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Atomized particle control method, system and equipment of beauty instrument

A particle control and beauty instrument technology, which is applied in therapeutic nebulizers, drug devices, and other medical devices, can solve the problems of not meeting the requirements of skin introduction, failing to achieve the effect, and low penetration promoting effect. To achieve the effect of importing, improving efficiency, and improving precise matching

Pending Publication Date: 2022-07-01
ZHEJIANG YIGE ENTERPRISE MANAGEMENT GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Therefore, the demand for traditional hand-applied skin care products is also changing. It hopes to penetrate quickly and have a high penetration rate into the base layer of the skin. Therefore, traditional manual methods cannot meet the requirements. Some existing products are imported with the help of instruments, but often fail to achieve The reason is that the effect of promoting penetration is small, or the use of mechanical atomization does not meet the requirements of skin introduction

Method used

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  • Atomized particle control method, system and equipment of beauty instrument

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] Example 1: Matching Drug A

[0035] 1. Start

[0036] 2. Detection of drug types;

[0037] 3. According to the type of drug, the system presets the corresponding atomization pressure value (example A);

[0038] 4. Start the air compressor to inflate the system;

[0039] 5. Then check whether the system pressure value PA reaches the preset range value E, the range value of E is 3-7bar, and the value of this implementation case is 6bar;

[0040] 6. Assuming that the threshold value E is reached, execute the next step command. If it is not reached, the feedback air compressor will continue to charge;

[0041] 7. The detection reaches the preset pressure value E, then further detects the step number X of the stepper motor, and judges whether it reaches the threshold value range;

[0042] 8. If the number of steps of the detected stepper motor is within the preset range, the import command is executed, and the response time is the initial preset value;

[0043] 9. If th...

Embodiment 2

[0046] Example 2: Matching Drug B

[0047] 1. Start

[0048] 2. Detection of drug types;

[0049] 3. According to the drug type, the system presets the corresponding atomization pressure value (example B);

[0050] 4. Start the air compressor to inflate the system;

[0051] 5. Then check whether the system pressure value PB reaches the preset range value F; the range value of F is 2-6bar, and the value of this implementation case is 5bar;

[0052] 6. Assuming that the threshold value F is reached, execute the next step command, if not, the feedback air compressor will continue to charge;

[0053] 7. The detection reaches the preset pressure value F, then further detects the step number Y of the stepper motor, and judges whether it reaches the threshold range;

[0054] 8. If the number of steps of the detected stepper motor is within the preset range, the import command is executed, and the response time is the initial preset value;

[0055] 9. If the step number of the de...

Embodiment 3

[0058] Example 3: Matching Drug C

[0059] 1. Start

[0060] 2. Detection of drug types;

[0061] 3. According to the type of drug, the system presets the corresponding atomization pressure value (example C);

[0062] 4. Start the air compressor to inflate the system;

[0063] 5. Then check whether the system pressure value PC reaches the preset range value G; the range value of G is 1-5bar, and the value of this implementation case is 4bar;

[0064] 6. Assuming that the threshold G is reached, execute the next step command, if not, the feedback air compressor will continue to inflate;

[0065] 7. The detection reaches the preset pressure value G, then further detects the step number Z of the stepper motor, and judges whether it reaches the threshold range;

[0066] 8. If the number of steps of the detected stepper motor is within the preset range, the import command is executed, and the response time is the initial preset value;

[0067] 9. If the step number of the dete...

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Abstract

The invention discloses an atomized particle control method, system and equipment of a beauty instrument, and the method comprises the steps: detecting the type of a medicine, and presetting a corresponding atomization pressure value according to the type of the medicine; then detecting whether a pressure value reaches a preset atomization pressure value range of the beauty instrument or not; if it is detected that the preset atomization pressure value range is reached, the next command is executed, and if the preset atomization pressure value range is not reached, continuous inflation is fed back; and if it is detected that the preset atomization pressure value range is reached, the step number X of the stepping motor is further detected, and then an import command is executed. The atomization pressure is automatically matched by identifying the medicine, and the pressure change and the medicine amount change are accurately identified, so that the response time is adjusted to control the air amount, accurate control of the atomization particles is realized, the requirement of guiding the medicine into the skin is realized, and accurate matching and efficacy improvement of the beauty instrument and the medicine are improved.

Description

technical field [0001] The invention belongs to the technical field of atomization control of beauty instruments, and particularly relates to a method, system and equipment for controlling atomized particles of beauty instruments. Background technique [0002] With the improvement of people's living standards, consumers have higher and higher requirements for beauty and skin care, and their professional level is also improving. Therefore, the demand for traditional hand-applied skin care products is also changing. They hope to penetrate quickly and have a high penetration rate to the basal layer of the skin. Therefore, the traditional manual method cannot be satisfied. Some existing products are imported by means of instruments, but they often cannot reach The reason is that the effect of promoting penetration is small, or the use of mechanical atomization does not meet the requirements of skin introduction. [0003] Therefore, how to precisely control the atomization of dr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61M11/02A61M37/00
CPCA61M11/02A61M11/001A61M37/00
Inventor 魏华锋穆成刚毛毅斌赵冲
Owner ZHEJIANG YIGE ENTERPRISE MANAGEMENT GRP CO LTD
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