CN209722161U - It is a kind of can be to the microbiological incubator that microorganism is observed in real time - Google Patents

Abstract

The utility model discloses one kind can be to the microbiological incubator that microorganism is observed in real time, including pedestal, incubator is fixed at the top of the pedestal, incubator is transparent mechanism, the side of the incubator is separately installed with open source single-chip microcontroller, Internet of Things device and heating device, lateral adjustment device is installed on the inside of incubator, the side of lateral adjustment device is equipped with longitudinal adjustment apparatus, the first telescoping mechanism and the second telescoping mechanism are separately installed on the longitudinal adjustment apparatus, it originally can be to the microbiological incubator that microorganism is observed in real time, electric lifting rod work is controlled by open source single-chip microcontroller, the telescopic end of electric lifting rod drives capping to carry out elevating movement, it covers and the port for picking and placing channel is closed, rack passes through pick-and-place channel under the drive of capping and enters inside incubator, it uses single culture dish channel, it is picking and placing When other culture dishes can't be impacted, substantially increase the safety in utilization of the bio-incubator.

Description

It is a kind of can be to the microbiological incubator that microorganism is observed in real time

Technical field

The utility model relates to microbial cultivation equipment technical field, specially one kind can be observed in real time microorganism micro- Bio-incubator.

Background technique

In the prior art: the patent of authorization 205653445 U of publication No. CN, which discloses one kind, to observe microorganism in real time Microbiological incubator, including cabinet and be set to the supporting leg of the bottom of box, the cabinet front is hinged with chamber door, the case It is equipped with first partition in vivo, the first partition side is equipped with second partition, is equipped with culture dish at the top of the first partition and places Frame, the culture dish rack top are equipped with article putting groove, and the second partition is equipped with the microscope through top of the box, institute Microscope bottom is stated equipped with objective table, the cabinet side is equipped with through-hole, and the through-hole side is equipped with sealing gloves, to training Supporting when ware picks and places all is to take out while placing simultaneously, can be impacted to other culture dishes when picking and placing, safety in utilization is poor, In In culture dish a certain amount of nutrient solution is added to guarantee the activity of microorganism in needs when carrying out training, by by culture dish Taking-up is added, troublesome in poeration, does not have temperature regulating power, and excessive temperature differentials will lead to microorganism death, and survival rate is low, Monitoring is inconvenient, and it is impossible to meet use demands.

Utility model content

The technical problems to be solved in the utility model is to overcome existing defect, and microorganism can be observed in real time by providing one kind Microbiological incubator, safety in utilization is good, easy to operate, and the survival rate of microorganism is high, and monitoring is convenient, can effectively solve to carry on the back The problems in scape technology.

To achieve the above object, the utility model provides the following technical solutions: one kind can observe in real time microorganism micro- Bio-incubator, including pedestal are fixed with incubator at the top of the pedestal, and incubator is transparent mechanism, the incubator Side is separately installed with open source single-chip microcontroller, Internet of Things device and heating device, is equipped with lateral adjustment device on the inside of incubator, horizontal Longitudinal adjustment apparatus is installed to the side of regulating device, be separately installed on the longitudinal adjustment apparatus the first telescoping mechanism and Second telescoping mechanism, the end of the first telescoping mechanism are equipped with electron microscope, and the end of second telescoping mechanism is equipped with Culture solution adding set is equipped with metering device on culture solution adding set, and the bottom of the incubator, which offers, picks and places channel, The corresponding position for picking and placing channel is connected with rack, the input terminal electrical connection of the open source single-chip microcontroller by elevating mechanism on pedestal The output end of external power supply, the input terminal of the output end electrical connection electron microscope for single-chip microcontroller of increasing income.

As a kind of optimal technical scheme of the utility model, the elevating mechanism includes electric lifting rod, electric up-down Bar is installed at the top of the base, and the telescopic end of the electric lifting rod is fixed with capping, and rack is fixed on the inside of capping, institute State the input terminal of the output end electrical connection electric lifting rod of open source single-chip microcontroller.

As a kind of optimal technical scheme of the utility model, the lateral adjustment device includes the first guide rail, and first leads Rail is fixed on the inside of incubator, and first guide rail is connected with first straight line motor, the open source monolithic by sliding block The input terminal of the output end electrical connection first straight line motor of machine.

As a kind of optimal technical scheme of the utility model, the longitudinal adjustment apparatus includes the second guide rail, and second leads The end of rail is connect with first straight line motor, and second guide rail is connected with second straight line motor, institute by the second sliding block State the input terminal of the output end electrical connection second straight line motor of open source single-chip microcontroller.

As a kind of optimal technical scheme of the utility model, first telescoping mechanism includes the first electric telescopic rod, First electric telescopic rod is mounted on second straight line motor, and the telescopic end of first electric telescopic rod is fixed with cushion socket, electricity Sub- microscope is mounted on cushion socket, and the output end of the open source single-chip microcontroller is electrically connected the input terminal of the first electric telescopic rod.

As a kind of optimal technical scheme of the utility model, second telescoping mechanism includes the second electric telescopic rod, Second electric telescopic rod is mounted on second straight line motor, and the telescopic end of second electric telescopic rod is fixed with attachment base, institute The output end for stating open source single-chip microcontroller is electrically connected the input terminal of the second electric telescopic rod.

As a kind of optimal technical scheme of the utility model, the culture solution adding set include nutrient solution Storing case and Spray head, spray head are mounted on attachment base, and the nutrient solution Storing case is mounted on the top of incubator, and nutrient solution Storing case passes through spiral shell Line telescoping tube is connect with spray head.

As a kind of optimal technical scheme of the utility model, the metering device includes that electronic flowmeter and flow are adjusted Valve, electronic flowmeter and flow control valve are installed on screw telescopic pipe, and the output end electrical connection of the electronic flowmeter is opened The input terminal of source single-chip microcontroller, the input terminal of the output end electrical connection flow control valve for single-chip microcontroller of increasing income.

As a kind of optimal technical scheme of the utility model, the heating device includes heater and electrical thermometer, Heater and electrical thermometer are installed in the side of incubator, the output end electrical connection open source single-chip microcontroller of the electrical thermometer Input terminal, single-chip microcontroller of increasing income output end electrical connection heater input terminal.

As a kind of optimal technical scheme of the utility model, the Internet of Things device includes wireless transceiver, wireless receiving and dispatching Device is mounted on the side of incubator, and the side of the wireless transceiver is equipped with signal amplifier, the defeated of single-chip microcontroller of increasing income Outlet is electrically connected the input terminal of signal amplifier, the input terminal of the output end electrical connection wireless transceiver of signal amplifier.

Compared with prior art, the utility model has the beneficial effects that originally can be trained to the microorganism that microorganism is observed in real time Case is supported, is had the benefit that

1, electric lifting rod work is controlled by open source single-chip microcontroller, the telescopic end of electric lifting rod drives capping to be gone up and down Movement is covered and is closed to the port for picking and placing channel, and rack passes through pick-and-place channel under the drive of capping and enters incubator Inside uses single culture dish channel, can't impact to other culture dishes when picking and placing, substantially increase the life The safety in utilization of object incubator.

2, it is adjusted by lateral operating position of the lateral adjustment device to electron microscope and culture solution adding set, Longitudinal operating position to electron microscope and culture solution adding set is adjusted by longitudinal adjustment apparatus, mechanization Degree is high, easy to adjust, is convenient for observation and culture solution adds work, time saving and energy saving, provides for the work of related personnel It is convenient.

3, the nutrient solution inside nutrient solution Storing case is delivered in spray head by screw telescopic pipe, is added to training by spray head It supports in ware, addition is convenient, avoids the trouble and adverse effect for opening incubator addition nutrient solution.

4, it is monitored by additive amount of the electronic flowmeter to screw telescopic pipe, the information of monitoring passes to open source monolithic Machine, open source single-chip microcontroller are analyzed and processed information, and control flow control valve according to parameter preset and add to screw telescopic pipe Dosage is adjusted, and metering is accurate, the accuracy of nutrient solution addition is substantially increased, convenient for meeting different culture demands.

5, the temperature inside incubator is monitored by electrical thermometer, the information of monitoring passes to open source monolithic Machine, open source single-chip microcontroller information is analyzed and processed, and according to parameter preset control heater to the temperature inside incubator into Row is adjusted, to guarantee the constant of incubator internal temperature, is avoided excessive temperature differentials and is caused microorganism dead, substantially increase micro- The survival rate of biological culture.

6, the information of open source single-chip microcontroller processing is amplified by signal amplifier, and the signal of amplification is transmitted by wireless transceiver To remote monitoring center, remote monitoring center remotely controls open source single-chip microcontroller by wireless transceiver, intelligent journey Degree is high, and monitoring is convenient.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the first sectional view of the utility model structure；

Fig. 3 is the second sectional view of the utility model structure.

In figure: 1 pedestal, 2 pick and place channel, 3 electric lifting rods, 4 cappings, 5 racks, 6 metering devices, 7 heaters, 8 electricity Sub- thermometer, 9 incubators, 10 nutrient solution Storing cases, 11 signal amplifiers, 12 wireless transceivers, 13 open source single-chip microcontrollers, 14 liftings Mechanism, 15 heating devices, 16 Internet of Things devices, 17 first straight line motors, 18 first guide rails, 19 second straight line motors, 20 second are led Rail, 21 lateral adjustment devices, 22 longitudinal adjustment apparatus, 23 cushion sockets, 24 first electric telescopic rods, 25 attachment bases, 26 second electricity Dynamic telescopic rod, 27 electronic flowmeters, 28 flow control valves, 29 culture solution adding sets, 30 screw telescopic pipes, 31 spray heads, 32 electricity Sub- microscope, 33 first telescoping mechanisms, 34 second telescoping mechanisms.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: one kind can be to the microorganism that microorganism is observed in real time Incubator, including pedestal 1, the top of pedestal 1 are fixed with incubator 9, and incubator 9 is transparent mechanism, inside to incubator 9 Microorganism observed in real time, the side of incubator 9 is separately installed with open source single-chip microcontroller 13, Internet of Things device 16 and heating device 15, the inside of incubator 9 is equipped with lateral adjustment device 21, and the side of lateral adjustment device 21 is equipped with longitudinal adjustment apparatus 22, the first telescoping mechanism 33 and the second telescoping mechanism 34 are separately installed on longitudinal adjustment apparatus 22, the first telescoping mechanism 33 End is equipped with electron microscope 32, and the end of the second telescoping mechanism 34 is equipped with culture solution adding set 29, culture solution addition Metering device 6 is installed, the bottom of incubator 9, which offers, picks and places channel 2, the corresponding position for picking and placing channel 2 on pedestal 1 on device 29 It sets and rack 5, the output end of the input terminal electrical connection external power supply of open source single-chip microcontroller 13, open source is connected with by elevating mechanism 14 It is right to control electron microscope 32 by open source single-chip microcontroller 13 for the input terminal of the output end electrical connection electron microscope 32 of single-chip microcontroller 13 Microorganism inside culture dish is monitored, and the information of monitoring passes to open source single-chip microcontroller 13, by open source single-chip microcontroller 13 to information It is analyzed and processed and shows.

Elevating mechanism 14 includes electric lifting rod 3, and electric lifting rod 3 is mounted on the top of pedestal 1, electric lifting rod 3 Telescopic end is fixed with capping 4, and rack 5 is fixed on the inside of capping 4, and the output end of open source single-chip microcontroller 13 is electrically connected electric up-down Culture dish is placed on rack 5 by the input terminal of bar 3, is controlled electric lifting rod 3 by open source single-chip microcontroller 13 and is worked, electronic The telescopic end of elevating lever 3 drives capping 4 to carry out elevating movement, and the port for covering 4 pairs of pick-and-place channels 2 is closed, and rack 5 exists Enter inside incubator 9 under the drive of capping 4 across pick-and-place channel 2, use single culture dish channel, not when picking and placing Other culture dishes can be impacted, substantially increase the safety in utilization of the bio-incubator.

Lateral adjustment device 21 includes the first guide rail 18, and the first guide rail 18 is fixed on the inside of incubator 9, the first guide rail 18 It is connected with first straight line motor 17 by sliding block, the output end of open source single-chip microcontroller 13 is electrically connected the defeated of first straight line motor 17 Enter end, the work of the first guide rail 18 controlled by open source single-chip microcontroller 13, is moved in a straight line on the first guide rail 18 by the first sliding block, To which the lateral operating position of electron microscope 32 and culture solution adding set 29 be adjusted.

Longitudinal adjustment apparatus 22 includes the second guide rail 20, and the end of the second guide rail 20 is connect with first straight line motor 17, the Two guide rails 20 are connected with second straight line motor 19 by the second sliding block, and the output end electrical connection second of open source single-chip microcontroller 13 is straight The input terminal of line motor 19 controls second straight line motor 19 by open source single-chip microcontroller 13 and works, and second straight line motor 19 passes through the Two sliding blocks move in a straight line on the second guide rail 20, to work electron microscope 32 and the longitudinal of culture solution adding set 29 Position is adjusted.

It is carried out by lateral operating position of the lateral adjustment device 21 to electron microscope 32 and culture solution adding set 29 It adjusts, longitudinal operating position to electron microscope 32 and culture solution adding set 29 is adjusted by longitudinal adjustment apparatus 22 Section, mechanization degree is high, easy to adjust, is convenient for observation and culture solution adds work, time saving and energy saving, is related personnel's Work is provided convenience.

First telescoping mechanism 33 includes the first electric telescopic rod 24, and the first electric telescopic rod 24 is mounted on second straight line motor On 19, the telescopic end of the first electric telescopic rod 24 is fixed with cushion socket 23, and electron microscope 32 is mounted on cushion socket 23, open source The output end of single-chip microcontroller 13 is electrically connected the input terminal of the first electric telescopic rod 24, stretches by the way that open source single-chip microcontroller 13 control first is electronic Contracting bar 24 works, and the end of the first electric telescopic rod 24 is adjusted by working depth of the cushion socket 23 to electron microscope 32 Section, eliminates the bad vibration that electron microscope 32 is subject to by the flexible deformation of cushion socket 23, adds and fills in culture solution Electron microscope 32 is stored when setting 29 work, it is avoided to influence each other.

Second telescoping mechanism 34 includes the second electric telescopic rod 26, and the second electric telescopic rod 26 is mounted on second straight line motor On 19, the telescopic end of the second electric telescopic rod 26 is fixed with attachment base 25, the second electricity of output end electrical connection of open source single-chip microcontroller 13 The input terminal of dynamic telescopic rod 26 controls the work of the second electric telescopic rod 26, the second electric telescopic rod 26 by open source single-chip microcontroller 13 End by attachment base 25 drive culture solution adding set 29 carry out elevating movement, thus to the work of culture solution adding set 29 Make height to be adjusted, culture solution adding set 29 is stored when electron microscope 32 works, it is avoided to influence each other.

Culture solution adding set 29 includes nutrient solution Storing case 10 and spray head 31, and spray head 31 is mounted on attachment base 25, is sought Nutrient solution Storing case 10 is mounted on the top of incubator 9, and nutrient solution Storing case 10 is connect by screw telescopic pipe 30 with spray head 31, seeks Nutrient solution inside nutrient solution Storing case 10 is delivered in spray head 31 by screw telescopic pipe 30, is added to culture dish by spray head 31 Interior, addition is convenient, avoids and opens trouble and adverse effect that incubator 9 adds nutrient solution.

Metering device 6 includes electronic flowmeter 27 and flow control valve 28, and electronic flowmeter 27 and flow control valve 28 are equal It is mounted on screw telescopic pipe 30, the input terminal of the output end electrical connection open source single-chip microcontroller 13 of electronic flowmeter 27, monolithic of increasing income The input terminal of the output end electrical connection flow control valve 28 of machine 13, by electronic flowmeter 27 to the additive amount of screw telescopic pipe 30 It is monitored, the information of monitoring passes to open source single-chip microcontroller 13, and open source single-chip microcontroller 13 is analyzed and processed information, and according to pre- The additive amount of screw telescopic pipe 30 is adjusted in setting parameter control flow control valve 28, and metering is accurate, substantially increases battalion The accuracy of nutrient solution addition, convenient for meeting different culture demands.

Heating device 15 includes heater 7 and electrical thermometer 8, and heater 7 and electrical thermometer 8 are installed in incubator 9 side, the input terminal of the output end electrical connection open source single-chip microcontroller 13 of electrical thermometer 8, the output end electricity for single-chip microcontroller 13 of increasing income The input terminal for connecting heater 7, is monitored the temperature inside incubator 9 by electrical thermometer 8, the information transmitting of monitoring Open source single-chip microcontroller 13 is given, open source single-chip microcontroller 13 is analyzed and processed information, and controls 7 pairs of heater cultures according to parameter preset Temperature inside case 9 is adjusted, to guarantee the constant of 9 internal temperature of incubator, avoids excessive temperature differentials and leads to microorganism Death substantially increases the survival rate of microculture.

Internet of Things device 16 includes wireless transceiver 12, and wireless transceiver 12 is mounted on the side of incubator 9, wireless transceiver 12 side is equipped with signal amplifier 11, the input terminal of the output end electrical connection signal amplifier 11 of open source single-chip microcontroller 13, letter The input terminal of the output end electrical connection wireless transceiver 12 of number amplifier 11, the information that open source single-chip microcontroller 13 is handled are put by signal Big device 11 amplifies, and the signal of amplification is transmitted to remote monitoring center by wireless transceiver 12, and remote monitoring center passes through wireless 12 pairs of open source single-chip microcontrollers 13 of transceiver are remotely controlled, and intelligence degree is high, and monitoring is convenient.

Single-chip microcontroller 13 of increasing income controls electron microscope 32, electric lifting rod 3, first straight line motor 17, second straight line motor 19, the first electric telescopic rod 24, the second electric telescopic rod 26, electronic flowmeter 27, flow control valve 28, heater 7, electronics temperature Degree table 8, wireless transceiver 12 and signal amplifier 11 are method commonly used in the prior art, and open source single-chip microcontroller 13 is PIC system Column single-chip microcontroller.

When in use: culture dish is placed on rack 5, electric lifting rod 3 is controlled by open source single-chip microcontroller 13 and is worked, The telescopic end of electric lifting rod 3 drives capping 4 to carry out elevating movement, and the port for covering 4 pairs of pick-and-place channels 2 is closed, and places Frame 5 passes through pick-and-place channel 2 under the drive of capping 4 and enters inside incubator 9.

The work of the first guide rail 18 is controlled by open source single-chip microcontroller 13, the first guide rail 18 is by the first sliding block in the first guide rail 18 On move in a straight line, so that the lateral operating position of electron microscope 32 and culture solution adding set 29 be adjusted.

It controls second straight line motor 19 by open source single-chip microcontroller 13 to work, second straight line motor 19 is by the second sliding block the It is moved in a straight line on two guide rails 20, to be adjusted to longitudinal operating position of electron microscope 32 and culture solution adding set 29 Section.

The work of the first electric telescopic rod 24 is controlled by open source single-chip microcontroller 13, the end of the first electric telescopic rod 24 is by subtracting The working depth of shake 23 pairs of electron microscopes 32 of seat is adjusted, by the flexible deformation of cushion socket 23 to electron microscope 32 by To bad vibration eliminated.

The work of the second electric telescopic rod 26 is controlled by open source single-chip microcontroller 13, the end of the second electric telescopic rod 26 passes through company Joint chair 25 drives culture solution adding set 29 to carry out elevating movement, to adjust to the working depth of culture solution adding set 29 Section.

Nutrient solution inside nutrient solution Storing case 10 is delivered in spray head 31 by screw telescopic pipe 30, is added by spray head 31 It is added in culture dish.

It is monitored by additive amount of the electronic flowmeter 27 to screw telescopic pipe 30, it is single that the information of monitoring passes to open source Piece machine 13, open source single-chip microcontroller 13 are analyzed and processed information, and control flow control valve 28 according to parameter preset and stretch to screw thread The additive amount of the draw 30 is adjusted.

The temperature inside incubator 9 is monitored by electrical thermometer 8, the information of monitoring passes to open source single-chip microcontroller 13, open source single-chip microcontroller 13 is analyzed and processed information, and controls heater 7 to the temperature inside incubator 9 according to parameter preset Degree is adjusted.

It controls electron microscope 32 by open source single-chip microcontroller 13 to be monitored the microorganism inside culture dish, the letter of monitoring Breath passes to open source single-chip microcontroller 13, and information is analyzed and processed and is shown by open source single-chip microcontroller 13.

The information that open source single-chip microcontroller 13 is handled is amplified by signal amplifier 11, and the signal of amplification passes through wireless transceiver 12 It is transmitted to remote monitoring center, remote monitoring center is remotely controlled by 12 pairs of open source single-chip microcontrollers 13 of wireless transceiver.

The utility model controls electric lifting rod 3 by open source single-chip microcontroller 13 and works, and the telescopic end of electric lifting rod 3 drives Capping 4 carries out elevating movement, and the port for covering 4 pairs of pick-and-place channels 2 is closed, and rack 5 is passed through under the drive of capping 4 and taken It puts channel 2 to enter inside incubator 9, uses single culture dish channel, other culture dishes can't be caused when picking and placing It influences, substantially increases the safety in utilization of the bio-incubator.

It is carried out by lateral operating position of the lateral adjustment device 21 to electron microscope 32 and culture solution adding set 29 It adjusts, longitudinal operating position to electron microscope 32 and culture solution adding set 29 is adjusted by longitudinal adjustment apparatus 22 Section, mechanization degree is high, easy to adjust, is convenient for observation and culture solution adds work, time saving and energy saving, is related personnel's Work is provided convenience.

Nutrient solution inside nutrient solution Storing case 10 is delivered in spray head 31 by screw telescopic pipe 30, is added by spray head 31 It is added in culture dish, addition is convenient, avoids and opens trouble and adverse effect that incubator 9 adds nutrient solution.

It is monitored by additive amount of the electronic flowmeter 27 to screw telescopic pipe 30, it is single that the information of monitoring passes to open source Piece machine 13, open source single-chip microcontroller 13 are analyzed and processed information, and control flow control valve 28 according to parameter preset and stretch to screw thread The additive amount of the draw 30 is adjusted, and metering is accurate, substantially increases the accuracy of nutrient solution addition, different convenient for meeting Culture demand.

The temperature inside incubator 9 is monitored by electrical thermometer 8, the information of monitoring passes to open source single-chip microcontroller 13, open source single-chip microcontroller 13 is analyzed and processed information, and controls heater 7 to the temperature inside incubator 9 according to parameter preset Degree is adjusted, to guarantee the constant of 9 internal temperature of incubator, avoids excessive temperature differentials and causes microorganism dead, mention significantly The high survival rate of microculture.

The information that open source single-chip microcontroller 13 is handled is amplified by signal amplifier 11, and the signal of amplification passes through wireless transceiver 12 It is transmitted to remote monitoring center, remote monitoring center is remotely controlled by 12 pairs of open source single-chip microcontrollers 13 of wireless transceiver, Intelligence degree is high, and monitoring is convenient.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (10)

1. one kind can be to the microbiological incubator that microorganism is observed in real time, including pedestal (1), it is characterised in that: the pedestal (1) Top be fixed with incubator (9), incubator (9) is transparent mechanism, and it is single that the side of the incubator (9) is separately installed with open source Piece machine (13), Internet of Things device (16) and heating device (15) are equipped with lateral adjustment device (21) on the inside of incubator (9), horizontal It is equipped with longitudinal adjustment apparatus (22) to the side of regulating device (21), is separately installed on the longitudinal adjustment apparatus (22) One telescoping mechanism (33) and the second telescoping mechanism (34), the end of the first telescoping mechanism (33) are equipped with electron microscope (32), The end of second telescoping mechanism (34) is equipped with culture solution adding set (29), and culture solution adding set is equipped on (29) Metering device (6), the bottom of the incubator (9), which offers, picks and places channel (2), the corresponding position for picking and placing channel (2) on pedestal (1) It sets and is connected with rack (5) by elevating mechanism (14), the input terminal electrical connection external power supply of open source single-chip microcontroller (13) Output end, the input terminal of output end electrical connection electron microscope (32) of open source single-chip microcontroller (13).

2. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described Elevating mechanism (14) includes electric lifting rod (3), and electric lifting rod (3) is mounted on the top of pedestal (1), the electric lifting rod (3) telescopic end is fixed with capping (4), and rack (5) is fixed on the inside of capping (4), the defeated of single-chip microcontroller (13) of increasing income Outlet is electrically connected the input terminal of electric lifting rod (3).

3. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described Lateral adjustment device (21) includes the first guide rail (18), and the first guide rail (18) is fixed on the inside of incubator (9), and described first leads Rail (18) is connected with first straight line motor (17) by sliding block, the output end electrical connection first of open source single-chip microcontroller (13) The input terminal of linear motor (17).

4. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described Longitudinal adjustment apparatus (22) includes the second guide rail (20), and the end of the second guide rail (20) is connect with first straight line motor (17), institute It states the second guide rail (20) to be connected with second straight line motor (19) by the second sliding block, the output of open source single-chip microcontroller (13) The input terminal of end electrical connection second straight line motor (19).

5. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described First telescoping mechanism (33) includes the first electric telescopic rod (24), and the first electric telescopic rod (24) is mounted on second straight line motor (19) on, the telescopic end of first electric telescopic rod (24) is fixed with cushion socket (23), and electron microscope (32), which is mounted on, to be subtracted It shakes on seat (23), the input terminal of the output end electrical connection the first electric telescopic rod (24) of open source single-chip microcontroller (13).

6. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described Second telescoping mechanism (34) includes the second electric telescopic rod (26), and the second electric telescopic rod (26) is mounted on second straight line motor (19) on, the telescopic end of second electric telescopic rod (26) is fixed with attachment base (25), the defeated of single-chip microcontroller (13) of increasing income Outlet is electrically connected the input terminal of the second electric telescopic rod (26).

7. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described Culture solution adding set (29) includes nutrient solution Storing case (10) and spray head (31), and spray head (31) is mounted on attachment base (25), The nutrient solution Storing case (10) is mounted on the top of incubator (9), and nutrient solution Storing case (10) passes through screw telescopic pipe (30) It is connect with spray head (31).

8. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described Metering device (6) includes electronic flowmeter (27) and flow control valve (28), electronic flowmeter (27) and flow control valve (28) It is installed on screw telescopic pipe (30), the input of output end electrical connection open source single-chip microcontroller (13) of the electronic flowmeter (27) End, the input terminal of output end electrical connection flow control valve (28) of open source single-chip microcontroller (13).

9. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: described Heating device (15) includes heater (7) and electrical thermometer (8), and heater (7) and electrical thermometer (8) are installed in culture The side of case (9), the input terminal of output end electrical connection open source single-chip microcontroller (13) of the electrical thermometer (8), single-chip microcontroller of increasing income (13) input terminal of output end electrical connection heater (7).

10. one kind according to claim 1 can be to the microbiological incubator that microorganism is observed in real time, it is characterised in that: institute Stating Internet of Things device (16) includes wireless transceiver (12), and wireless transceiver (12) is mounted on the side of incubator (9), described wireless The side of transceiver (12) is equipped with signal amplifier (11), the output end electrical connection signal amplification of open source single-chip microcontroller (13) The input terminal of device (11), the input terminal of output end electrical connection wireless transceiver (12) of signal amplifier (11).