig. 2 is a schematic diagram of embodiment 1 of the present invention.

Fig. 3 is a schematic diagram of embodiment 1 of the present invention.

Fig. 4 is a schematic diagram of assembly disassembly according to embodiment 1 of the present invention.

Fig. 5 is a schematic diagram of a scanning module according to embodiment 1 of the present invention.

Fig. 6 is a schematic diagram of a scanning module according to embodiment 1 of the present invention.

Reference numerals shown in the drawings:

1. a support base; 2. mounting blocks; 3. a guide rail rod; 4. a lead screw; 5. lifting the sliding table; 6. mounting a plate; 7. an upper drive pulley; 8. an upper tension wheel; 9. a lower driving pulley; 10. a lower tension wheel; 11. an upper rail; 12. a lower rail; 13. an upper slide block; 14. a lower slide block; 15. a rod body is arranged; 16. a lower rod body; 17. an upper flat plate; 18. adjusting the disc; 19. a small motor; 20. a stopper; 21. a screw; 22. a nut block; 23. a chute; 24. a camera mounting base; 25. a camera wheel; 26. an upper camera; 27. a lower flat plate; 28. a lower camera; 29. a light band; 30. mounting a bracket; 31. an L-shaped fixing frame.

Detailed Description

The present invention will be further described with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teachings of the present invention, and these equivalents also fall within the scope defined in the present application.

Example 1: tissue culture observation unit

For the cultivation of plants, the number of the specified models is the precondition for forming statistical significance and screening valuable plants. Therefore, when the plants are cultured, the number of the plants is large. The primary plant tissue and bud strain need to be cultured in a sterile culture medium, a conical flask is mainly used, culture solution or culture medium is filled into the conical flask, the top end of the conical flask is sealed under the sterile environment, and the primary plant tissue culture is carried out by matching conditions such as illumination temperature and the like. The number of the plants is very large, so the plants are generally placed in combination with a culture shelf, and the culture shelf is commonly provided with auxiliary light (matching with the dark condition of the initial stage of the plants and the illumination condition of the development stage) and indoor temperature control. The structure is generally a shelf structure, and the erlenmeyer flasks are densely arranged on each layer of culture shelf. Daily work was kept on observation and recording.

However, not all plants can grow well, and there are also a considerable number of plants which are infected with bacteria and mildewed due to the operational factors in each link of the operation (e.g., during division, bottling, sterilization, packaging, etc.), and a considerable number of plants which are under-developed, such as browning, yellowing, etc., which can continue to be cultivated if timely and effective intervention is obtained at the beginning of the process, and can be supplemented if not. The worker needs to make close observations of a large number of erlenmeyer flasks on the culture rack. So as to respond in time. However, hundreds of erlenmeyer flasks are placed on each layer of culture shelf and are taken up one by one to be unrealistic to observe, and the height of each layer of culture shelf is very limited, so that workers are difficult to observe the growth condition of the plants in the erlenmeyer flasks outside, and the problems are found to be obvious, and the time for intervention and treatment is missed.

Based on the above-mentioned initial intention of observing the cultivation condition of the plant in the conical flask on each layer of the cultivation shelf in time, we designed the present example. The specific structure comprises a lifting module, a detecting module, an observing module and a display module;

1) lifting module

The lifting module comprises a supporting base 1 arranged at the bottom, wherein the bottom of the supporting base 1 is provided with a caster wheel, and the caster wheel is a self-locking universal wheel. The whole device is conveniently pushed to be in a proper position.

Lifting module is still including setting up in the installation piece 2 on top, support base 1 and installation piece 2 and correspond the setting from top to bottom, support base 1 and installation piece 2 between be equipped with upright a pair of child guide rail pole 3 and a lead screw 4 that extends, be equipped with on the guide rail pole 3 rather than the cooperation gliding lifting slide from top to bottom, be equipped with on the lead screw 4 rather than complex screw block, lead screw 4 is connected with the lead screw 4 motor that is used for driving it, it can be at the lift slip table 5 of oscilaltion between the two to support to be equipped with between base 1 and the lifting module, screw block and lifting slide fixed mounting are on lift slip table 5.

2) Exit module

The module of visiting includes mounting panel 6, the plane at mounting panel 6 place is vertical face, mounting panel 6's middle part normal running fit has two power shafts, for the convenience of description, defines two power shafts respectively and is last power shaft and lower power shaft, go up the setting that the vertical symmetry plane of power shaft relative mounting panel 6 should be symmetrical down.

The mounting plate 6 is respectively used for driving two power shafts, two stepping motors are respectively fixed on the mounting plate, and the two stepping motors synchronously control rotation. The output shaft of the stepping motor is assembled with the power shaft, and the rotation of the upper power shaft and the rotation of the lower power shaft are respectively controlled by controlling the motor.

An upper driving belt wheel 7 is fixedly installed on the upper power shaft, two upper tensioning wheels 8 which are symmetrical left and right relative to the upper driving belt wheel 7 are arranged above the upper driving belt wheel 7, and the upper tensioning wheels 8 are rotatably installed on the installation plate 6; the upper driving belt wheel 7 and the upper tensioning wheel 8 are integrally in a delta-shaped structure;

a lower driving belt wheel 9 is fixedly mounted on the lower power shaft, two lower tensioning wheels 10 which are bilaterally symmetrical relative to the lower driving belt wheel 9 are arranged above the lower driving belt wheel 9, and the lower tensioning wheels 10 are rotatably mounted on the mounting plate 6. The lower driving belt wheel 9 and the lower tensioning wheel 10 are integrally in a delta-shaped structure;

the upper part and the lower part of the mounting plate 6 are respectively provided with an upper rail 11 and a lower rail 12 which extend horizontally, the upper rail 11 and the lower rail 12 are respectively linear rails, an upper slide block 13 which slides with the upper rail 11 is matched on the upper rail 11, the upper slide block 13 is arranged above the upper tensioning wheel 8, a lower slide block 14 is matched on the lower rail 12 in a sliding way, the lower slide block 14 is arranged below the lower tensioning wheel 10, and the upper slide block 13 and the lower slide block 14 are symmetrically mounted and fixed on the mounting plate 6 up and down,

an upper rod body 15 extending along the length direction is fixed on the upper rail 11, a lower rod body 16 extending along the length direction is fixed on the lower rail 12, an upper transmission belt is arranged on the bottom surface of the upper rod body 15, two ends of the upper transmission belt are respectively fixed on two ends of the upper rod body 15, the upper transmission belt is sequentially wound on the upper tensioning wheel 8 (on one side), the upper driving pulley 7 and the upper tensioning wheel 8 (on the other side), a lower transmission belt is arranged on the top surface of the lower rod body 16, two ends of the lower transmission belt are respectively fixed on two ends of the lower rod body 16, the lower transmission belt is sequentially wound on the lower tensioning wheel 10 (on one side), the lower driving pulley 9 and the lower tensioning wheel 10 (on the other side), so that when the stepping motor is controlled, the left and right relative positions of the guide rail rods 3 in the horizontal direction of the upper rod body and the lower rod body can be respectively controlled through the rotation of the upper driving pulley 9, when the device is positioned at one side of the culture shelf, the effect of stretching and contracting the depth of the culture shelf is realized.

3) Observation module

The observation module comprises an upper scanning mechanism and a lower scanning mechanism,

go up scanning mechanism and include last flat board 17, it includes connecting portion and installation department to go up flat board 17, connecting portion are used for with the fixed cooperation of the one end of last body of rod 15. The mounting portion is circular in the example, a circular sliding groove 23 is designed on the bottom surface of the mounting portion, the mounting portion is in sliding fit with an adjusting disk 18 which can rotate circumferentially relative to the center of the mounting portion, a small motor 19 is fixedly mounted at the center of the adjusting disk 18, a stopper 20 is arranged on the outer side of the adjusting disk 18, a screw 21 which corresponds to the stopper 20 along the radial direction of the adjusting disk 18 is arranged between the small motor 19 and the stopper 20, a nut block 22 is in threaded fit with the screw 21, the nut block 22 is in hinged fit with the screw 21, an adjusting slider is arranged on one side, adjacent to the adjusting disk 18, of the nut block 22, the adjusting disk 18 is radially provided with the sliding groove 23 which is aligned with the screw 21 in an up-down punching mode, and the adjusting slider is in sliding connection with the sliding groove 23 in a matching mode, so that different positions of the nut block 22 relative to the adjusting disk.

Install camera mount pad 24 on the bottom surface of nut piece 22, the camera mount pad 24 that uses is equipped with rather than normal running fit's camera wheel 25, installs camera 26 in camera wheel 25's the circumference, camera wheel 25's rotation direction is corresponding with the length direction of screw rod 21, can adjust the angle that camera 26 acquireed the image, and the relative position of cooperation nut piece 22 and the rotation of adjustment disk 18 can conveniently look over the condition on each observation angle of a certain position in relative below.

The lower scanning mechanism comprises a lower flat plate 27, a lower camera 28 with an upward observation angle is mounted on the lower flat plate 27, and an annular light band 29 is arranged on the periphery of the camera and used for light supplement. The lower camera 28 is mounted at a position corresponding to the center of the dial 18.

Through above-mentioned structure, when observing a certain erlenmeyer flask on certain one deck culture rack, go up scanning mechanism and be located the top of erlenmeyer flask, scanning mechanism is located the below of observing the erlenmeyer flask down, uses the light band 29 of below to carry out the light filling at the bottom of the erlenmeyer flask of top, makes to have fine observation illumination condition. The lower camera 28 of below upwards obtains the image of erlenmeyer flask bottom, and the last camera 26 of top can be around the erlenmeyer flask, with observing the approximate direction of angular adjustment to directional erlenmeyer flask, then through rotating adjusting disk 18, realizes rotating the observation to the interior condition of bottle through the oblique side of erlenmeyer flask, guarantees that the angle of observation is comprehensive not have the dead angle, and avoids sealing of bottleneck and shelters from, observes through lateral wall (the transparent lateral wall on toper inclined plane), and is more clear. Therefore, the tissue culture conditions in the conical flask are complete, clear and comprehensive in angle through scanning by matching up and down.

4) Display module

The display module is mainly a display device for displaying two camera scanning images, the two display screens are adopted in the example, the upper image and the lower image are synchronously displayed in a split screen mode, the two display screens are fixedly installed on the installation support 30, the installation support 30 is fixed on the installation block 2 through the L-shaped fixing frame 31, and the relative lifting module and the extending module are arranged oppositely. Control buttons relating to the lifting module and the extraction and scanning modules are also provided on the L-shaped holder 31. The operation and observation are convenient.

The above structure is further explained below in connection with specific modes of use:

in use, plant tissue on the culture rack is observed periodically. Pushing the device to one side of the culture shelf;

the lifting module is controlled to correspond to a certain layer of culture rack to be observed, so that the upper scanning mechanism is positioned above the conical flask, and the lower scanning mechanism is positioned below the culture rack of the corresponding layer;

when observing the conical flask closer to the side in advance, the rotation angle of the camera wheel 25 is adjusted, so that the phase taking angle of the upper camera 26 is combined with the position of the upper camera from the center of the adjusting disc 18, the relative height of the upper camera and the conical flask, the size of the bottle body and the side wall of the conical flask to form a better observation angle;

the probing position of the scanning module relative to the culture frame is controlled by the control probing module, so that cameras used for acquiring images at the front end of the scanning module respectively correspond to the target observation conical flasks;

controlling the adjusting disc 18 to rotate, collecting images in the conical flask, and observing the images in real time through a display screen;

the bottom of the conical flask is subjected to image acquisition through the lower camera 28 and is observed in real time through a display screen;

through the operation, the tissue culture conditions in the conical flasks on each layer of culture rack can be clearly observed one by one, abnormal conditions are intervened and treated in time, and the success rate of tissue culture is greatly improved.

Example 2: tissue culture case

The plant cultivation box comprises a box body, wherein a light source and a heat source which are used for being matched with plant cultivation are arranged in the box body, and a light control system and a temperature control system are arranged in the box body. These structures are similar to the common incubator.

The front side of box is equipped with the door of run-to-run, be equipped with 8 layers of cultivateing the frame in the box, cultivate the frame and arrange according to the horizontal direction. The front side of the culture rack is 35cm away from the door, slide rails capable of moving left and right along the length direction of the culture rack are respectively arranged on the top side and the bottom side of the culture rack, an upper slide rail is arranged on the top side, a lower slide rail is arranged on the bottom side, an upper slide block is arranged on the upper slide rail in a sliding mode, and a lower slide block is arranged on the lower slide rail in a sliding fit mode. The upper sliding block and the lower sliding block can slide left and right on the top side and the bottom side of the culture rack respectively.

In this example, the top end and the bottom end of the lifting module are both mounting blocks 2, two ends of two guide rail rods 3 and two ends of a lead screw 4 are respectively mounted on the two mounting blocks 2, the mounting block 2 at the top end is fixed with the upper sliding block, and the mounting block 2 at the bottom end is fixed with the lower sliding block. Thereby enabling the lifting module to slide left and right along the cultivation shelf in the incubator.

When not observing, lift module is located one side of incubator, just it all stretches out in to the incubator to visit the module, conveniently closes the door. When the observation is carried out, the door is opened, and the height and the exploring distance of the exploring module are adjusted left, right, up and down according to the observed position. Is very convenient.

In this example, the display screen of the display module is arranged outwards, so that observation is facilitated.

This example provides an incubator, from taking the observation module to can carry out detailed observation to the erlenmeyer flask on every layer of incasement, in time know the interior tissue culture condition of bottle.

Example 3: tissue culture frame

Comprises a frame body, wherein 6 layers of frames are arranged on the frame body, and each layer of frame is provided with a conical flask for placing and culturing plant tissues.

The top side of layer frame is equipped with the last slide rail that extends along its width direction, sliding fit has last slip table on the last slide rail, the bottom side of layer frame is equipped with the lower slide rail that extends along its width direction, sliding fit has lower slip table under the lower slide rail.

In this example, the top and the bottom of lift module are the installing block 2, the installing block 2 on upper sliding table and top to and be the rapid disassembly structure between the installing block 2 of lower sliding table and low side, and the rapid disassembly structure is the spring catch structure in this example, makes the cooperation that lift module can be quick between upper sliding table and lower sliding table, realizes the horizontal slip of relative culture frame. When needs are surveyd, will survey the module fast-assembling and go up between slip table and the lower slide, when not needing the quick detach take off can. The use is more flexible and quick.

Claims (10)

1. A tissue culture observation set, comprising:

the lifting module is used for providing a lifting sliding table which can lift up and down along the vertical direction;

the detecting module comprises a mounting plate fixed on the lifting sliding table, the mounting surface where the mounting plate is arranged along the vertical direction, an upper driving belt wheel and a lower driving belt wheel are rotationally matched on the mounting plate, the upper driving belt wheel and the lower driving belt wheel are respectively driven by electric power,

the upper part and the lower part of the mounting plate are respectively provided with an upper rail and a lower rail which extend in the horizontal direction, an upper sliding block is matched on the upper rail in a sliding manner, a lower sliding block is matched on the lower rail in a sliding manner, the upper sliding block and the lower sliding block are both arranged and fixed on the mounting plate, the upper rail and an upper driving belt wheel are driven by an upper driving belt, and the lower rail and a lower driving belt wheel are driven by a lower driving belt;

the observation module comprises an upper scanning mechanism and a lower scanning mechanism;

the upper scanning mechanism is fixed at one end of the upper track, the upper scanning mechanism is rotatably provided with an adjusting disc, the bottom surface of the adjusting disc is provided with an upper camera, the upper camera takes images downwards, the angle of the images acquired by the upper camera can incline towards the center of the adjusting disc,

the lower scanning mechanism is fixed at one end of the lower rail, and a lower camera for taking images upwards is mounted on the lower scanning mechanism;

and the display module is used for displaying the images acquired by the upper camera and the lower camera in real time.

2. The tissue culture observation unit of claim 1, wherein the lifting module comprises a guide rail rod and a lead screw which are vertically installed, a lifting slide block is slidably fitted on the guide rail rod, a nut block is slidably fitted on the lead screw, and the nut block and the lifting slide block are both fixed on the lifting slide table.

3. The tissue culture observation unit according to claim 1, wherein the upper driving pulley is provided with upper tension pulleys symmetrically above the upper driving pulley, the lower driving pulley is provided with lower tension pulleys symmetrically below the lower driving pulley, the upper driving belt is wound around the upper driving pulley and the upper tension pulleys, both ends of the upper driving belt are fixedly connected to both front and rear ends of the upper rod respectively, the lower driving belt is wound around the lower driving pulley and the lower tension pulleys, and both ends of the lower driving belt are fixedly connected to both front and rear ends of the lower rod respectively.

4. The tissue culture observation unit according to claim 1, wherein the upper scanning mechanism comprises an upper plate, the upper plate comprises an installation part and a connection part, the connection part is used for being fixedly connected with one end of an upper rod body, the adjusting disk is rotatably installed on the installation part, a screw rod which can rotate and is driven by electric power is radially installed on the adjusting disk along the adjusting disk, a nut block is matched on the screw rod, a sliding groove is formed in the adjusting disk corresponding to the position of the screw rod, the nut block can be in sliding fit with the sliding groove, a camera installation seat is fixed on the nut block, a camera wheel is in rotating fit in the camera installation seat, and the upper camera is fixed on the camera wheel.

5. The tissue culture observation unit of claim 1, wherein a light band for supplementary lighting is provided outside the lower camera.

6. The tissue culture observation group of claim 1, wherein the bottom of the lifting module is provided with a corner wheel.

7. An incubator, characterized in that, a slide rail mechanism is arranged along the length direction in the incubator, an observation unit capable of sliding along the slide rail mechanism is fixed on the slide rail mechanism, and the observation unit is according to any one of claims 1-5.

8. The incubator according to claim 7, wherein the incubator is provided with a light source and a heat source, and is matched with a light control system and a temperature control system.

9. A culture rack is characterized in that a sliding rail mechanism is arranged along the length direction of the culture rack, an observation unit capable of sliding along the sliding rail mechanism is fixedly installed on the sliding rail mechanism, and the observation unit is according to any one of claims 1-5.

10. The culture rack of claim 9, wherein the observation machine set and the slide rail mechanism are quick-release structures.

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