Atomization quantitative control system for anesthesia department

A quantitative control and anesthesiology technology, applied in nebulizers for treatment, control/regulation systems, non-electric variable control, etc., can solve problems such as easy heat generation, inability to use dusty drugs, and unstable supply

Inactive Publication Date: 2021-02-12
马梅伍
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Higher power consumption causes the whole system to easily generate heat. On the one hand, it makes it difficult to maintain the stability of the system. At the same time, it may also cause the activity of drug molecules in the solution to be affected, denature or other changes to make the drug invalid.
[0004] In order to solve the common problems in the field such as unstable supply, high power consumption, uncontrollable atomization amount, inability to aseptically store medicines, and inability to use dust medicines, etc., the present invention is made

Method used

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  • Atomization quantitative control system for anesthesia department
  • Atomization quantitative control system for anesthesia department
  • Atomization quantitative control system for anesthesia department

Examples

Experimental program
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Effect test

Embodiment 1

[0033]Embodiment 1: An atomization quantitative control system for anesthesiology, the quantitative control system includes a control device, a detection device, an induction device, a connection device, a disinfection device and a processor, and the control device is configured to The detection device is configured to detect the ventilation volume; the sensing device is configured to sense the physiological response of the user, and transmit the collected data to the control device; the The connection device is configured to supply the atomized medicinal liquid; the sterilization device is configured to sterilize the connection device; the control device includes a control channel, a control mechanism and an adjustment mechanism, the control mechanism and all the The adjustment mechanisms are all arranged in the control channel, and the adjustment mechanism is configured to adjust the direction of the control mechanism; the control device is configured to control the supply am...

Embodiment 2

[0034] Embodiment 2: This embodiment should be understood to include at least all the features of any one of the foregoing embodiments, and further improve on the basis thereof. Specifically, an atomization quantitative control system for anesthesiology is provided. The control system includes a control device, a detection device, an induction device, a connection device, a sterilization device and a processor, the control device is configured to control the ventilation volume of the atomization; the detection device is configured to detect the ventilation volume; The sensing device is configured to sense the physiological response of the user, and transmit the collected data to the control device; the connection device is configured to supply the aerosolized medicinal liquid; the disinfection device is configured to sterilize the connection device; specifically, in this embodiment, the processor is respectively connected with the control device, the detection device, the induc...

Embodiment 3

[0041] Embodiment 3: This embodiment should be understood as at least including all the features of any one of the preceding embodiments, and further improvements are made on the basis of it. Specifically, an atomization quantitative control system for anesthesiology is provided, and the quantitative The control system also includes a feedback device, and the feedback device is configured to collect logarithmic throat physiological data and perform processing operations based on the collected data; the feedback device includes a tube body, a sensing element, a microprocessor and A pairing component, the tube body is configured to insert the tube following the ventilator into the patient's larynx, and collect data based on the response of the larynx; the sensing element is configured to measure the properties of the fluid in the patient's throat; the mating member is configured to couple with the outer surface of the tubular body and is configured to receive induced radio freque...

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Abstract

The invention provides an atomization quantitative control system for the anesthesia department. The quantitative control system comprises a control device, a detection device, a sensing device, a connecting device, a disinfection device and a processor, wherein the control device is configured to control the ventilation amount of atomization; the detection device is configured to detect the ventilation quantity; the sensing device is configured to sense the physiological reaction of a user and transmit the acquired data to the control device; the connecting device is configured to supply theatomized liquid medicine; the disinfection device is configured to disinfect the connecting device. The quantitative control system is advantaged in that control plates are mutually stacked to form the annular control ring, and meanwhile, under the driving operation of the air volume driving mechanism, the opening degree of the control ring is adjusted, so the control ring can control the flow ofthe mist spraying amount.

Description

technical field [0001] The invention relates to the field, in particular to an atomization quantitative control system for anesthesiology. Background technique [0002] The existing energy-saving nebulizer for respiratory department also has the inconvenience of moving the nebulizer, inconvenient to quantitatively add medicine, and inconvenient to collect waste liquid. [0003] For example, the prior art of CN103585705B discloses a dynamic quantitative powder atomizer and a quantitative atomization method. Due to the uneven accumulation of powder drugs at the negative pressure air inlet and the difference in the geometric shape between powder particles, high-speed airflow and powder are randomly mixed to form ineffective The stable gas-solid two-phase flow causes significant fluctuations in the delivery concentration of the drug powder in the pipeline. The uneven atomization concentration is not conducive to the release of the active ingredients of the drug, which affects th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61M11/00A61L2/08A61L2/26G05D27/02
CPCA61L2/08A61L2/26A61M11/00A61M2205/3368A61M2205/36G05D27/02
Inventor 马梅伍
Owner 马梅伍
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