CN113721490A

CN113721490A - Anti-aging compact equipment system and method

Info

Publication number: CN113721490A
Application number: CN202111038169.2A
Authority: CN
Inventors: 濮素
Original assignee: Shanghai Weimeideke Technology Co ltd
Current assignee: Shanghai Weimeideke Technology Co ltd
Priority date: 2021-09-06
Filing date: 2021-09-06
Publication date: 2021-11-30
Anticipated expiration: 2041-09-06
Also published as: CN113721490B

Abstract

The invention discloses an anti-aging compact equipment system and an anti-aging compact equipment method, wherein the anti-aging compact equipment system comprises a power supply system, a touch display screen, a main control module, a refrigerant system, a treatment handle and a radio frequency function module; the power supply system supplies power to the main control module; the touch display screen is connected with the input end of the main control module for sending control interface information and the output end of the main control module for receiving touch interface information; the refrigerant system feeds back whether the refrigerant of the main control module is ready and releases the refrigerant to the treatment handle according to the instruction of the main control module; the radio frequency system is used for outputting a radio frequency working signal to the treatment handle; the treatment handle feeds back whether the main control module is ready or not, and then the refrigerant system and the radio frequency function module act to work. The invention improves the anti-aging rate of the user and ensures that the anti-aging effect is better.

Description

Anti-aging compact equipment system and method

Technical Field

The invention relates to the technical field of anti-aging and anti-compacting, in particular to a system and a method of anti-aging and anti-compacting equipment.

Background

With the improvement of the living standard of modern people, people have higher and higher pursuit of beauty, and the problems of skin wrinkles, looseness, roughness and the like become the largest stumbling stones on the beauty pursuit road.

At present, various anti-aging skin-tendering products, work and rest time improvement, multi-exercise, surgery and the like are used as anti-aging methods in the market. However, a series of problems such as more or less itchy skin, redness and peeling caused by using various products are solved, and some people can comfort themselves, which is a common phenomenon, and the phenomenon is not true if the skin is used for a plurality of times. Improving work and rest and multiple movements only can slow down the aging speed of the skin and can not realize the retrograde growth of the skin. The operation is quick, but has certain risks, and the postoperative patients need long-term maintenance.

Disclosure of Invention

In order to overcome the defects of the problems, the invention provides an anti-aging compact device system and an anti-aging compact device method. So as to solve the problem of unhealthy and rapid anti-aging skin tendering.

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

an anti-aging compact equipment system is characterized by comprising a power supply system 130, a touch display screen 110, a main control module 120, a refrigerant system 140, a treatment handle 150 and a radio frequency function module 160; the power supply system 130 is used for supplying power, the touch display screen 110 is connected to the main control module 120, the touch display screen 110 is used for returning a first control instruction generated by a user based on a touch control interface to the main control module 120, the refrigerant system 140 feeds back whether a refrigerant of the main control module 120 is ready and follows the instruction of the main control module 120 to release the treatment handle 150, the treatment handle 150 feeds back whether the main control module 120 is ready, then the refrigerant system 140 and the radio frequency function module 160 act simultaneously to work, and the radio frequency function module 160 is used for outputting a radio frequency working signal to the treatment handle 150.

The touch display screen 110 is configured to connect an input end of the control interface information sent by the main control module 120 and an output end of the main control module 120, which is configured to receive the touch interface information, and then return a first control instruction generated by a user based on the touch control interface to the main control module 120.

The main control module 120 can detect the operating state of the power system 130, receive or send touch and power-on information, send an instruction to identify whether there is a refrigerant to the refrigerant control system 140, and receive output information of the refrigerant system 140.

The power system 130 is used to supply power to the main control module 120 and the rf functional module 160.

The coolant system 140 can feed back whether the coolant is prepared by the main control module 120 and release the treatment handle 150 according to the command of the main control module 120; the coolant system 140 follows the instruction of the main control module 120 to release the coolant to the treatment handle 150 as required, and enters a preparation state after receiving correct information sent by the main control module 120, and after the touch control interface sends a start instruction, the coolant system 140 releases the coolant to the treatment handle 150 according to the touch control interface.

The treatment handle 150 comprises a handle 151 and a treatment head 152; the treatment handle 150 first sends a ready signal to the main control module 120, and if not ready, sends an error signal to the touch display screen 110, and if ready, outputs a radio frequency signal and a coolant according to an instruction sent by the main control module 130 to the radio frequency function module 160 and the coolant system 140.

The rf functional module 160 includes a master regulator, a duty cycle regulator, a mode electrical switch, and an rf amplifier; the input end of the main regulator is used for receiving the radio frequency control command output by the main control module 120, the radio frequency module circuit is capable of generating and regulating a radio frequency signal under the action of the radio frequency control command, and the radio frequency function module 160 is used for outputting a radio frequency working signal to the treatment handle 150; the treatment handle 150 feeds back whether the main control module 120 is ready, and if not ready, sends an error signal to the touch display screen 110; otherwise, the refrigerant system 140 and the rf functional module 160 are required to work simultaneously; after the coolant control system 140 releases the coolant, the rf functional module 160 outputs a radio frequency signal to the treatment handle 150 according to the command of the main control module 130.

The main control module 120 identifies a signal sent back by the refrigerant system; if the refrigerant is not ready, the main control module 120 sends an error signal to the touch display screen 110; if the cooling medium is ready, the main control module 120 sends a success signal to the touch display screen 110.

An operation method of anti-aging compact equipment is characterized by comprising the following working modes:

s1: when the power supply of the device is turned on, and the main control module 120 detects that the power supply system 130 works normally, the main control module 120 sends information of a touch startup interface to the touch display screen 110, and meanwhile, the main control module 120 starts sending a refrigerant starting identification instruction to the refrigerant control module 140;

s2: the main control module 120 starts to receive and verify the information output by the refrigerant control module 140; when the main control module 120 verifies whether the received information from the refrigerant system 140 is correct or incorrect, the main control module 120 sends the touch control interface information to the touch display screen 110;

s3: when the main control module 120 verifies that the received information output by the refrigerant control module 140 is correct, the main control module 120 sends the touch control interface information to the touch display screen 110, and at this time, the device can be normally used; the touch display screen 110 returns a first control instruction generated by a display interface based on touch control information of a user to the main control module 120;

s4: when the user triggers an operation corresponding to the radio frequency function module 140 on the touch display screen 110, the main control module 120 generates a radio frequency control instruction according to a signal received by the user triggering the touch display screen 110; when the radio frequency control circuit receives the radio frequency command sent by the main control module 120, the radio frequency control circuit generates a radio frequency signal, and meanwhile, in order to adapt to different requirements of different people, the radio frequency signal can adjust the amplitude and duty ratio of the radio frequency signal according to the radio frequency control command sent by the control module; and finally the radio frequency signal is transmitted to the output end of the radio frequency control circuit.

The invention has the beneficial effects that:

the invention provides an anti-aging compact equipment system and an anti-aging compact equipment method, which effectively overcome the defects of various anti-aging skin-tendering products, multi-movement, operation and other methods used for anti-aging at present, and have the advantages of simple and reliable equipment system and good economic effect.

Drawings

Fig. 1 is a schematic structural diagram of an anti-aging compact device system and method according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an anti-aging compact device treatment handle provided by an embodiment of the invention;

fig. 3 is a schematic structural diagram of a radio frequency module control circuit of an anti-aging compact device according to an embodiment of the present invention;

in the figure, 110 is a touch display screen; 120 is a main control module; 130 is a power supply system; 140 is a refrigerant system; 150 is a treatment handle; 151 is a handle; 152 is a treatment head; 160 is a radio frequency functional module;

Detailed Description

Other features, objects and advantages of the present invention will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, with reference to the accompanying drawings.

The present invention is described in detail below with reference to the drawings and examples, but the present invention is not limited thereto.

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram illustrating an anti-aging compact device system and a method according to an embodiment of the present disclosure, where the anti-aging compact device system includes a power supply system 130, a touch display screen 110, a main control module 120, a cooling medium system 140, a treatment handle 150, and a radio frequency function module 160.

The power system 130 supplies power to the main control module 120.

The touch display screen 110 is connected to an output end of the main control module 120 for sending the control interface information and an input end of the main control module 120 for receiving the touch interface information, and the touch display screen 110 is configured to return a first control instruction generated by the user based on the touch control interface to the main control module 120.

The coolant system 140 feeds back whether the coolant is ready to the main control module 120, and releases the treatment handle 150 according to the instruction of the main control module 120.

The rf functional module 160 is used for outputting rf working signals to the treatment handle 150.

Example 2

Referring to fig. 2, treatment handle 150 includes handle 151 and treatment head 152.

The treatment handle 150 detects whether the treatment head is ready and sends a signal to the main control module 120, if not, an error signal is sent to the touch display screen 110, and if so, the treatment handle outputs a radio frequency signal and a refrigerant to be combined according to an instruction sent by the main control module 120 to the radio frequency function module 160 and the refrigerant system 140.

Referring to fig. 3, the rf functional module 160 includes a main regulator, a duty cycle regulator, a mode electrical switch, and an rf amplifier. The input end of the main regulator is used for receiving the rf control command output by the main control module 120, and the rf module circuit is capable of generating and regulating the rf signal under the action of the rf control command.

The working process of the embodiment can be understood as follows:

when the equipment power supply is turned on and the main control module 120 detects that the equipment power supply module works normally, the main control module 120 sends the touch start-up interface information to the touch display screen 110, and meanwhile, the main control module 120 starts sending a refrigerant starting identification instruction to the refrigerant control module 140; the main control module 120 starts to receive and verify the information output by the refrigerant identification module. When the main control module 120 verifies that the received information output by the refrigerant control module 140 is correct, the main control module 120 sends the touch control interface information to the touch display screen 110, and the device can be normally used at this time.

The touch display screen 110 returns a first control instruction generated by the user based on the display interface of the touch control information to the main control module 120.

When the user triggers an operation corresponding to the rf function module 140 on the touch screen 110, the main control module 120 generates an rf control command according to a signal received by the user triggering the touch screen 110. When the rf control circuit receives the rf command sent by the main control module 120, the rf control circuit generates an rf signal, and the rf signal can adjust the amplitude and duty ratio of the rf signal according to the rf control command sent by the control module in order to meet different requirements of different people. And finally the radio frequency signal is transmitted to the output end of the radio frequency control circuit.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An anti-aging and compact equipment system is characterized by comprising a power supply system (130), a touch display screen (110), a main control module (120), a refrigerant system (140), a treatment handle (150) and a radio frequency function module (160); the power supply system (130) is used for supplying power, the touch display screen (110) is connected with the main control module (120), the touch display screen (110) is used for returning a first control instruction generated by a user based on a touch control interface to the main control module (120), the refrigerant system (140) feeds back whether a refrigerant of the main control module (120) is ready or not and follows the instruction of the main control module (120) to release the treatment handle (150), the treatment handle (150) feeds back whether the refrigerant is ready or not to the main control module (120), then the refrigerant system (140) and the radio frequency function module (160) act simultaneously to work, and the radio frequency function module (160) is used for outputting a radio frequency working signal to the treatment handle (150).

2. The anti-aging compact device system as claimed in claim 1, wherein the touch display screen (110) is used to connect the input end of the control interface information sent by the main control module (120) and the output end of the main control module (120) used to receive the touch interface information, and then return the first control instruction generated by the user based on the touch control interface to the main control module (120).

3. The anti-aging compact equipment system as claimed in claim 1, wherein the main control module (120) can detect the operating status of the power system (130), receive or send touch and power-on information, send a command to identify whether there is a refrigerant to the refrigerant control system (140), and receive the output information of the refrigerant system (140).

4. The anti-aging compact device system as set forth in claim 1, characterized in that the power supply system (130) is used to supply power to the main control module (120) and the radio frequency function module (160).

5. The anti-aging compact equipment system as claimed in claim 1, wherein the cooling medium system (140) can feed back whether the cooling medium of the main control module (120) is ready and release the treatment handle (150) according to the instruction of the main control module (120); the refrigerant system (140) follows instructions of the main control module (120) to release the refrigerant to the treatment handle (150) according to requirements, when the refrigerant system receives correct information sent by the main control module (120) and enters a preparation state, and after the touch control interface sends a starting instruction, the refrigerant system (140) releases the refrigerant to the treatment handle (150) according to the touch control interface.

6. Anti-aging compact device system according to claim 1, characterized in that the treatment handle (150) comprises a handle (151) and a treatment head (152); the treatment handle (150) firstly sends a ready signal to the main control module (120), sends an error signal to the touch display screen (110) if the treatment handle is not ready, and outputs a radio frequency signal and a refrigerant to be combined according to an instruction sent by the main control module (130) to the radio frequency function module (160) and the refrigerant system (140).

7. The anti-aging compact device system of claim 1, characterized in that said radio frequency functional module (160) comprises a master regulator, a duty cycle regulator, a mode electrical switch and a radio frequency amplifier; the input end of the main regulator is used for receiving a radio frequency control command output by the main control module (120), the radio frequency module circuit can generate and regulate a radio frequency signal under the action of the radio frequency control command, and the radio frequency function module (160) is used for outputting a radio frequency working signal to the treatment handle (150); the treatment handle (150) feeds back whether the main control module (120) is ready, and if not, an error signal is sent to the touch display screen (110); otherwise, the refrigerant system (140) and the radio frequency functional module (160) are required to work simultaneously; after the refrigerant control system (140) releases the refrigerant, the radio frequency functional module (160) outputs the refrigerant to the treatment handle (150) according to the instruction of the main control module (130).

8. The anti-aging compact device system as claimed in claim 1, wherein the main control module (120) recognizes the signal sent back by the refrigerant system; if the refrigerant is not prepared, the main control module (120) sends an error signal to the touch display screen (110); if the refrigerant is ready, the main control module (120) sends a success signal to the touch display screen (110).

9. An operation method of anti-aging compact equipment is characterized by comprising the following working modes:

s1: when the power supply of the equipment is turned on, and the main control module (120) detects that the power supply system (130) works normally, the main control module (120) sends touch startup interface information to the touch display screen (110), and meanwhile, the main control module (120) starts to send a refrigerant starting and identifying instruction to the refrigerant control module (140);

s2: the main control module (120) starts to receive and verify the information output by the refrigerant control module (140); when the main control module (120) verifies whether the received information output by the refrigerant system (140) is correct or wrong, the main control module (120) sends the touch control interface information to the touch display screen (110);

s3: when the main control module (120) verifies that the received output information of the refrigerant control module (140) is correct, the main control module (120) sends touch control interface information to the touch display screen (110), and at the moment, the equipment can be normally used; the touch display screen (110) returns a first control instruction generated by a display interface based on touch control information of a user to the main control module (120);

s4: when a user triggers an operation corresponding to the radio frequency function module (140) on the touch display screen (110), the main control module (120) generates a radio frequency control instruction according to a signal received by the touch display screen (110) triggered by the user; when the radio frequency control circuit receives a radio frequency command sent by the main control module (120), the radio frequency control circuit generates a radio frequency signal, and meanwhile, in order to adapt to different requirements of different people, the radio frequency signal can adjust the amplitude and the duty ratio of the radio frequency signal according to the radio frequency control command sent by the control module; and finally the radio frequency signal is transmitted to the output end of the radio frequency control circuit.