CN217677561U - Photosynthetic bacteria incubator - Google Patents

Abstract

The application relates to the technical field of bacterial culture, in particular to a photosynthetic bacteria incubator, which comprises a box body, a switch door, a carrying plate, a lighting lamp and a heating plate, wherein the box body is provided with a feeding hole and a discharging hole, and the switch door is rotatably arranged on the box body and seals the feeding hole and the discharging hole; the inner wall of the box body is provided with a plurality of carrying plates, the carrying plates are arranged along the vertical direction, and placing holes are formed in the carrying plates; the illuminator sets up just be located on the box carry the one end of thing board, all it all rotates to carry the thing board and sets up on the inside wall of box, just it is close to carry the thing board the swing of one end along vertical direction of illuminator, the hot plate sets up on the box. This application carries the thing board through the multilayer that sets up, carries the thing board and rotates the setting on the box for all carry the cultivation flat board on the thing board can all shower illumination, and then make the cultivation effect obtain improving.

Description

Photosynthetic bacteria incubator

Technical Field

The application relates to the technical field of bacterial culture, in particular to a photosynthetic bacteria incubator.

Background

At present, photosynthetic bacteria have wide application prospects, such as water purification, water changing and running water and the like when being applied to aquaculture; the additive can improve the disease resistance of animals when being applied to feed addition; the fertilizer can improve plant nutrition, enhance soil fertility and the like when being applied to agricultural planting; can purify waste water, deodorize environment and the like when being applied to environmental protection.

Through the retrieval, chinese patent that application number is CN201520296190.6 discloses a bacteria incubator, including bacteria incubator box and the glass test tube of placing the bacterial culture solution, be equipped with the even symmetrical crossbeam of multilayer on the left inner wall of bacteria incubator box and the right inner wall, be equipped with the recess on the crossbeam, the glass test tube frame is in on the recess, still be equipped with the illuminator in the bacteria incubator box, the illuminator be located four ends at incubator box internal top.

At realizing this application in-process, the inventor discovers that there is following problem at least in this technique, and the illuminator sets up the four ends at top in the box, and lower floor's glass test tube is through the sheltering from of multilayer crossbeam and test tube, and the light of illuminator transmission can't cover the lower floor comprehensively, leads to the lower floor bacterium to cultivate the effect relatively poor.

SUMMERY OF THE UTILITY MODEL

In order to make the bacterium on every layer can both obtain illumination and cover, improve the bacterium and cultivate the effect, this application provides a photosynthetic bacteria incubator.

The application provides a photosynthetic bacteria incubator adopts following technical scheme:

a photosynthetic bacteria incubator comprises a box body, a switch door, a carrying plate, a lighting lamp and a heating plate, wherein the box body is provided with a feeding hole and a discharging hole, and the switch door is rotatably arranged on the box body and seals the feeding hole and the discharging hole; the inner wall of the box body is provided with a plurality of carrying plates, the carrying plates are arranged along the vertical direction, and placing holes are formed in the carrying plates; the illuminator sets up just be located on the box carry the one end of thing board, all it all rotates to carry the thing board and sets up on the inside wall of box, just it is close to carry the thing board the swing of one end along vertical direction of illuminator, the hot plate sets up on the box.

By adopting the technical scheme, firstly, the switch door is rotated, then the culture flat plate is placed at the placing hole and is abutted against the side wall of the placing hole, then the illumination lamp is started to illuminate the photosynthetic bacteria on the culture flat plate, the angle of the carrying plate is manually rotated according to the illumination condition, so that the culture flat plate on the carrying plate is fully bathed and illuminated, then the switch door is rotated to seal the feeding and discharging holes, and then the heating plate is started to heat the environment in the box body to the temperature suitable for the photosynthetic bacteria; the multilayer object carrying plates fully utilize the space of the box body, so that multilayer culture is performed, the space utilization rate is improved, and three-dimensional culture is realized; meanwhile, the photosynthetic bacteria on the multilayer carrying plate share the same light source, so that the number of the cultivated photosynthetic bacteria is increased in limited resources, and the energy utilization rate is improved; on the other hand, carry the thing board and rotate the setting on the box for all carry the cultivation flat board on the thing board and can all shower illumination, and then make and cultivate the effect and obtain improving.

Optionally, the box body is provided with an adjusting mechanism connected with the object carrying plate, and the adjusting mechanism drives the object carrying plate to rotate.

By adopting the technical scheme, firstly, the door is rotated, then the culture flat plate is placed at the placing hole and is abutted against the side wall of the placing hole, then the adjusting mechanism is used for driving the carrying plate to rotate, and the carrying plate drives the culture flat plate to rotate; adjustment through the adjustment mechanism who sets up makes a plurality of regulation of carrying the thing board become convenient, and adjustment mechanism drives simultaneously and carries the thing board and rotate for cultivate dull and stereotyped abundant shower illumination, and then improve photosynthetic bacteria's cultivation effect.

Optionally, the adjusting mechanism includes a driving rod, a transmission rod and a power assembly, the transmission rod is disposed on the carrier plate, the driving rod is connected to a side wall of the box body in a sliding manner, the transmission rod is connected to the driving rod in a sliding manner, and the driving rod drives the transmission rod to swing in a sliding manner; the power assembly is arranged on the box body and is connected with the driving rod and drives the driving rod to slide.

By adopting the technical scheme, firstly, the door is rotated, then the culture flat plate is placed at the placing hole and is abutted against the side wall of the placing hole, then the power assembly is used for driving the driving rod to slide, the driving rod slides and drives the driving rod to swing, and the driving rod drives the object carrying plate to rotate along the vertical direction of the illuminator until the culture flat plate on the object carrying plate is completely bathed in the light; the angle adjustment of the loading plate is realized through the adjusting mechanism, and meanwhile, the adjusting mechanism is simple in structure and convenient to operate.

Optionally, the power assembly includes an angle knob, a cam and a sliding block, the angle knob is rotatably disposed on the box body, the cam is disposed on the angle knob, and the cam abuts against the driving rod and drives the driving rod to slide; the lateral wall of the cam is provided with a sliding groove, and the sliding block is arranged on the driving rod and slides in the sliding groove.

By adopting the technical scheme, firstly, the door is turned, then the culture flat plate is placed at the placing hole and abutted against the side wall of the placing hole, then the angle knob is used for driving the cam to rotate, the cam rotates and slides along the cam with the sliding block, the driving rod slides at the same time, the driving rod slides and drives the driving rod to swing, and the driving rod drives the object carrying plate to rotate along the vertical direction of the illuminating lamp until the culture flat plate on the object carrying plate is completely bathed under illumination; the angle adjustment of carrying the thing board has been realized through the power component who sets up, and the angle knob can be more audio-visual the inclination who carries the thing board of knowing simultaneously.

Optionally, the placing hole is detachably connected with a bearing plate, and a bearing hole for hanging the bottle A is formed in the bearing plate.

By adopting the technical scheme, when the photosynthetic bacteria in the bottle A are required to be cultured, the culture flat plate at the placing hole is taken down or part of the culture flat plate on the carrying plate is taken down, the carrying plate is placed on the placing hole and abutted against the side wall of the placing hole, then the bottle A is hung on the bearing hole, and then the photosynthetic bacteria are cultured; through the loading board that sets up for this incubator can enough A bottle cultivate the photosynthetic bacterium, also can cultivate the photosynthetic bacterium with the cultivation flat board, has improved the suitability of this incubator.

Optionally, a temperature control assembly is arranged in the box body, the temperature control assembly comprises a temperature detector, the temperature detector is arranged on the box body, and the temperature detector is used for monitoring the temperature in the box body and controlling the heating plate to start and stop.

By adopting the technical scheme, when the photosynthetic bacteria are cultured, the temperature detector monitors the temperature in the box body in real time and controls the heating plate to heat the space in the box body; through the temperature control assembly who sets up, realize that the temperature in the box is in the suitable temperature of growing of photosynthetic bacteria all the time, reduce the temperature in the artificial control box simultaneously, reduced the human cost, reduce the injury to photosynthetic bacteria when the high temperature simultaneously.

Optionally, the temperature control assembly further includes an illumination detector, and the illumination detector is disposed in the box and is configured to control an illumination intensity of the illumination lamp.

Through adopting above-mentioned technical scheme, when photosynthetic bacteria cultivates, through the illumination detector that sets up for under being in the illumination intensity that is fit for photosynthetic bacteria growth all the time in the box, illumination detector and thermodetector mutually support simultaneously, make under the uniform temperature condition, illumination intensity and its looks adaptation make photosynthetic bacteria's growing environment be in the preferred state all the time, make photosynthetic bacteria's cultivation effect obtain improving.

Optionally, the carrying plate is made of a light-transmitting material.

Through adopting above-mentioned technical scheme, when photosynthetic bacteria cultivates, light illuminator emission passes and carries the thing board and shine on the thing board is carried to the lower floor, and the thing board that carries through setting up is transparent material, has reduced the light source interference that carries the thing board to the lower floor for all cultivate dull and stereotyped or A bottle in the box are fully bathed under the illumination, and then make photosynthetic bacteria's cultivation effect obtain improving.

Optionally, a sliding groove is formed in the side wall of the placing hole, a limiting assembly is arranged on the carrying plate and comprises a limiting rod and a limiting spring, the limiting rod is connected in the sliding groove in a sliding mode, the limiting spring is arranged in the sliding groove, the limiting spring is connected with the limiting rod and drives the limiting rod to be away from the groove bottom of the sliding groove, and the limiting rod is tightly placed on the culture plate in the placing hole.

By adopting the technical scheme, when photosynthetic bacteria are cultured, firstly, the culture flat plate is placed in the placing hole, the culture flat plate is abutted against the hemispherical end part of the limiting rod and drives the limiting rod to retract into the sliding groove, the limiting spring is compressed under stress and accumulates elastic potential energy until the culture flat plate is abutted against the bottom wall of the placing hole, and the limiting spring releases the elastic force and abuts against the hemispherical end part with the limiting rod to tightly support the culture flat plate; through the spacing subassembly that sets up, when having reduced the regulation of carrying thing board angle, the culture plate slides, and then has improved the stability of culture plate.

Optionally, a locking mechanism is arranged on the box body and comprises a sliding rod and a stop lever, the sliding rod is rotatably arranged on the box body, the stop lever is arranged at one end of the sliding rod and rotates the stop lever, and the stop lever abuts against and limits the switch door to rotate.

By adopting the technical scheme, after a culture flat plate or an A bottle is placed on the object carrying plate, the two switch doors are rotated to abut against the incubator, then the stop lever is rotated, and the stop lever abuts against the switch doors and drives the switch doors to abut against the incubator body; make the switch door support tight box through the locking mechanism who sets up, reduce the interior air of box and the outer air convection of box, the temperature reduction that causes, and then reduced the frequent start-up of hot plate, reduced energy resource consumption.

To sum up, the application comprises the following beneficial technical effects:

1. the multilayer object carrying plates fully utilize the space of the box body, so that multilayer culture is performed, the space utilization rate is improved, and three-dimensional culture is realized; meanwhile, the photosynthetic bacteria on the multilayer carrying plate share the same light source, so that the number of the cultivated photosynthetic bacteria is increased in limited resources, and the energy utilization rate is improved;

2. when photosynthetic bacteria cultivates, through the illumination detector that sets up for under being in the illumination intensity that is fit for photosynthetic bacteria growth all the time in the box, illumination detector and temperature sensor mutually support simultaneously, make under the uniform temperature condition, illumination intensity and its looks adaptation make photosynthetic bacteria's growing environment be in the preferred state all the time, make photosynthetic bacteria's cultivation effect obtain improving.

3. Make the switch door support tight box through the locking mechanism who sets up, reduce the interior air of box and the outer air convection of box, the temperature reduction that causes, and then reduced the frequent start-up of hot plate, reduced energy resource consumption.

Drawings

FIG. 1 is a schematic view showing an opened state of a photosynthetic bacteria incubator in example 1 of the present application;

FIG. 2 is a schematic structural diagram of a temperature control module in embodiment 1 of the present application;

FIG. 3 is a schematic structural view of an adjusting mechanism in embodiment 1 of the present application;

FIG. 4 is a schematic view showing a closed state of a photosynthetic bacteria incubator in example 2 of the present application;

FIG. 5 is a schematic sectional view of a stopper member according to embodiment 2 of the present application;

fig. 6 is a schematic structural view of a lock mechanism in embodiment 2 of the present application.

Reference numerals are as follows: 100. a box body; 110. a material inlet and outlet hole; 120. a culture chamber; 130. calibration; 200. opening and closing the door; 210. a hole of abdication; 300. a loading plate; 310. placing holes; 320. a carrier plate; 330. a bearing hole; 400. a light; 500. heating plates; 600. an adjustment mechanism; 610. a drive rod; 620. a transmission rod; 621. a slide hole; 630. a power assembly; 631. an angle knob; 632. a cam; 633. a sliding block; 640. a slider; 700. a temperature control assembly; 710. a temperature detector; 720. an illumination detector; 800. a limiting component; 810. a limiting rod; 820. a limit spring; 830. a hemispherical surface; 900. a locking mechanism; 910. a slide bar; 920. a stop lever; 930. a locking spring; 940. a limiting plate; 950. a limiting ring.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses photosynthetic bacteria incubator.

Example 1:

referring to fig. 1 and 2, the photosynthetic bacteria incubator comprises a case 100, two switching doors 200 rotatably installed on the case 100, a heating plate 500 installed in the case 100 for heating, a light lamp 400 installed on the top wall of the case 100 for providing illumination, and a plurality of carrier plates 300 rotatably installed on the side walls of the case 100 for placing a culture plate; when photosynthetic bacteria are cultivated, firstly the switch door 200 is rotated to be far away from the box body 100, then a cultivation flat plate with photosynthetic bacteria is placed on the carrying plate 300, then the switch door 200 is rotated to be tightly propped against the box body 100, then the temperature in the box body 100 is heated through the heating plate 500, and then the illuminating lamp 400 is turned on to improve the illumination environment for the photosynthetic bacteria on the cultivation flat plate.

Referring to fig. 1 and 2, a culture chamber 120 is formed in the box 100, a feed/discharge hole 110 is formed in one side wall of the box 100, two switch doors 200 are rotatably connected to the side wall of the box 100, in which the feed/discharge hole 110 is formed, and close the feed/discharge hole 110, and ends of the two switch doors 200, which are close to each other, can abut against each other when the feed/discharge hole 110 is closed.

Referring to fig. 1 and 2, the heating plate 500 is fixedly connected to a side wall of the box 100 opposite to the opening/closing door 200, in this embodiment, six object carrying plates 300 are preferably provided, the six object carrying plates 300 are divided into two groups, the two groups of object carrying plates 300 are respectively rotatably connected to two side walls of the box 100, the two groups of object carrying plates 300 are respectively located on two side walls vertically arranged between the opening/closing door 200 and the heating plate 500, ends of the two groups of object carrying plates 300 far away from each other are vertically swung up and down, the illumination lamp 400 is located between the two groups of object carrying plates 300, and the illumination lamp 400 is cylindrical and extends to the lowermost object carrying plate 300; the three carrying plates 300 in each group are arranged at equal intervals along the vertical direction, and the carrying plates 300 are made of light-transmitting materials; a placing hole 310 for bearing is formed in the side wall of the carrying plate 300 away from the bottom wall of the box body 100, the placing hole 310 is step-shaped, and a culture flat plate can be placed in the placing hole 310; the loading plate 320 can be placed on the placing hole 310, the loading plate 320 is made of a light-transmitting material, a plurality of bearing holes 330 for placing the A bottles are formed in the loading plate 320, and the A bottles are hung at the bearing holes 330 and abutted against the side walls of the bearing holes 330.

Referring to fig. 1 and 3, three rotating grooves are formed in both side walls of the box 100 on which the object carrying plates 300 are rotatably disposed, the three rotating grooves are formed in a vertical direction, and the three rotating grooves respectively correspond to the three object carrying plates 300 in the same group; the box body 100 is provided with an adjusting mechanism 600, the adjusting mechanism 600 comprises six transmission rods 620 fixedly connected to the rotating ends of the loading plate 300, the transmission rods 620 swing in the rotating grooves along the vertical direction, the side walls of the transmission rods 620 are provided with sliding holes 621, and the sliding holes 621 are formed along the length direction of the transmission rods 620; the side wall of the box body 100, which is provided with the object carrying plate 300, is provided with sliding grooves communicated with the rotating grooves, the sliding grooves are arranged along the vertical direction, the driving rods 610 are connected in the sliding grooves in a sliding manner, the driving rods 610 are fixedly connected with three sliding blocks 640, the three sliding blocks 640 respectively correspond to the three driving rods 620 on the same side, and the three sliding blocks 640 are respectively connected in the sliding holes 621 of the three driving rods 620 on the same side in a sliding manner; the driving rod 610 slides and drives the sliding block 640 to slide, and the sliding block 640 slides along the sliding hole 621 and drives the driving rod 620 to swing.

Referring to fig. 1 and 3, a mounting cavity communicated with the sliding groove is formed in a side wall of the box 100 where the carrier plate 300 is disposed, a power assembly 630 is disposed on the box 100, the power assembly 630 includes a cam 632 rotatably connected to the side wall of the mounting cavity, the cam 632 abuts against one end of the driving rod 610 far away from the driving rod 620 and drives the driving rod 620 to slide, the sliding groove is formed in a side wall of the cam 632 abutting against the driving rod 610, and the shape of the sliding groove is similar to that of the cam 632; one end of the driving rod 610 far away from the driving rod 620 is fixedly connected with a sliding block 633, and the sliding block 633 is connected in the sliding groove in a sliding manner; the side wall of the box body 100 provided with the object carrying plate 300 is rotatably connected with an angle knob 631, and the angle knob 631 is connected with the cam 632.

Referring to fig. 2, a temperature control assembly 700 is disposed in the box 100, the temperature control assembly 700 includes a temperature detector 710 fixedly connected to an inner wall of the culture chamber 120, the temperature detector 710 is used for detecting a temperature in the culture chamber 120, and the temperature detector 710 is electrically connected to the heating plate 500 and controls the start and stop of the heating plate 500; an illumination detector 720 is fixedly connected to the inner wall of the culture chamber 120, and the illumination detector 720 is electrically connected to the illumination lamp 400 and controls the illumination intensity of illumination.

The implementation principle of the embodiment 1 of the application is as follows: firstly, rotating the switch door 200, then placing the culture plate at the placing hole 310 and abutting against the side wall of the placing hole 310, then starting the illumination lamp 400 to illuminate the photosynthetic bacteria on the culture plate, and monitoring the illumination intensity through the illumination detector 720; then the angle knob 631 is rotated, the angle knob 631 drives the cam 632 to rotate, the cam 632 drives the driving rod 610 to slide, the driving rod 610 drives the driving rod 620 to swing, the driving rod 620 drives the angle of the object carrying plate 300 to change, and it is ensured that all the culture plates on the object carrying plate 300 are exposed to light; then the switch door 200 is turned to close the material inlet and outlet 110, and then the heating plate 500 is turned on to heat the environment in the box body 100 until the real-time temperature detected by the temperature detector 710 reaches a suitable temperature range, the heating plate stops heating, and the photosynthetic bacteria are cultivated and grown under appropriate illumination and appropriate temperature.

Example 2:

referring to fig. 4 and 5, the present embodiment is different from embodiment 1 in that a scale 130 is marked on the side wall of the case 100 where the angle knob 631 rotates, the scale 130 is used as an angle indicator, and the angle of the angle knob 631 is the inclined angle of the loading board 300; place and seted up a plurality of sliding trays on the lateral wall of hole 310, be provided with spacing subassembly 800 on carrying thing board 300, spacing subassembly 800 is including sliding the gag lever post 810 of connecting in the sliding tray, the tank bottom fixedly connected with spacing spring 820 of sliding tray, spacing spring 820 is connected with gag lever post 810, spacing spring 820 promotes gag lever post 810 and slides towards the direction of keeping away from the sliding tray, the one end of gag lever post 810 is located outside the sliding tray and is located and places the hole 310, gag lever post 810 is located the one end of placing hole 310 and has seted up hemisphere face 830, the tip that the gag lever post 810 was seted up hemisphere face 830 can be close to the lateral wall butt of box 100 upper end wall with the cultivation flat board, and the restriction is cultivateed dull and stereotyped and stereotypedly and slides, the tip that gag lever post 810 was seted up hemisphere face 830 also can slide with loading board 320 butt and restriction loading board 320.

Referring to fig. 4 and 6, a sliding hole is formed on the side wall of the box body 100, to which the opening and closing door 200 is rotatably connected, and the sliding hole is located at the abutting joint of the two opening and closing doors 200; the box body 100 is provided with a locking mechanism 900, the locking mechanism 900 comprises a sliding rod 910 connected in a sliding hole in a sliding manner, the sliding rod 910 can rotate in the sliding hole, the inner wall of the sliding hole is fixedly connected with a limiting ring 950, the limiting ring 950 is positioned at one end of the sliding hole close to the switch door 200, and the sliding rod 910 penetrates through the limiting ring 950 and is connected with the limiting ring 950 in a sliding manner; a limiting plate 940 is connected in the sliding hole in a sliding manner, and the limiting plate 940 is fixedly connected to the end part of the sliding rod 910; a locking spring 930 is sleeved on the sliding rod 910, one end of the locking spring 930 is connected with the limiting plate 940, and one end of the locking spring 930, which is far away from the limiting plate 940, is connected with the limiting ring 950; one end of the sliding rod 910, which is far away from the limiting plate 940, is vertically and fixedly connected with a stop lever 920, a locking spring 930 drives the stop lever 920 at the end of the sliding rod 910 to abut against the box body 100, abutting ends of the two switch doors 200 are provided with abdicating holes 210, the abdicating holes 210 are formed along the vertical direction, and the stop lever 920 can pass through the two abdicating holes 210; after the stop lever 920 passes through the yielding hole 210, the stop lever 920 is rotated, the axis of the stop lever 920 is perpendicular to the axis of the yielding hole 210 and abuts against the switch door 200, and the locking spring 930 pulls the stop lever 920 to abut against the switch door 200 on the box body 100.

The implementation principle of embodiment 2 of the present application is as follows: when culturing photosynthetic bacteria, firstly, the culture plate or carrier plate 320 is placed in the placing hole 310, the end of the culture plate or carrier plate 320, which is provided with the hemispherical surface 830, abuts against the end of the limiting rod 810 and drives the limiting rod 810 to retract into the sliding groove, the limiting spring 820 is compressed under force and accumulates elastic potential energy, and when the culture plate or carrier plate 320 abuts against the bottom wall of the placing hole 310, the limiting spring 820 releases the elastic force and the hemispherical end with the limiting rod 810 abuts against the culture plate or carrier plate 320.

After placing dull and stereotyped or A bottle in box 100 will cultivate, the rotary switch door 200 is close to towards box 100, switch door 200 and box 100 butt, and pin 920 passes the hole of stepping down 210 simultaneously, then pulls pin 920 and rotatory pin 920 for the axis of pin 920 perpendicular to the axis of the hole of stepping down 210, then loosens pin 920, and locking spring 930 drives pin 920 and supports tight switch door 200, then adjusts temperature and illumination and carries out the cultivation of photosynthetic bacteria.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A photosynthetic bacteria incubator is characterized by comprising a box body (100), a switch door (200), a carrying plate (300), a lighting lamp (400) and a heating plate (500), wherein the box body (100) is provided with a feeding and discharging hole (110), and the switch door (200) is rotatably arranged on the box body (100) and seals the feeding and discharging hole (110); the inner wall of the box body (100) is provided with a plurality of carrying plates (300), the carrying plates (300) are arranged along the vertical direction, and the carrying plates (300) are provided with placing holes (310); the floodlight (400) is arranged on the box body (100) and is located at one end of the object carrying plate (300), all the object carrying plates (300) are arranged on the inner side wall of the box body (100) in a rotating mode, one end, close to the floodlight (400), of each object carrying plate (300) swings in the vertical direction, and the heating plate (500) is arranged on the box body (100).

2. A photosynthetic bacteria incubator according to claim 1, wherein the box body (100) is provided with an adjusting mechanism (600) connected to the carrier plate (300), and the adjusting mechanism (600) drives the carrier plate (300) to rotate.

3. A photosynthetic bacteria incubator according to claim 2, characterized in that the adjusting mechanism (600) comprises a driving rod (610), a driving rod (620) and a power assembly (630), the driving rod (620) is disposed on the carrier plate (300), the driving rod (610) is slidably connected to the sidewall of the box body (100), the driving rod (620) is slidably connected to the driving rod (610), and the driving rod (610) is slidably connected to drive the driving rod (620) to swing; the power assembly (630) is arranged on the box body (100), and the power assembly (630) is connected with the driving rod (610) and drives the driving rod (610) to slide.

4. A photosynthetic bacteria incubator according to claim 3, characterized in that the power assembly (630) comprises an angle knob (631), a cam (632) and a sliding block (633), the angle knob (631) is rotatably disposed on the box body (100), the cam (632) is disposed on the angle knob (631), the cam (632) abuts against the driving rod (610) and drives the driving rod (610) to slide; the lateral wall of the cam (632) is provided with a sliding groove, and the sliding block (633) is arranged on the driving rod (610) and slides in the sliding groove.

5. A photosynthetic bacteria incubator as claimed in claim 1, wherein the placing hole (310) is detachably connected with a bearing plate (320), and the bearing plate (320) is provided with a bearing hole (330) for hanging the a bottle.

6. A photosynthetic bacteria incubator according to claim 1, characterized in that a temperature control assembly (700) is arranged in the box body (100), the temperature control assembly (700) comprises a temperature detector (710), the temperature detector (710) is arranged on the box body (100), and the temperature detector (710) is used for monitoring the temperature in the box body (100) and controlling the heating plate (500) to start and stop.

7. A photosynthetic bacteria incubator according to claim 6 characterized in that the temperature control assembly (700) further comprises an illumination detector (720), the illumination detector (720) being disposed within the enclosure (100) and being adapted to control the intensity of illumination of the illumination lamp (400).

8. A photosynthetic bacteria incubator according to claim 1 characterised in that the carrier plate (300) is of light transmitting material.

9. A photosynthetic bacteria incubator according to claim 1, wherein a sliding groove is formed on the side wall of the placing hole (310), the carrying plate (300) is provided with a limiting component (800), the limiting component (800) comprises a limiting rod (810) and a limiting spring (820), the limiting rod (810) is connected in the sliding groove in a sliding manner, the limiting spring (820) is arranged in the sliding groove, the limiting spring (820) is connected with the limiting rod (810) and drives the limiting rod (810) to be away from the groove bottom of the sliding groove, and the limiting rod (810) abuts against the cultivation plate placed in the placing hole (310).

10. A photosynthetic bacteria incubator according to claim 1, characterized in that the box body (100) is provided with a locking mechanism (900), the locking mechanism (900) comprises a sliding rod (910) and a stop rod (920), the sliding rod (910) is rotatably arranged on the box body (100), the stop rod (920) is arranged at one end of the sliding rod (910), the stop rod (920) is rotated, and the stop rod (920) abuts against the switch door (200) and limits the switch door (200) to rotate.

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