CN114681727A - Atomized particle control method, system and equipment of beauty instrument - Google Patents

Abstract

A method, a system and equipment for controlling atomized particles of a beauty instrument comprise the following steps: detecting the type of the medicine, and presetting a corresponding atomization pressure value according to the type of the medicine; inflating, and then detecting a pressure value to determine whether the pressure value reaches the range of a preset atomization pressure value of the beauty instrument; if the range reaching the preset atomization pressure value is detected, executing a next step command, and if the range does not reach the preset atomization pressure value, feeding back to continue inflating; and detecting that the range of the preset atomization pressure value is reached, further detecting the step number X of the stepping motor, and then executing an import command. According to the invention, the atomization pressure is automatically matched by identifying the medicine, the response time is adjusted to control the air volume through accurately identifying the pressure change and the medicine volume change, and the accurate control of the atomized particles is realized, so that the requirement of introducing the medicine into the skin is realized, and the accurate matching and efficacy improvement of a beauty instrument and the medicine are improved.

Description

Atomized particle control method, system and equipment of beauty instrument

Technical Field

The invention belongs to the technical field of cosmetic instrument atomization control, and particularly relates to a cosmetic instrument atomized particle control method, a cosmetic instrument atomized particle control system and cosmetic instrument atomized particle control equipment.

Background

With the improvement of living standard of people, the requirements of consumers on beauty and skin care are higher and higher, and meanwhile, the professional level of the consumers is also improved. The need for conventional hand-applied skin care products has therefore also changed, which are intended to penetrate rapidly and with high permeability into the basal layer of the skin, and therefore cannot be met by conventional manual methods, some products are introduced with the aid of instruments but often do not achieve very good results, because of their low penetration-promoting efficacy, or because of the fact that mechanical atomization does not meet the requirements for skin introduction.

Therefore, how to accurately control the atomization of the medicine and meet the requirement of skin introduction is a problem which needs to be solved urgently by introducing products at present.

Disclosure of Invention

The invention aims to provide an atomized particle control method, an atomized particle control system and atomized particle control equipment of a beauty instrument, so as to solve the problems.

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

an atomized particle control method of a beauty instrument comprises the following steps:

detecting the type of the medicine, and presetting a corresponding atomization pressure value according to the type of the medicine;

inflating, and then detecting a pressure value to determine whether the pressure value reaches the range of a preset atomization pressure value of the beauty instrument;

if the range reaching the preset atomization pressure value is detected, executing a next step command, and if the range does not reach the preset atomization pressure value, feeding back to continue inflating;

detecting the range reaching the preset atomization pressure value, further detecting the step number X of the stepping motor, and judging whether the step number X of the stepping motor reaches the threshold range; if the step number of the stepping motor is detected to be within a preset range, executing an import command; if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value;

if the detected actual measurement step number X is larger than the maximum threshold value, judging that the medicine amount is excessive, reducing the step number of the stepping motor, increasing the response time of the electromagnetic valve, and then executing an importing command; if the detected actual measurement step number X is smaller than the minimum threshold value, the medicine amount is judged to be less, the step number of the stepping motor is increased, meanwhile, the response time of the electromagnetic valve is unchanged, and then an importing command is executed.

Furthermore, when the beauty instrument is started, the accessed medicines are detected firstly, and the corresponding atomization pressure value is switched according to the detected medicine type.

Further, the high-pressure gas tank of the beauty instrument is inflated through the built-in air compressor, and whether the pressure of the high-pressure gas tank reaches the range of the preset atomization pressure value of the beauty instrument or not is detected according to the pressure sensor installed in the high-pressure gas tank.

Further, the medicine amount is judged to be excessive, the step number of the stepping motor is reduced by 1 step, and meanwhile, the response time of the electromagnetic valve is increased by 5 ms.

Further, the medicine amount is judged to be less, the step number of the stepping motor is increased by 1 step, and meanwhile the response time of the electromagnetic valve is unchanged.

Further, when the detection does not reach the range of the preset atomization pressure value, the inflation is continued, and the real-time detection is carried out during the inflation until the range of the preset atomization pressure value is reached.

Further, an atomized particle control system of a beauty instrument comprises:

the drug type judging module is used for detecting the drug type and presetting a corresponding atomization pressure value according to the drug type;

the inflation module is used for inflating and then detecting a pressure value to determine whether the pressure value reaches the range of a preset atomization pressure value of the beauty instrument;

the pressure detection module is used for detecting the range reaching the preset atomization pressure value, executing a next step command, and feeding back to continue inflating if the next step command does not reach the preset atomization pressure value;

the step number detection module of the stepping motor is used for detecting the range reaching the preset atomization pressure value, further detecting the step number X of the stepping motor and judging whether the step number X of the stepping motor reaches the threshold range; if the step number of the stepping motor is detected to be within a preset range, executing an import command; if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value; if the detected actual measurement step number X is larger than the maximum threshold value, judging that the medicine amount is excessive, reducing the step number of the stepping motor, increasing the response time of the electromagnetic valve, and then executing an importing command; if the detected actual measurement step number X is smaller than the minimum threshold value, the medicine amount is judged to be less, the step number of the stepping motor is increased, meanwhile, the response time of the electromagnetic valve is unchanged, and then an importing command is executed.

Further, a computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of a method for controlling aerosolized particles of a cosmetic apparatus when executing the computer program.

Compared with the prior art, the invention has the following technical effects:

according to the invention, the atomization pressure is automatically matched by identifying the medicine, the response time is adjusted to control the air volume through accurately identifying the pressure change and the medicine volume change, and the accurate control of the atomized particles is realized, so that the requirement of introducing the medicine into the skin is realized, and the accurate matching and efficacy improvement of a beauty instrument and the medicine are improved.

The method comprises the steps of accurately matching the medicine with the atomization pressure value through a program, presetting the medicine type and the corresponding pressure value thereof, presetting the threshold range of the medicine amount and the response time of an electromagnetic valve, realizing the accurate matching of the atomization pressure, the medicine feeding amount and the response time, and realizing the accurate guarantee of the atomized particles so as to realize the lead-in effect, wherein in the process of starting and using the method, the medicine is firstly identified and then the corresponding atomization pressure value is matched, the working start and stop of an air pump are controlled by judging the range of the pressure value, the required atomization pressure is guaranteed, the value of the medicine feeding amount is further detected, and the intelligent control of the liquid feeding amount is realized by initializing and matching the liquid feeding amount; whether the judgement is in predetermineeing the within range, through the judgement of threshold value scope, and then adjust step motor step, and then adjust the accuracy nature of feed liquor volume, according to the range value of feed liquor volume at last, and then adjust response time, guarantee the best gas-liquid ratio, rationally adjust the ratio relation of gas pressure, liquid measure and tolerance promptly, realize the uniformity of atomizing granule, guarantee the uniformity of efficiency.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

referring to fig. 1, a method for controlling atomized particles of a cosmetic apparatus includes:

detecting the type of the medicine, and presetting a corresponding atomization pressure value according to the type of the medicine;

inflating, and then detecting a pressure value to determine whether the pressure value reaches the range of a preset atomization pressure value of the beauty instrument;

if the range reaching the preset atomization pressure value is detected, executing a next step command, and if the range does not reach the preset atomization pressure value, feeding back to continue inflating;

detecting the range reaching the preset atomization pressure value, further detecting the step number X of the stepping motor, and judging whether the step number X of the stepping motor reaches the threshold range; if the step number of the stepping motor is detected to be within a preset range, executing an import command; if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value;

if the detected actual measurement step number X is larger than the maximum threshold value, judging that the medicine amount is excessive, reducing the step number of the stepping motor, increasing the response time of the electromagnetic valve, and then executing an importing command; if the detected actual measurement step number X is smaller than the minimum threshold value, the medicine amount is judged to be less, the step number of the stepping motor is increased, meanwhile, the response time of the electromagnetic valve is unchanged, and then an importing command is executed.

Example 1: matched drug A

1. Starting up

2. Detecting the type of the drug;

3. according to the type of the medicine, the system presets a corresponding atomization pressure value (for example A);

4. starting an air compressor to inflate the system;

5. then detecting whether the system pressure value PA reaches a preset range value E, wherein the range value of E is 3-7bar, and the value of the embodiment is 6 bar;

6. if the threshold value E is reached, executing a next step command, and if the threshold value E is not reached, feeding back the air compressor to continue inflating;

7. if the step number reaches the preset pressure value E, further detecting the step number X of the stepping motor, and judging whether the step number reaches the threshold range;

8. if the step number of the stepping motor is detected to be within a preset range, executing an import command, wherein the response time is an initial preset value;

9. if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value;

10. if the detected actual measurement step number X is larger than the threshold value N1, judging that the medicine amount is excessive, reducing the step number of the stepping motor by 1 step, adding 5ms to the response time of the electromagnetic valve, and then executing an importing command; the range value of N1 is 1-10 steps, and the value of N1 in the case of the scheme is 6 steps;

11. if the detected actual measurement step number X is smaller than the M1 threshold value, judging that the medicine amount is less, increasing the step number of the stepping motor by 1 step, keeping the response time of the electromagnetic valve unchanged, and then executing an importing command; the range value of M1 is 1-8 steps, and the value of M1 is 4 steps in the case;

example 2: matched drug B

1. Starting up

2. Detecting the type of the drug;

3. according to the type of the medicine, the system presets a corresponding atomization pressure value (example B);

4. starting an air compressor to charge the system;

5. then detecting whether the system pressure value PB reaches a preset range value F; the range value of F is 2-6bar, and the value of the embodiment is 5 bar;

6. if the threshold value F is reached, executing a next step command, and if the threshold value F is not reached, feeding back the air compressor to continue inflating;

7. if the step number reaches the preset pressure value F, further detecting the step number Y of the stepping motor, and judging whether the step number reaches the threshold range;

8. if the step number of the stepping motor is detected to be within a preset range, executing an import command, wherein the response time is an initial preset value;

9. if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value;

10. if the detected actual measurement step number Y is larger than the threshold value of N2, judging that the medicine amount is excessive, reducing the step number of the stepping motor by 1 step, adding 5ms to the response time of the electromagnetic valve, and then executing an importing command; the range value of N2 is 5-20 steps, and the value of N2 in the case is 12 steps;

11. if the detected actual measurement step number Y is smaller than the M2 threshold value, judging that the medicine amount is less, increasing the step number of the stepping motor by 1 step, keeping the response time of the electromagnetic valve unchanged, and then executing an importing command; the range value of M2 is 1-15 steps, in this case, the value of M2 is 10 steps;

example 3: matched drug C

1. Starting up

2. Detecting the type of the drug;

3. according to the type of the medicine, the system presets a corresponding atomization pressure value (for example C);

4. starting an air compressor to inflate the system;

5. then detecting whether the system pressure value PC reaches a preset range value G or not; the range value of G is 1-5bar, and the value of the embodiment is 4 bar;

6. if the threshold value G is reached, executing a next step command, and if the threshold value G is not reached, feeding back the air compressor to continue inflating;

7. detecting that a preset pressure value G is reached, further detecting the step number Z of the stepping motor, and judging whether the threshold range is reached;

8. if the step number of the stepping motor is detected to be within a preset range, executing an import command, wherein the response time is an initial preset value;

9. if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value;

10. if the detected actual measurement step number Z is larger than the threshold value N3, judging that the medicine amount is excessive, reducing the step number of the stepping motor by 1 step, adding 5ms to the response time of the electromagnetic valve, and then executing an importing command; the range value of N3 is 10-50 steps, and the value of N3 in the case is 20 steps;

11. if the detected actual measurement step number Z is smaller than the M3 threshold value, judging that the medicine amount is less, increasing the step number of the stepping motor by 1 step, keeping the response time of the electromagnetic valve unchanged, and then executing an importing command; the range value of M3 is 8-30 steps, and the value of M3 is 16 steps in the case;

referring to fig. 1, in another embodiment of the present invention, an aerosol particle control system of a cosmetic apparatus is provided, which can be used to implement the above aerosol particle control method of the cosmetic apparatus, and specifically, the system includes:

the drug type judging module is used for detecting the drug type and presetting a corresponding atomization pressure value according to the drug type;

the inflation module is used for inflating and then detecting a pressure value to determine whether the pressure value reaches the range of a preset atomization pressure value of the beauty instrument;

the pressure detection module is used for detecting that the range of the preset atomization pressure value is reached, executing a next command, and if the range of the preset atomization pressure value is not reached, feeding back to continue inflating;

the step number detection module of the stepping motor is used for detecting the range reaching the preset atomization pressure value, further detecting the step number X of the stepping motor and judging whether the step number X of the stepping motor reaches the threshold range; if the step number of the stepping motor is detected to be within a preset range, executing an import command; if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value; if the detected actual measurement step number X is larger than the maximum threshold value, judging that the medicine amount is excessive, reducing the step number of the stepping motor, increasing the response time of the electromagnetic valve, and then executing an importing command; if the detected actual measurement step number X is smaller than the minimum threshold value, the medicine amount is judged to be less, the step number of the stepping motor is increased, meanwhile, the response time of the electromagnetic valve is unchanged, and then an importing command is executed.

The division of the modules in the embodiments of the present invention is schematic, and only one logical function division is provided, and in actual implementation, there may be another division manner, and in addition, each functional module in each embodiment of the present invention may be integrated in one processor, or may exist alone physically, or two or more modules are integrated in one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

In yet another embodiment of the present invention, a computer device is provided that includes a processor and a memory for storing a computer program comprising program instructions, the processor for executing the program instructions stored by the computer storage medium. The Processor may be a Central Processing Unit (CPU), or may be other general-purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable gate array (FPGA) or other Programmable logic device, a discrete gate or transistor logic device, a discrete hardware component, etc., which is a computing core and a control core of the terminal, and is specifically adapted to load and execute one or more instructions in a computer storage medium to implement a corresponding method flow or a corresponding function; the processor described in the embodiments of the present invention may be used for the operations described herein.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (8)

1. An atomized particle control method of a beauty instrument is characterized by comprising the following steps:

detecting the type of the medicine, and presetting a corresponding atomization pressure value according to the type of the medicine;

inflating, and then detecting a pressure value to determine whether the pressure value reaches the range of a preset atomization pressure value of the beauty instrument;

if the range reaching the preset atomization pressure value is detected, executing a next step command, and if the range does not reach the preset atomization pressure value, feeding back to continue inflating;

detecting the range reaching the preset atomization pressure value, further detecting the step number X of the stepping motor, and judging whether the step number X of the stepping motor reaches the threshold range; if the step number of the stepping motor is detected to be within a preset range, executing an import command; if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value;

if the detected actual measurement step number X is larger than the maximum threshold value, judging that the medicine amount is excessive, reducing the step number of the stepping motor, increasing the response time of the electromagnetic valve, and then executing an importing command; if the detected actual measurement step number X is smaller than the minimum threshold value, the medicine amount is judged to be less, the step number of the stepping motor is increased, meanwhile, the response time of the electromagnetic valve is unchanged, and then an importing command is executed.

2. The method of claim 1, wherein the cosmetic device is activated by detecting the drug to be administered and switching the corresponding pressure value according to the type of the drug to be administered.

3. The method of claim 1, wherein the high pressure tank of the cosmetic apparatus is inflated by an internal air compressor, and a pressure sensor installed in the high pressure tank detects whether the pressure of the high pressure tank reaches a range of a preset atomization pressure value of the cosmetic apparatus.

4. The method of claim 1, wherein the amount of the medicine is determined to be excessive, the number of steps of the stepping motor is decreased by 1 step, and the response time of the solenoid valve is increased by 5 ms.

5. The method of claim 1, wherein the amount of the medicine is judged to be small, the number of steps of the stepping motor is increased by 1 step, and the response time of the solenoid valve is not changed.

6. The method of claim 1, wherein the aeration is continued when the pressure value is detected to be less than the preset value, and the real-time detection is performed during the aeration until the pressure value is within the preset value.

7. An atomized particle control system of a cosmetic instrument, comprising:

the drug type judging module is used for detecting the drug type and presetting a corresponding atomization pressure value according to the drug type;

the inflation module is used for inflating and then detecting a pressure value to determine whether the pressure value reaches the range of a preset atomization pressure value of the beauty instrument;

the pressure detection module is used for detecting the range reaching the preset atomization pressure value, executing a next step command, and feeding back to continue inflating if the next step command does not reach the preset atomization pressure value;

the step number detection module of the stepping motor is used for detecting the range reaching the preset atomization pressure value, further detecting the step number X of the stepping motor and judging whether the step number X of the stepping motor reaches the threshold range; if the step number of the stepping motor is detected to be within a preset range, executing an import command; if the step number of the stepping motor is detected not to be within the preset range, further judging that the actually measured step number is compared with the threshold value; if the detected actual measurement step number X is larger than the maximum threshold value, judging that the medicine amount is excessive, reducing the step number of the stepping motor, increasing the response time of the electromagnetic valve, and then executing an importing command; if the detected actual measurement step number X is smaller than the minimum threshold value, the medicine amount is judged to be less, the step number of the stepping motor is increased, meanwhile, the response time of the electromagnetic valve is unchanged, and then an importing command is executed.

8. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, characterized in that the processor when executing the computer program realizes the steps of a method for controlling aerosolized particles of a cosmetic apparatus according to any one of claims 1 to 6.

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