CN213475935U - Intelligent anaerobic incubator - Google Patents

Abstract

The utility model provides an intelligent anaerobic incubator, which comprises a camera device, an oxygen sensor, an air inlet, an air outlet, a nitrogen generator, an intelligent controller and a wireless communication module; the video information in the intelligent anaerobic box is acquired by arranging the camera device in the culture room, and the intelligent controller is provided with the wireless communication module and can send the video information to maintenance personnel through the wireless communication module; and the intelligent controller can receive the oxygen concentration value in the anaerobic incubator collected by the oxygen sensor in real time, and controls the nitrogen generator to fill nitrogen into the culture chamber of the anaerobic incubator under the condition that the oxygen concentration in the anaerobic incubator is too high so as to reduce the oxygen concentration in the culture chamber, thereby realizing intelligent control of the oxygen concentration in the anaerobic incubator and real-time observation of the inside of the anaerobic incubator.

Description

Intelligent anaerobic incubator

Technical Field

The utility model relates to an experimental apparatus technical field especially relates to an intelligence anaerobism incubator.

Background

The anaerobic incubator is a special device for carrying out bacterial culture and operation in an anaerobic environment, can be used for culturing the most difficult-to-grow anaerobic organisms, and can avoid the danger that the anaerobic organisms are contacted with oxygen to die under the condition that the conventional anaerobic organisms are operated in the atmosphere. The anaerobic incubator can also provide strict temperature culture conditions and a systematic and scientific working area so that anaerobic organisms can grow well in the anaerobic incubator.

Although the anaerobic incubator can enable anaerobic organisms to grow well, various parameters in the anaerobic incubator cannot be monitored in real time at present, so that the growth environment of the anaerobic organisms cannot be accurately controlled; the existing anaerobic incubator can not carry out video monitoring, so that the anaerobic organisms in the anaerobic incubator can not be remotely monitored; most of the existing anaerobic incubators are not connected with the Internet of things, so that the existing anaerobic incubators cannot be remotely controlled.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects of the prior art, an intelligent anaerobic incubator is provided.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme:

the utility model provides a pair of intelligence anaerobic incubator, including box and cultivation room, the cultivation room sets up the box still includes:

an image pickup device provided on an upper surface inside the incubation chamber;

an oxygen sensor disposed at a side surface of an inside of the culture chamber;

an air inlet hole provided in a side surface of the inside of the culture chamber;

an air outlet hole provided in a side surface of the inside of the culture chamber;

the nitrogen generator is arranged on the box body, is positioned on the side part of the culture chamber and is connected with the air inlet;

the intelligent controller is arranged on the box body, is positioned on the side part of the culture chamber, and is respectively and electrically connected with the camera device, the oxygen sensor and the nitrogen generator;

the wireless communication module is arranged in the intelligent controller and electrically connected with the intelligent controller.

Further, still include:

and the electromagnetic valve is arranged in the air outlet hole and is electrically connected with the intelligent controller.

Further, still include:

the ultraviolet sterilizer is arranged on the upper surface of the interior of the culture chamber and is electrically connected with the intelligent controller.

Further, still include:

a viewing window disposed at a front portion of the culture chamber.

Further, still include:

the display screen is arranged in front of the intelligent controller.

Further, still include:

the temperature sensor is arranged on the side surface of the interior of the culture chamber and is electrically connected with the intelligent controller.

Further, still include:

and the audible and visual alarm is arranged on the front surface of the intelligent controller and is electrically connected with the intelligent controller.

Further, still include:

the deaerator, the deaerator sets up cultivate the inside side surface of room, and with intelligent control ware electric connection.

Further, still include:

and the heating chamber is arranged on the box body and is positioned at the lower part of the culture chamber.

Further, still include:

and the heating pipes are arranged on the rear surface inside the heating chamber at intervals and are electrically connected with the intelligent controller.

Compared with the prior art, the intelligent anaerobic incubator provided by the utility model has the advantages that the video device is arranged in the culture chamber to collect the video information in the intelligent anaerobic incubator, the intelligent controller is provided with the wireless communication module, and the intelligent controller sends the video information to the maintainers through the wireless communication module; and the intelligent controller can receive the oxygen concentration value in the anaerobic incubator collected by the oxygen sensor in real time, and can control to open the nitrogen generator to fill nitrogen into the inside of the culture chamber of the anaerobic incubator under the condition that the oxygen concentration in the anaerobic incubator is too high so as to reduce the oxygen concentration in the culture chamber, thereby realizing intelligent control of the oxygen concentration in the anaerobic incubator and real-time observation of the inside of the anaerobic incubator.

Drawings

FIG. 1 is a schematic structural diagram I of an intelligent anaerobic incubator of the present invention;

FIG. 2 is a schematic structural view II of an intelligent anaerobic incubator of the present invention;

FIG. 3 is a third schematic structural view of an intelligent anaerobic incubator of the present invention;

FIG. 4 is a first circuit connection diagram of an intelligent anaerobic incubator of the present invention;

FIG. 5 is a circuit connection diagram II of an intelligent anaerobic incubator of the present invention;

wherein the reference symbols are:

the method comprises the following steps of 1-a box body, 2-a culture chamber, 3-a camera device, 4-an oxygen sensor, 5-an air inlet, 6-an air outlet, 7-a nitrogen generator, 8-an intelligent controller, 9-a wireless communication module, 10-a heating chamber, 11-an electromagnetic valve, 12-an ultraviolet sterilizer, 13-an observation window, 14-a display screen, 15-a temperature sensor, 16-an audible and visual alarm, 17-a deaerator, 18-a heating pipe and 19-a cloud platform.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides a pair of intelligence anaerobism incubator, as shown in fig. 1 ~ 3, this intelligence anaerobism incubator includes box 1 and cultivates room 2, cultivates room 2 and sets up on box 1, and the upper surface of the inside of cultivateing room 2 is provided with camera device 3 for to cultivateing 2 inside control of room.

The camera 3 may be a camera.

In some embodiments, a memory may be disposed inside the camera 3 to store the video information collected by the camera 3.

In some embodiments, the bottom of the tank 1 may be provided with a plurality of rollers for facilitating the movement of the anaerobic incubator.

An oxygen sensor 4 is provided on a side surface of the inside of the incubation chamber 2 for detecting an oxygen concentration value inside the incubation chamber 2 and sending the oxygen concentration value to the intelligent controller 8.

An air inlet hole 5 and an air outlet hole 6 are arranged on the side surface of the culture chamber 2, and the air inlet hole 5 is arranged on the side surface of the interior of the culture chamber 2 and is connected with an air outlet of a nitrogen generator 7. The nitrogen generator 7 can introduce nitrogen gas into the inside of the cultivation room 2 through the gas inlet 5 to reduce the concentration value of other gases inside the cultivation room 2, such as the concentration value of oxygen inside the cultivation room 2.

The gas outlet hole 6 is provided on the side surface of the inside of the culture chamber 2 for discharging the original gas inside the culture chamber 2 to the outside of the culture chamber 2 through the gas outlet hole 6 and further to the outside of the case body 1 in the case where the nitrogen gas generator 7 fills the inside of the culture chamber 2 with nitrogen gas.

Wherein, the height of the air outlet 6 from the horizontal plane is less than that of the air inlet 5 from the horizontal plane, namely the air outlet 6 is positioned below the air inlet 5, under the condition that the nitrogen generator 7 delivers nitrogen to the culture chamber 2, fresh nitrogen is filled into the upper part of the culture chamber 2, thereby extruding the original gas to flow downwards and finally being discharged to the outside of the culture chamber 2 through the air outlet 6.

Or the height of the air outlet 6 from the horizontal plane is greater than that of the air inlet 5 from the horizontal plane, namely the air outlet 6 is positioned above the air inlet 5, and under the condition that the nitrogen generator 7 delivers nitrogen to the culture chamber 2, fresh nitrogen is filled into the lower part of the culture chamber 2, so that the original gas is extruded to flow upwards and is finally discharged to the outside of the culture chamber 2 through the air outlet 6.

The inside of venthole 6 is provided with solenoid valve 11, and solenoid valve 11 carries out electric connection with intelligent control ware 8. The intelligent controller 8 can control the opening or closing of the electromagnetic valve 11.

The front of the culture chamber 2 may be provided with an observation window 13, and the observation window 13 is provided to be transparent so that the inside of the culture chamber 2 can be observed through the observation window 13.

Wherein, the culture chamber 2 can be made of stainless steel plate, and the observation window 13 can be made of high-strength special glass.

Wherein, the observation window 13 is provided with the operation gloves below, and maintainer can maintain the anaerobe of cultivateing the room 2 inside through the operation gloves, for example, remove part anaerobe to the sampling room.

The box body 1 is also provided with an intelligent controller 8, the intelligent controller 8 is arranged on the side part of the culture chamber 2, and the intelligent controller 8 is respectively and electrically connected with the camera device 3, the oxygen sensor 4 and the nitrogen generator 7. The intelligent controller 8 may control the nitrogen generator 7 to be turned on or off, wherein the intelligent controller 8 may be provided at the left side of the cultivation room 2.

In some embodiments, a sampling chamber is arranged below the intelligent controller 8, and a cabinet door is arranged at the front part of the sampling chamber.

Wherein, the intelligent controller 8 can receive the oxygen concentration value in the culture chamber 2 collected by the oxygen sensor 4; under the condition that the intelligent controller 8 detects that the oxygen concentration value in the culture chamber 2 collected by the oxygen sensor 4 reaches a first oxygen concentration threshold value, the intelligent controller 8 controls the nitrogen generator 7 to be started, so that the nitrogen generator 7 fills nitrogen into the culture chamber 2, and controls the electromagnetic valve 11 in the air outlet 6 to be opened, so that the original gas with higher oxygen concentration in the culture chamber 2 is discharged, and the oxygen concentration in the culture chamber 2 is reduced; in case the intelligent controller 8 detects that the oxygen concentration value reaches a second oxygen concentration threshold value, the intelligent controller 8 controls the nitrogen generator 7 to be switched off, wherein the first oxygen concentration threshold value is used for indicating that the oxygen concentration inside the cultivation room 2 is high and the second oxygen concentration value is used for indicating that the oxygen concentration inside the cultivation room 2 is low.

The internally mounted of intelligent control ware 8 has wireless communication module 9, and intelligent control ware 8 can send the message to maintainer through wireless communication module 9.

In some embodiments, the smart controller 8 may send data with the cloud platform 19 through the wireless communication module 9, and then the cloud platform 19 sends the data to maintenance personnel.

For example, under the condition that the intelligent controller 8 receives that the oxygen concentration value collected by the oxygen sensor 4 reaches the first oxygen concentration threshold value, the intelligent controller 8 can send the oxygen concentration value to the cloud platform 19 through the wireless communication module 9, and then the cloud platform 19 sends the oxygen concentration value to the maintenance personnel, so that the maintenance personnel can maintain in time.

The upper surface of the interior of the culture chamber 2 is also provided with an ultraviolet sterilizer 12, and the ultraviolet sterilizer 12 is electrically connected with the intelligent controller 8. The ultraviolet sterilizer 12 is used to kill harmful bacteria inside the culture chamber 2, thereby enabling effective cleaning of the culture chamber 2 and preventing harmful bacteria from escaping to the outside in the case of opening the culture chamber 2.

Wherein, still be provided with display screen 14 on intelligent control ware 8 for show the parameter that intelligent control ware 8 received, if can show the inside temperature value of cultivateing room 2, oxygen concentration value, thereby can make maintainer clearly know the inside oxygen concentration and the temperature of cultivateing room 2.

The side surface of the inside of the culture chamber 2 is also provided with a temperature sensor 15, and the temperature sensor 15 is electrically connected with the intelligent controller 8. Temperature sensor 15 is used for detecting the inside temperature value of cultivateing room 2, and send this temperature value to intelligent control ware 8, detect under the condition that the temperature value reaches the temperature threshold value at intelligent control ware 8, intelligent control ware 8 can generate early warning information, and send early warning information to cloud platform 19 through wireless communication module 9, cloud platform 19 sends this early warning information to maintainer, thereby make maintainer can in time maintain the anaerobism incubator, wherein, the temperature threshold value is used for instructing to cultivate the inside high temperature of room 2.

Still be provided with audible-visual annunciator 16 on the shell of intelligent control ware 8, audible-visual annunciator 16 carries out electric connection with intelligent control ware 8. Under the condition that the intelligent controller 8 detects that the oxygen concentration inside the culture chamber 2 is too high and/or the temperature is too high, the intelligent controller 8 can control the audible and visual alarm 16 to give an alarm to prompt maintenance personnel to maintain the internal environment parameters of the culture chamber 2.

In some embodiments, the intelligent controller 8 is further provided with an RS485 communication interface, and the intelligent controller 8 can be connected with an external device through the RS485 communication interface. If the intelligent controller 8 is connected with the printer through RS 485.

Wherein, the side surface in the inside of cultivateing room 2 still is provided with oxygen-eliminating device 17, and oxygen-eliminating device 17 and intelligent control ware 8 electric connection. The intelligent control ware 8 can control opening or closing of oxygen-eliminating device 17, and oxygen-eliminating device 17 is used for detaching the inside oxygen of cultivateing room 2 to prevent to cultivate the inside oxygen concentration of room 2 too high, cause adverse effect to the anaerobism of anaerobism incubator inside.

For example, under the condition that the oxygen concentration in the culture chamber 2 is lower and does not reach the oxygen concentration threshold value preset in the intelligent controller 8, only the deaerator 17 can be opened at the moment, a small amount of oxygen contained in the culture chamber 2 is eliminated, the nitrogen generator 7 does not need to be opened, and the gas in the culture chamber 2 is replaced in a large amount, so that the problem that adverse influence is caused to anaerobic organisms when a small amount of oxygen in the culture chamber 2 cannot trigger the intelligent controller 8 to control the nitrogen generator 7 to operate is solved.

The cabinet 1 is further provided with a heating chamber 10, and the heating chamber 10 is located at the lower part of the incubation chamber 2.

A plurality of heating pipes 18 are arranged inside the heating chamber 10, and the plurality of heating pipes 18 are electrically connected with the intelligent controller 8. Wherein, the intelligent controller 8 can control the heating pipe 18 to be opened or closed.

The front of the heating chamber 10 is provided with a cabinet door.

For example, in the case that the intelligent controller 8 detects that the temperature value inside the culture chamber 2 reaches the first temperature threshold, the intelligent controller 8 may control to turn on the plurality of heating pipes 18 to heat the heating chamber 10, and then the heat inside the heating chamber 10 is uniformly dissipated into the interior of the culture chamber 2 through the top of the heating chamber 10, so as to heat the interior of the culture chamber 2; under the condition that intelligent control ware 8 detects that the temperature value of cultivateing the inside of room 2 reaches second temperature threshold, intelligent control ware 8 can control and close heating pipe 18, prevents to cultivate the inside high temperature of room 2. Wherein, the first temperature threshold is used for indicating that the temperature of the culture chamber 2 is too low, and the heating pipe 18 needs to be opened to heat the interior of the culture chamber 2, and the second temperature threshold is used for indicating that the temperature of the culture chamber 2 is too high, and the heating pipe 18 needs to be closed.

The heating pipe 18 can be controlled to be opened or closed by the intelligent controller 8, so that the intelligent control of the temperature inside the culture chamber 2 is realized.

The present invention has been described in detail with reference to the specific embodiments, but the present invention is only by way of example and is not limited to the specific embodiments described above. Any equivalent modifications and substitutions to those skilled in the art are intended to be within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (10)

1. The utility model provides an intelligence anaerobic culture case, includes box and cultivates the room, it sets up to cultivate the room the box, its characterized in that still includes:

an image pickup device provided on an upper surface inside the incubation chamber;

an oxygen sensor disposed at a side surface of an inside of the culture chamber;

an air inlet hole provided in a side surface of the inside of the culture chamber;

an air outlet hole provided in a side surface of the inside of the culture chamber;

the nitrogen generator is arranged on the box body, is positioned on the side part of the culture chamber and is connected with the air inlet;

the intelligent controller is arranged on the box body, is positioned on the side part of the culture chamber, and is respectively and electrically connected with the camera device, the oxygen sensor and the nitrogen generator;

the wireless communication module is arranged in the intelligent controller and electrically connected with the intelligent controller.

2. The intelligent anaerobic incubator according to claim 1, further comprising:

and the electromagnetic valve is arranged in the air outlet hole and is electrically connected with the intelligent controller.

3. The intelligent anaerobic incubator according to claim 1, further comprising:

the ultraviolet sterilizer is arranged on the upper surface of the interior of the culture chamber and is electrically connected with the intelligent controller.

4. The intelligent anaerobic incubator according to claim 1, further comprising:

a viewing window disposed at a front portion of the culture chamber.

5. The intelligent anaerobic incubator according to claim 1, further comprising:

the display screen is arranged in front of the intelligent controller.

6. The intelligent anaerobic incubator according to claim 1, further comprising:

the temperature sensor is arranged on the side surface of the interior of the culture chamber and is electrically connected with the intelligent controller.

7. The intelligent anaerobic incubator according to claim 1, further comprising:

and the audible and visual alarm is arranged on the front surface of the intelligent controller and is electrically connected with the intelligent controller.

8. The intelligent anaerobic incubator according to claim 1, further comprising:

the deaerator, the deaerator sets up cultivate the inside side surface of room, and with intelligent control ware electric connection.

9. The intelligent anaerobic incubator according to claim 1, further comprising:

and the heating chamber is arranged on the box body and is positioned at the lower part of the culture chamber.

10. The intelligent anaerobic incubator of claim 9, further comprising:

and the heating pipes are arranged on the rear surface inside the heating chamber at intervals and are electrically connected with the intelligent controller.

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