CN112725237A

CN112725237A - Intestinal bacteria culture observation method

Info

Publication number: CN112725237A
Application number: CN202110122065.3A
Authority: CN
Inventors: 杨国栋
Original assignee: Affiliated Hospital of North Sichuan Medical College
Current assignee: Affiliated Hospital of North Sichuan Medical College
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2021-04-30

Abstract

The invention discloses an intestinal bacteria culture observation method, which comprises the following steps: s1, setting parameters, namely setting time threshold parameters of the observation equipment; s2, setting culture temperature, and setting the culture temperature in different time periods according to the intestinal bacteria culture temperature curve; s3, observing the intestinal bacteria culture in real time through monitoring equipment, and recording and storing observation data; s4, when the intestinal bacteria culture observation is about to enter a key time period, giving a prompt, and when the key time period is finished, printing the observation data of the time period in real time; and S5, after the observation is finished, storing and backing up the whole observation process, and printing the whole observation data. When the method is used for observation, the key time period of intestinal bacteria culture can be directly and effectively recorded and reminded, and the observation data of the key time period is ensured to be more complete to a certain extent.

Description

Intestinal bacteria culture observation method

Technical Field

The invention belongs to the field of intestinal bacteria culture, and particularly relates to an intestinal bacteria culture observation method.

Background

The total number of bacteria in the human gut is surprisingly large and it is clear what they have done. According to previous researches, bacteria in intestinal tracts of human bodies can help people decompose some nutrient substances, "train" the immune system, prevent the growth of harmful bacteria, produce vitamins required by human bodies and produce hormones for regulating the storage of fat of the human bodies, and in the process of culturing the intestinal bacteria, the culture process needs to be observed, and the quantity and the survival rate of the intestinal bacteria are observed.

At present, most of the existing technologies adopt manual work or monitoring equipment to perform real-time observation, however, the labor intensity of manual observation is high, and the culture process of intestinal bacteria is inconvenient to record after manual observation, and the current monitoring equipment cannot set a key time interval according to actual observation requirements, so that in actual observation, the key time interval of intestinal bacteria culture cannot be directly and effectively recorded and reminded, and therefore, the intestinal bacteria culture observation method is provided.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an intestinal bacteria culture observation method, which divides an observation process into a plurality of groups of observation time periods with the same time, sets a certain group of time periods or a plurality of groups of time periods as key time periods, gives a prompt when the intestinal bacteria culture observation is about to enter the key time periods, and prints the observation data of the time periods in real time when the key time periods are finished, so that the key time periods of intestinal bacteria culture can be directly and effectively recorded and reminded, and the observation data of the key time periods are ensured to be more complete to a certain extent.

In order to achieve the purpose, the invention provides the following technical scheme:

an intestinal bacteria culture observation method comprises the following steps:

s1, setting parameters, namely setting time threshold parameters of the observation equipment, dividing the observation process into a plurality of groups of observation time periods with the same time by taking the time threshold as a unit, and setting a certain group of time periods or certain groups of time periods as key time periods;

s2, setting culture temperature, setting the culture temperature in different time periods according to the culture temperature curve of the intestinal bacteria, and setting temperature rise and fall time between temperatures in different time periods according to the requirement of the intestinal bacteria culture;

s3, observing the intestinal bacteria culture in real time through monitoring equipment, and recording and storing observation data;

s4, when the intestinal bacteria culture observation is about to enter a key time period, giving a prompt, and when the key time period is finished, printing the observation data of the time period in real time;

and S5, after the observation is finished, storing and backing up the whole observation process, and printing the whole observation data.

Preferably, the intestinal bacteria culture in step S2 adopts a temperature-adjustable bacteria culture tank, and the culture illuminance is 2000-.

Preferably, the setting parameters in step S1 are parameters input to a controller for controlling the bacteria culture tank, the controller uses an AT89C51 single chip microcomputer, the AT89C51 single chip microcomputer uses a BP neural network algorithm, and a neural network is used as a data fusion method and applied to various fields, and the neural network has induction, summarization, extraction, memory, association and fault tolerance, and achieves the purpose of processing information by adjusting the interconnection relationship among a large number of internal nodes depending on the complexity of the system.

Preferably, the intestinal bacteria culture observation in step S3 specifically uses an infrared camera for image acquisition, the wavelength of the infrared camera is 1.5-400 μm, the infrared camera includes a lens, a photosensitive element, and a signal processing element, external light is focused on the photosensitive element through the lens, the photosensitive element is electrically connected to the signal processing element, and an output end of the signal processing module outputs an analog signal, a digital signal, or a video stream; the analog signals are CVBS, S-VIDEO and VGA; the digital signals are ITU-R BT.656, ITU-R BT.601, ITU-R BT.1120, DVI and HDMI; the video stream is transmitted through Ethernet, WIFI, Bluetooth, RS-232, RS-485 and CAN.

Preferably, the infrared camera further includes a light detection module for detecting an ambient light illuminance, the light detection module includes a plurality of scanning lines, a plurality of reading lines, and a plurality of light sensing elements, each light sensing element is coupled to one of the plurality of scanning lines and one of the plurality of reading lines, and the light detection method includes: and simultaneously starting at least two of the plurality of scanning lines to start a plurality of coupled light sensing elements in the plurality of light sensing elements.

Preferably, in step S4, an audible and visual alarm is used for prompting, the audible and visual alarm is electrically connected to the controller, the controller activates the audible and visual alarm to operate for audible and visual alarm 30 seconds to 60 seconds before the set key time interval is reached, and when the key time interval is reached, the sound of the audible and visual alarm is turned off, and the alarm lamp still operates and continues to stop until the key time interval is ended.

Preferably, the temperature-adjustable bacteria culture tank is internally provided with an LED lamp tube and an ultraviolet lamp tube respectively, and the LED lamp tube is used for providing required illumination for intestinal bacteria culture.

Preferably, the ultraviolet lamp tube kills the intestinal bacteria according to needs when the intestinal bacteria culture fails or is finished, so that the infection of operators or the pollution to the environment are avoided.

Preferably, in step S5, the data is printed by a laser printer, the laser printer uses a raster image processor to generate a bitmap of the page to be printed, and then converts the bitmap into a series of pulses such as an electrical signal to be sent to a laser emitter, under the control of the series of pulses, the laser is regularly emitted, at the same time, the photosensitive drum receiving the reflected beam is photosensitive, a dot is generated when the laser is emitted, and a blank is generated when the laser is not emitted, so that a line of dots is printed on the receiver, and then the receiver rotates a short fixed distance to continue the above operations. When paper passes through the photosensitive drum, the coloring agent on the drum can be transferred to the paper and printed into a bitmap of a page, and finally, after the paper passes through the pair of heating rollers, the coloring agent is heated and melted and fixed on the paper, so that the whole printing process is completed, and the whole process is accurate and efficient.

The invention has the technical effects and advantages that: compared with the traditional observation method, the method for observing the intestinal bacteria culture can set time threshold parameters of observation equipment during observation, divide the observation process into a plurality of groups of observation periods with the same time by taking the time threshold as a unit, set a certain group of the observation periods or a plurality of groups of the observation periods as key periods, send a prompt when the intestinal bacteria culture observation is about to enter the key periods, print the observation data of the period in real time when the key periods are finished, directly and effectively record and remind the key periods of the intestinal bacteria culture, and ensure that the observation data of the key periods are more complete to a certain extent.

Drawings

FIG. 1 is a flow chart of the method for observing intestinal bacteria culture according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an observation method for intestinal bacteria culture as shown in figure 1, which comprises the following steps:

the setting parameters in the step S1 are specifically parameters input to a controller for controlling the bacteria culture tank, the controller adopts an AT89C51 single chip microcomputer, the AT89C51 single chip microcomputer adopts a BP neural network algorithm, a neural network is used as a data fusion method and is applied to various fields, the neural network has induction, summarization, extraction, memory, association and fault tolerance, and the purpose of processing information is achieved by adjusting the interconnection relationship among a large number of internal nodes depending on the complexity of the system;

wherein, the intestinal bacteria culture in the step S2 adopts a temperature-adjustable bacteria culture tank, and the culture illuminance is 2000-;

the temperature-adjustable bacteria culture tank is internally provided with an LED lamp tube and an ultraviolet lamp tube respectively, the LED lamp tube is used for providing required illumination for the intestinal bacteria during culture, and the ultraviolet lamp tube kills the intestinal bacteria as required when the intestinal bacteria fails to culture or the intestinal bacteria culture is finished, so that the infection of operators or the pollution to the environment are avoided;

the intestinal bacteria culture observation in the step S3 specifically adopts an infrared camera for image acquisition, the wavelength of the infrared camera is 1.5-400 microns, the infrared camera comprises a lens, a photosensitive element and a signal processing element, external light is focused on the photosensitive element through the lens, the photosensitive element is electrically connected with the signal processing element, and the output end of the signal processing module outputs an analog signal, a digital signal or a video stream; the analog signals are CVBS, S-VIDEO and VGA; the digital signals are ITU-R BT.656, ITU-R BT.601, ITU-R BT.1120, DVI and HDMI; the video stream is transmitted through Ethernet, WIFI, Bluetooth, RS-232, RS-485 and CAN, the infrared camera further comprises a light detection module for detecting the ambient illuminance, the light detection module comprises a plurality of scanning lines, a plurality of reading lines and a plurality of light sensing elements, each light sensing element is coupled with one of the plurality of scanning lines and one of the plurality of reading lines, and the light detection method comprises the following steps: simultaneously starting at least two of the plurality of scanning lines to start a plurality of coupled light sensing elements in the plurality of light sensing elements;

in step S4, a sound-light alarm is used for prompting, the sound-light alarm is electrically connected to the controller, the controller activates the sound-light alarm to work for sound-light alarm 30 seconds to 60 seconds before the set key time interval is reached, when the key time interval is reached, the sound of the sound-light alarm is turned off, the alarm lamp still works, and the alarm lamp continues to work until the key time interval is ended;

s5, after the observation is finished, storing and backing up the whole observation process, and printing whole observation data;

in step S5, a laser printer is used to print data, the laser printer uses a raster image processor to generate a bitmap of a page to be printed, and then converts the bitmap into a series of pulses such as an electrical signal to be sent to a laser transmitter, under the control of the series of pulses, laser is regularly emitted, at the same time, a reflected beam is received by a photosensitive drum to be photosensitive, a dot is generated when the laser is emitted, and a blank is generated when the laser is not emitted, so that a line of dots is printed on a receiver, and then the receiver rotates a short fixed distance to continue repeating the above operations. When paper passes through the photosensitive drum, the coloring agent on the drum can be transferred to the paper and printed into a bitmap of a page, and finally, after the paper passes through the pair of heating rollers, the coloring agent is heated and melted and fixed on the paper, so that the whole printing process is completed, and the whole process is accurate and efficient.

In summary, the following steps: the method can set time threshold parameters of observation equipment during observation, divide the observation process into a plurality of groups of observation time periods with the same time by taking the time threshold as a unit, set a certain group of time periods or a certain group of time periods as a key time period, send a prompt when the intestinal bacteria culture observation is about to enter the key time period, print the observation data of the time period in real time when the key time period is finished, directly and effectively record and remind the key time period of the intestinal bacteria culture, and ensure that the observation data of the key time period are more complete to a certain extent.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. An intestinal bacteria culture observation method is characterized by comprising the following steps:

2. The method for observing intestinal bacterial culture according to claim 1, wherein: the intestinal bacteria culture in step S2 adopts a temperature-adjustable bacteria culture tank, and the illumination intensity is 2000-.

3. The method for observing intestinal bacterial culture according to claim 2, wherein: the setting parameters in the step S1 are specifically parameters input to a controller for controlling the bacteria culture tank, the controller adopts an AT89C51 single chip microcomputer, the AT89C51 single chip microcomputer adopts a BP neural network algorithm, and a neural network is used as a data fusion method and is applied to various fields, the neural network has induction, summarization, extraction, memory, association and fault tolerance, and the purpose of processing information is achieved by adjusting the interconnection relationship among a large number of internal nodes depending on the complexity of the system.

4. The method for observing intestinal bacterial culture according to claim 1, wherein: the intestinal bacteria culture observation specifically adopts an infrared camera for image acquisition, the wavelength of the infrared camera is 1.5-400 microns, the infrared camera comprises a lens, a photosensitive element and a signal processing element, external light is focused on the photosensitive element through the lens, the photosensitive element is electrically connected with the signal processing element, and the output end of the signal processing module outputs an analog signal, a digital signal or a video stream; the analog signals are CVBS, S-VIDEO and VGA; the digital signals are ITU-R BT.656, ITU-R BT.601, ITU-R BT.1120, DVI and HDMI; the video stream is transmitted through Ethernet, WIFI, Bluetooth, RS-232, RS-485 and CAN.

5. The method for observing intestinal bacterial culture according to claim 4, wherein: the infrared camera further comprises a light detection module for detecting the ambient light illumination, the light detection module comprises a plurality of scanning lines, a plurality of reading lines and a plurality of light sensing elements, each light sensing element is coupled with one of the plurality of scanning lines and one of the plurality of reading lines, and the light detection method comprises the following steps: and simultaneously starting at least two of the plurality of scanning lines to start a plurality of coupled light sensing elements in the plurality of light sensing elements.

6. The method for observing the culture of the enteric bacteria according to claim 3, wherein: and S4, prompting by adopting an audible and visual alarm, wherein the audible and visual alarm is electrically connected with the controller, the controller activates the audible and visual alarm to work for audible and visual alarm 30 seconds to 60 seconds before the set key time period is reached, when the key time period is reached, the sound of the audible and visual alarm is turned off, the alarm lamp still works, and the alarm lamp continues to work until the key time period is ended.

7. The method for observing intestinal bacterial culture according to claim 2, wherein: the temperature-adjustable bacteria culture tank is internally provided with an LED lamp tube and an ultraviolet lamp tube respectively, and the LED lamp tube is used for providing required illumination for intestinal bacteria culture.

8. The method for observing intestinal bacterial culture according to claim 7, wherein: when the intestinal bacteria culture fails or is finished, the ultraviolet lamp tube kills the intestinal bacteria according to needs, so that the infection of operators or the pollution to the environment are avoided.

9. The method for observing intestinal bacterial culture according to claim 1, wherein: in step S5, the data is printed by a laser printer, which uses a raster image processor to generate a bitmap of the page to be printed, and then converts the bitmap into a series of pulses such as an electrical signal to be sent to a laser transmitter, under the control of the series of pulses, the laser is regularly emitted, and at the same time, the reflected beam is received by a photosensitive drum to be photosensitive, a dot is generated when the laser is emitted, and a blank is generated when the laser is not emitted, so that a line of dots is printed on the receiver, and then the receiver rotates a short fixed distance to continue the above operations. When paper passes through the photosensitive drum, the coloring agent on the drum can be transferred to the paper and printed into a bitmap of a page, and finally, after the paper passes through the pair of heating rollers, the coloring agent is heated and melted and fixed on the paper, so that the whole printing process is completed, and the whole process is accurate and efficient.