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Screen-display interactive method for laboratory ultrasonic bioprocessing

A technology of biological treatment and interactive method, which is applied in the field of laboratory ultrasonic biological treatment system, can solve the problems of consuming manpower, financial resources, material resources, the best frequency that cannot guarantee high efficiency, and the fine frequency adjustment of different objects. The effects of automatic storage, improving the utilization rate of detection points, and reducing the space occupied by the machine body

Active Publication Date: 2022-04-15
BEIBU GULF UNIV
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Problems solved by technology

In essence, such a method cannot guarantee that the working ultrasonic frequency is the optimal frequency for the object, nor can it perform precise and fine frequency adjustments for different objects, and the accumulated experience is not the best process; in addition, the The method not only consumes a lot of manpower, financial resources and material resources in the initial stage, but also often requires observation, adjustment and maintenance during the use period.

Method used

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  • Screen-display interactive method for laboratory ultrasonic bioprocessing
  • Screen-display interactive method for laboratory ultrasonic bioprocessing
  • Screen-display interactive method for laboratory ultrasonic bioprocessing

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Embodiment Construction

[0058] exist figure 1 In the structural diagram of the sound intensity detection feedback circuit of the processing tank shown in the figure: the sound intensity detection feedback circuit of the processing tank is based on the sound intensity sensor S s It is the sound intensity detection feedback circuit of the core device. Sound intensity signal bias current resistance R s1 One end of the control circuit is connected to the positive terminal E of the working power supply of the control circuit, and the other end is connected to the sound intensity sensor S of the sound measuring part 14.8 s The output terminal of the sound intensity signal s; the sound intensity sensor S s The ground terminal is grounded. Sound Intensity Sensor S s The output terminal of the sound intensity signal s passes through the sound intensity signal coupling resistor R s2 The sound intensity signal op amp connected to A s Inverting input terminal; sound intensity signal op amp A s The non-inv...

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Abstract

A screen-display interactive method for ultrasonic bioprocessing in an integrated visualization laboratory: 0. Parameter setting. 1. Read about the given parameter. 2. Related variable assignment; set the initial value of related variables. 3. Open the efficiency database; clear the records of each frequency point. 4. Refresh the records of each frequency point with the registered variable data of the pins of the controller chip according to the order of pulse vibration. 5. Open the efficiency incremental differential value database and associate with the efficiency database. 6. Calculate the average of the accumulative value recorded in the number of pulse vibrations at each frequency point, and send it to the pin of the controller chip for display. 7. Calculate the difference with respect to the frequency interval for the average value of each adjacent frequency point, and refresh the records in the efficiency incremental difference value database. 8. Refresh the efficiency incremental record of each frequency point with the difference value, and send it to the pin of the controller chip for display at the same time. 9. Determine the high-efficiency frequency point. 10. Lock and run at the high-efficiency frequency point or continue searching. 11. Shut down on time or return to 4. 12. Close each database, shut down or continue to lock and run.

Description

technical field [0001] The invention relates to a laboratory ultrasonic biological treatment system, working software, process and method. Background technique [0002] The laboratory equipment, process and method of ultrasonic biological treatment are still in the mode of single-frequency treatment, group control and inductive effect. The current laboratory method of ultrasonic biological treatment is: by setting or selecting a certain working frequency of the ultrasonic generating equipment in advance, and then using the ultrasonic frequency of this frequency to act on the treatment object. However, the processing rate of ultrasonic waves on objects is highly correlated with ultrasonic frequency, and the processing efficiency varies greatly with different ultrasonic frequencies; moreover, the type of biological cells to be processed is highly related to ultrasonic frequency, and different biological cells are sensitive to different frequency ultrasonic waves. very differe...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F3/0481G06F3/0488G01H17/00G01J1/44G01R19/00
CPCG06F3/0481G06F3/0488G01H17/00G01J1/44G01R19/00
Inventor 屈百达程宪宝姜愉梁家海胡俐蕊农国才
Owner BEIBU GULF UNIV
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