CN206591130U - Remote control degerming type microbiological incubator - Google Patents

Abstract

The utility model discloses a remote control sterilization type microorganism incubator, which belongs to the technical field of microorganism cultivation devices, and comprises a box body, a cultivation room is arranged inside the box body, a culture medium is arranged at the bottom of the inside of the cultivation chamber, and a culture medium is arranged outside the cultivation chamber. There is an air hood on the side, and the outside of the air hood is connected with an air duct. The air duct is equipped with a fan and a sterilization and purification device. After the air duct passes through the sterilization and purification device, it is connected to the cultivation room again. There is a water tank outside the training room, the top of the training room is a transparent glass plate, an electrical control room is arranged above the outside, a walking track is provided at the bottom of the electrical control room, a walking device is provided on the walking track, and a walking device is connected below the walking device. The camera assembly and the electrical control room are equipped with a controller inside, equipped with effective sterilization and purification devices and detection devices, which can effectively detect the content of bacteria, improve the efficiency of microbial cultivation, and solve the problems in the prior art.

Description

Remote control sterilization type microbial incubator

technical field

The utility model relates to a remote control sterilization type microorganism incubator, which belongs to the technical field of microorganism cultivation devices.

Background technique

At present, the cultivation of microorganisms is the focus of research. The key to success in the cultivation process of microorganisms lies in aseptic operation. If the culture equipment and medium cannot be completely sterilized, and there are bacteria contamination in the cultivation process, it is easy to fail. Therefore, the content of bacteria in the incubator needs to be strictly controlled. The microbial incubator in the prior art lacks corresponding sterilization and purification devices and detection devices, resulting in low cultivation efficiency. At the same time, with the development of remote control technology, microbial cultivation The remote control operation of remote control has become a hot research topic at present.

Utility model content

The purpose of the utility model is to provide a remote control sterilization type microbial incubator, equipped with an effective sterilization purification device and a detection device, which can effectively detect the content of bacteria, improve the efficiency of microbial cultivation, and solve the problems in the prior art .

The remote control sterilization type microorganism incubator described in the utility model comprises a box body, a cultivation room is arranged inside the box body, a box door is arranged outside the box body, a culture medium is arranged under the inside of the cultivation room, and a culture medium is arranged outside the cultivation room. One side of the air hood is provided with a wind hood, and the outside of the wind hood is connected with an air duct. The air duct is equipped with a fan and a sterilization and purification device. The source and the hot air source are connected to the cultivation room through the heat delivery pipe. There is a water tank outside the cultivation room, and the water tank is connected to the inside of the cultivation room through a water pipe. There are several nozzles on the water pipe. An electrical control room is provided above the electrical control room, a walking track is provided at the bottom of the electrical control room, a walking device is provided on the walking track, a camera assembly is connected to the bottom of the walking device, a controller is provided inside the electrical control room, and the controller is electrically connected to the camera assembly And realize data communication with the remote terminal through the wireless transmission module.

When microorganisms are cultivated, the microorganisms to be cultivated are placed in the culture medium, water is delivered to the cultivation chamber through the water tank and water pipes, and the hot air source transmits heat to the cultivation chamber through the heat delivery pipe to ensure the humidity and temperature required for the growth of microorganisms. During the process, the fan can absorb the air in the cultivation room, and the air is sterilized and purified by the sterilization and purification device, and then sent to the cultivation room again to ensure the cleanliness of the air inside the cultivation chamber; at the same time, the camera component can be used for real-time monitoring during the cultivation process , the top of the cultivation room is made of a transparent glass plate. During monitoring, the walking device walks on the walking track, and the walking device drives the camera assembly to move, thereby shooting pictures from multiple angles. The transmission module transmits to the remote terminal, and the remote terminal can also issue commands to the controller to realize remote control.

The inside of the described cultivation chamber is provided with a detection sensor group and a bacteria detector, the detection sensor group includes a temperature sensor and a humidity sensor, the detection sensor group and the bacteria detector are electrically connected to the controller, and the controller passes through the first relay, the second relay and The third relay is respectively connected with the switches of the water tank, the hot air source and the fan.

The temperature sensor detects the temperature in the cultivation chamber in real time, the humidity sensor detects the humidity in the cultivation chamber in real time, the bacteria detector detects the bacteria content in the cultivation chamber in real time, the controller collects the above information in real time, and sets the threshold value of each parameter. When the collected data exceeds When the threshold value is reached, the first relay, the second relay and the third relay respectively control the running and stopping of the water tank, the hot air source and the fan.

The walking device includes a walking drive motor, a walking wheel and a bearing. The bearing is connected to the camera assembly. The walking drive motor drives the traveling wheel to move horizontally to drive the camera assembly. Drive the movement of the lower camera assembly to take pictures from multiple angles.

The bacteria removal and purification device includes three layers of bacteria removal and purification membranes, the purification accuracy of the bacteria removal and purification membranes increases successively, and the bacteria removal and purification membranes can effectively filter bacteria and particles in the air.

The electrical control room is provided with a power supply, the power supply is a storage battery electrical connection controller, a travel drive motor, a blower fan, a hot air source, a water tank, a detection sensor group and a bacteria detector.

The interior of the cultivation chamber is provided with a lighting lamp, and the lighting lamp provides illumination when necessary.

The outside of the box door is provided with an observation window through which the inside of the box body can be observed.

The controller adopts STM32 type single-chip microcomputer, and the design cost of STM32 type single-chip microcomputer is low, and can meet the design requirements.

Compared with the prior art, the utility model has the following beneficial effects:

Provide a remote control sterilization type microbial incubator, equipped with an effective sterilization and purification device that can effectively remove bacteria and particles in the air to ensure the growth environment of microorganisms, and at the same time have a detection device inside that can effectively detect the content of bacteria, according to the content of bacteria Carry out sterilization and purification, improve the efficiency of microbial cultivation, and solve the problems in the existing technology; in terms of monitoring, it is equipped with a camera component, which can take pictures of the inside of the cultivation room in all directions, and the pictures taken can be transmitted in time, and at the same time According to the remote control technology in the prior art, remote control can be realized, making the cultivation of microorganisms more intelligent and efficient, and can be widely used in the cultivation of microorganisms.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the circuit connection block diagram of the utility model embodiment;

In the figure: 1. Cultivation room; 2. Box door; 3. Observation window; 4. Water tank; 5. Walking track; 6. Controller; 7. Power supply; 8. Electrical control room; 9. Walking drive motor; 10. Camera assembly; 11. Water pipe; 12. Bacteria detector; 13. Cabinet; 14. Sterilization and purification device; 15. Fan; 16. Air duct; 17. Hot air source; 18. Heat delivery pipe; 20. Lighting lamp; 21. Humidity sensor; 22. Temperature sensor.

detailed description

Below in conjunction with accompanying drawing and embodiment the utility model is described further:

Example

As shown in Figure 1-2, the remote control sterilization type microbial incubator described in the utility model comprises a box body 13, the inside of the box body 13 is provided with a cultivation chamber 1, and the outside of the box body 13 is provided with a box door 2, The bottom of the cultivation chamber 1 is provided with a culture medium 19, and one side outside the cultivation chamber 1 is provided with a hood, and the outside of the hood communicates with an air duct 16. The pipe 16 communicates with the cultivation chamber 1 again after passing through the sterilization and purification device 14. A hot gas source 17 is provided under the interior of the box body 13. The hot gas source 17 communicates with the cultivation chamber 1 through a heat delivery pipe 18. A water tank 4 is provided outside the cultivation chamber 1. The water tank 4 is connected to the inside of the cultivation room 1 through a water pipe 11. The water pipe 11 is provided with several nozzles. The top of the cultivation chamber 1 is a transparent glass plate, and an electric control room 8 is arranged on the top of the outside. There is a walking track 5, the walking track 5 is provided with a walking device, a camera assembly 10 is connected to the bottom of the walking device, and a controller 6 is arranged inside the electrical control room 8, and the controller 6 is electrically connected to the camera assembly 10 and communicates with the camera assembly 10 through a wireless transmission module. The remote terminal realizes the data communication.

In order to further illustrate the foregoing embodiment, the inside of the cultivation chamber 1 is provided with a detection sensor group and a bacteria detector 12, and the detection sensor group includes a temperature sensor 22 and a humidity sensor 21, and the detection sensor group and the bacteria detector 12 are electrically connected to the controller 6 to control The device 6 is respectively connected to the switch of the water tank 4, the hot gas source 17 and the blower fan 15 through the first relay, the second relay and the third relay.

To further illustrate the above embodiment, the traveling device includes a traveling drive motor 9, traveling wheels and bearings, the bearings are connected to the camera assembly 10, and the traveling driving motor 9 drives the traveling wheels to move horizontally so as to drive the camera assembly 10 to move.

To further illustrate the above embodiment, the bacteria removal and purification device 14 includes three layers of bacteria removal and purification membranes, and the purification accuracy of the bacteria removal and purification membranes increases sequentially.

In order to further illustrate the foregoing embodiment, a power supply 7 is provided in the electric control room 8, and the power supply 7 is a storage battery electrical connection controller 6, a walking drive motor 9, a blower fan 15, a hot air source 17, a water tank 4, a detection sensor group and a bacteria detector 12 .

In order to further illustrate the above embodiment, an illumination lamp 20 is provided inside the cultivation chamber 1 .

In order to further illustrate the above embodiment, an observation window 3 is provided on the outside of the box door 2 .

In order to further illustrate the above-mentioned embodiment, the controller 6 adopts a STM32 single-chip microcomputer.

The working principle of this embodiment is: when microorganisms are cultivated, the microorganisms to be cultivated are placed in the culture medium 19, water is delivered to the cultivation chamber 1 through the water tank 4 and the water pipe 11, and the hot gas source 17 is sent to the cultivation chamber 1 through the heat delivery pipe 18. The heat is transmitted inside to ensure the humidity and temperature required for the growth of microorganisms. The fan 15 absorbs the air in the cultivation room 1 in real time. cleanliness; the temperature sensor 22 detects the temperature in the cultivation chamber 1 in real time, the humidity sensor 21 detects the humidity in the cultivation chamber 1 in real time, the bacteria detector 12 detects the bacterial content in the cultivation chamber 1 in real time, and the controller 6 collects the above-mentioned information in real time, And set the threshold value of each parameter, when the collected data exceeds the threshold value, the operation and stop of the water tank 4, the hot gas source 17 and the fan 15 are respectively controlled by the first relay, the second relay and the third relay, and the camera assembly 10 performs real-time For monitoring, the top of the cultivation chamber 1 is made of a transparent glass plate. During monitoring, the traveling drive motor 9 drives the traveling wheels to move on the traveling track 5, and the traveling wheels drive the lower camera assembly 10 to move through the bearings, thereby shooting pictures from multiple angles , the controller 6 collects the above-mentioned photographed information in real time, and transmits them to the remote terminal through the wireless transmission module, and the remote terminal can also send commands to the controller 6 to realize remote control. The wireless transmission module is a wireless transmission device in the prior art, The remote control is realized based on the existing technology.

The remote control sterilization type microbial incubator of the embodiment of the utility model described in conjunction with the accompanying drawings above has an effective sterilization purification device 14 and a detection device that can effectively detect the content of bacteria, improve the efficiency of microbial cultivation, and solve the problem There are problems that arise in technology. But the utility model is not limited to the described embodiments, and the changes, modifications, replacements and deformations to the embodiments still fall within the protection scope of the utility model without departing from the principle and spirit of the utility model.

Claims (8)

1. A remote control degerming type microorganism incubator, comprising casing (13), the inside of casing (13) is provided with cultivation chamber (1), and the outside of casing (13) is provided with chamber door (2), It is characterized in that: a culture medium (19) is provided under the interior of the cultivation chamber (1), a wind hood is provided on one side of the outside of the cultivation chamber (1), and an air duct (16) is communicated with the outside of the wind shield. A blower fan (15) and a sterilization and purification device (14) are arranged on the pipe (16). A hot gas source (17) is provided, and the hot gas source (17) communicates with the cultivation chamber (1) through a heat transfer pipe (18), and a water tank (4) is arranged outside the cultivation chamber (1), and the water tank (4) passes through a water pipe (11 ) to the inside of the cultivation room (1), the water pipe (11) is provided with several nozzles, the top of the cultivation room (1) is a transparent glass plate, and an electrical control room (8) is arranged on the top of the outside, the electrical control room (8) There is a walking track (5) at the bottom, a walking device is provided on the walking track (5), a camera assembly (10) is connected to the bottom of the walking device, and a controller (6) is provided inside the electrical control room (8) , the controller (6) is electrically connected to the camera assembly (10) and realizes data communication with the remote terminal through the wireless transmission module. 2. The remote control sterilization type microorganism incubator according to claim 1, characterized in that: the inside of the described cultivation chamber (1) is provided with a detection sensor group and a bacteria detector (12), and the detection sensor group includes a temperature Sensor (22) and humidity sensor (21), detection sensor group and bacteria detector (12) electric connection controller (6), controller (6) connects water tank ( 4), the switch of hot gas source (17) and fan (15). 3. The remote control sterilization type microbial incubator according to claim 2, characterized in that: the traveling device comprises a traveling drive motor (9), traveling wheels and bearings, the bearings are connected to the camera assembly (10), and the traveling device is driven The motor (9) drives the traveling wheel to move horizontally so as to drive the camera assembly (10) to move. 4. The remote control sterilization type microbial incubator according to claim 1, characterized in that: said sterilization purification device (14) comprises three layers of sterilization purification membranes, and the purification accuracy of the sterilization purification membranes increases sequentially. 5. The remote control sterilization type microorganism incubator according to claim 3, characterized in that: a power supply (7) is provided in the described electrical control room (8), and the power supply (7) is a storage battery electrical connection controller ( 6), travel driving motor (9), fan (15), hot air source (17), water tank (4), detection sensor group and bacteria detector (12). 6. The remote control sterilization type microorganism incubator according to claim 1, characterized in that: the interior of the cultivation chamber (1) is provided with an illumination lamp (20). 7. The remote control sterilization type microbial incubator according to claim 1, characterized in that: an observation window (3) is provided outside the door (2). 8. The remote control sterilization type microorganism incubator according to claim 1, characterized in that: said controller (6) adopts STM32 single-chip microcomputer.