CN215780933U - Cold-hot gasification coating handle for non-contact liquid introduction of beauty instrument - Google Patents

Abstract

The utility model provides a cold-hot gasification coating handle for non-contact liquid introduction of a beauty instrument, wherein a shell comprises a shell front end, a shell middle part and a shell tail end; the body frame includes the inside and outside link of front end, the inside and outside link in middle part, button subassembly, transparent liquid bottle and motor element, casing middle part and casing tail end pass through the inside and outside link in middle part is connected, the casing front end passes through with the casing middle part the inside and outside link in front end is connected, transparent liquid bottle sets up in the casing middle part, the button subassembly sets up inside and outside link below one side in middle part, and the button subassembly with motor element meets in order to ensure the control operation through the insulated wire, the button subassembly with motor element all sets up in the casing tail end. The utility model makes the front end of the thin tube positioned in the small hole, and under the action of air pressure, the liquid extrudes the pressurized spray outside the thin tube and is sprayed to the surface of an object or a human body, thereby greatly enhancing the absorption effect.

Description

Cold-hot gasification coating handle for non-contact liquid introduction of beauty instrument

Technical Field

The utility model relates to the field of liquid introduction, in particular to a method and equipment for enhancing liquid absorption, and particularly relates to a cold-hot gasification coating handle for introducing liquid in a non-contact manner for a beauty instrument.

Background

Traditional skin care or external treatment lotion generally needs to be evenly applied by hands or cotton balls. Not only is the need to introduce a portion of the absorbed liquid reduced, but also the hands of the operator are contaminated. In some cases, contact application is prone to unwanted damage to the surface.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems of the background art, the utility model provides a cold-hot vaporization coating handle for non-contact liquid introduction of a beauty instrument, which utilizes a front shell small hole to enable the front end of a thin tube to be positioned in the small hole and close to an edge without protruding the edge. When the device is operated, the proper distance between the device and an object or a human body to be coated and guided is kept, the motor pushes the plug in the bottle to extrude the coating and guiding liquid out of the thin tube, meanwhile, compressed gas is sprayed out from the small hole of the front shell, and the liquid extruded out of the thin tube forms spray with pressure under the action of air pressure and is sprayed to the surface of the object or the human body, so that the absorption effect can be greatly enhanced.

In order to achieve the purpose, the technical scheme provided by the utility model is as follows:

a cold and hot gasification coating handle for non-contact liquid introduction of a beauty instrument is characterized by comprising a shell and a main frame, wherein the shell comprises a shell front end 1, a shell middle end 2 and a shell tail end 3; the main frame comprises a front-end inner and outer connecting frame 4, a middle-portion inner and outer connecting frame 5, a button assembly 6, a transparent liquid bottle 7 and a motor assembly 8, wherein the shell middle end 2 and the shell tail end 3 are connected through the middle-portion inner and outer connecting frame 5, the shell front end 1 and the shell middle end 2 are connected through the front-end inner and outer connecting frame 4, the transparent liquid bottle 7 is arranged in the shell middle end 2, the button assembly 6 is arranged on one side below the middle-portion inner and outer connecting frame 5, the button assembly 6 and the motor assembly 8 are connected through an insulating wire to ensure control operation, and the button assembly 6 and the motor assembly 8 are all arranged in the shell tail end 3.

The middle inner and outer connecting frame 5 is provided with a push rod placing hole 502 which penetrates up and down in the center, an air faucet placing hole 5011 is arranged beside the push rod placing hole 502, a cylindrical hollow bottle placing column 504 is arranged on the push rod placing hole 502 and is designed to be integrated with the middle inner and outer connecting frame 5, the push rod 703 penetrates through the push rod placing hole 502 and the bottle placing column 504 to be contacted with a plug 701 at the bottom of the transparent liquid bottle 7, the air faucet placing hole 5011 is used for placing an air faucet 501, the air faucet 501 is connected with an air pipe 503, compressed air led out from an air valve of a host is connected onto the air faucet 501 through the air pipe 503, then the compressed air enters a cavity in the middle end 2 of the shell, the cavity in the middle end 2 of the shell is communicated with the cavity in the front end 1 of the shell through a through hole in the middle end 2 of the shell, and each connecting link is provided with a corresponding sealing ring, the air pressure output by the air valve is continuously kept to the cavity at the front end 1 of the shell, so that reliable injection pressure is ensured; a support rod 801 is arranged between the middle inner and outer connecting frame 5 and the motor assembly 8 and used for assisting in supporting the middle inner and outer connecting frame 5, so that loss can be reduced; the pressure of the compressed gas is adjustable and only needs to be connected to the air tap 501, and the compressed gas and the coating introduction liquid are mixed and vaporized at the small hole of the front shell.

The transparent liquid bottle 7 is placed on the bottle placing column 504, a small cap 702 capable of puncturing is arranged on the bottle for sealing and storing the lead-in liquid in the bottle, and a thin tube 401 can penetrate through the small cap to be pricked into the lead-in liquid; a movable plug 701 is arranged in the bottle, the lower part of the plug is in contact with a telescopic push rod 703, the push rod 703 penetrates through the middle inner and outer connecting frames 5 to be connected with the motor assembly 8, the advance and the retreat of the push rod can be controlled through a driving motor, and the plug 701 is further controlled to operate up and down, so that the liquid in the transparent liquid bottle 7 is controlled to be extruded out of the thin tube 401; the small cover 702 and the plug 701 are both made of medical rubber, and the coating and leading-in liquid is pushed by the motor component 8 to be led out through the thin tube 401, so that the use amount of the liquid is accurately and effectively controlled. The thin tube 401 with different specifications can be replaced to adapt to the application and introduction of liquid with different consistencies; different vaporization effects of the application liquid can be obtained by changing the housing front end 1 of different specifications.

The tubule 401 is inserted into a tubule socket 402 positioned in the middle of the upper part of the front end internal and external connecting frame 4, the position of the tubule corresponds to the front shell pore 102 on the front end 1 of the shell, the front end of the tubule is hidden in the front shell pore 102, the front end of the tubule is close to the edge but does not protrude out of the edge, and the rear end of the tubule is inserted into the transparent liquid bottle 7 to be contacted with the lead-in liquid; the front shell orifice 102 is designed according to the spraying effect, and the specification of the thin tube 401 can be configured according to the liquid consistency.

The shell front end 1, the front end internal and external connecting frame 4 and the shell middle end 2 can be detached separately to replace the thin tube 401 and the transparent liquid bottle 7, a circle of water drop-shaped anti-skidding water drop lines 101 are arranged at the position, close to the splitting position, of the shell front end 1, the corrugated anti-skidding corrugations 403 are arranged at the position, close to the splitting position, of the outer area of the front end internal and external connecting frame 4, and the two positions are both favorable for splitting the shell; two visual windows 201 are symmetrically arranged on the upper half part of the middle end 2 of the shell and used for observing the use state of the introduced liquid in the bottle.

A button shell 301 is attached to the shell tail end 3, and a layer of button protective film 302 is covered on the button shell; the lower half part of the tail end 3 of the shell is provided with a circle of rectangular pores which are arranged in a scattering mode and serve as heat dissipation holes 303, the heat dissipation function is achieved, and the service life of the handle is prolonged; the bottom of the tail end 3 of the shell is provided with a tail end connecting port 304 for leading out the air pipe 503 to be communicated with a host compressor, and the leading-in mode and the pressure can be adjusted through a human-computer interface of the host.

The button assembly 6 is provided with a row of button connecting holes 601 near the inner cavity for extending circuit lines to connect the motor to enable the buttons 602 to play a function, and the operation, stop and adjustment of the handle can be controlled at any time.

The middle inner and outer connecting frame 5 is provided with three connecting ports 505, the middle end 2 of the shell is internally provided with three connecting columns 202 which are respectively in one-to-one correspondence, and the middle inner and outer connecting frame 5 and the middle end 2 of the shell are mutually connected; a liquid bottle placing component 203 is arranged in the middle end 2 of the shell and is used for being equipped with the transparent liquid bottle 7.

The front shell apertures 102 may be shaped and sized to form different jet streams; the air pressure can be adjusted by an air valve; the coating introduction liquid with different consistencies can meet the absorption effect of the liquid on the receiving surface by matching with different propelling speeds of the motor; transparent liquid bottle 7 with tubule 401 is low-cost general part specification, if need change tubule 401, will lift shell front end 1, if only change transparent liquid bottle 7, can wholly lift shell middle-end 2, need not lift shell front end 1 with tubule 401 can reduce installation work volume like this.

A method for mounting a cold and hot vaporization coating handle for non-contact liquid introduction of a cosmetic instrument, characterized by comprising the steps of:

step 1, assembling an internal main frame:

step 1: the air tap 501 is arranged on the middle inner and outer connecting frames 5;

step 2: pushing the motor assembly 8 to be mounted on the middle inner and outer connecting frames 5, and then mounting the push rod 703 on the motor assembly 8;

and 3, step 3: mounting said button assembly 6 to said housing tail end 3, and mounting said housing tail end 3 to said intermediate inner and outer attachment brackets 5;

and 4, step 4: the housing middle end 2 with the viewing window 201 is mounted to the middle inner and outer attachment frame 5.

Step 2, assembling an internal front frame:

step 1: the thin tube 401 is mounted on the front end internal and external connection frame 4;

step 2: and packaging the front end 1 of the shell outside the front end inner and outer connecting frames 4.

Step 3, liquid bottle assembly:

step 1: the transparent liquid bottle 7 is arranged on the push rod 703 of the fixed part, and the installation state can be observed through the visual window 201;

step 2: and (3) mounting the assembled front end inner and outer connecting frames 4 on the shell middle end 2.

The external host comprises a power supply, a control circuit, a control interface, a compressor and an air valve, wherein the power supply converts commercial power into voltage required by each part of equipment; the control circuit receives the control interface input instruction and the instruction sent back by the button on the hand tool to control the compressor and the air valve, and the motor is pushed to work or stop by matching with the handle.

The operation hand tool keeps the small hole of the front shell at a proper distance from an object or a human body to be coated and guided, the motor pushes the plug in the transparent liquid bottle to extrude the coating and guiding liquid from the thin tube, and meanwhile, the compressed gas is sprayed out from the small hole of the front shell and is extruded out of the thin tube to form spray with pressure under the action of air pressure to be sprayed to the surface of the object or the human body, so that the absorption effect is greatly enhanced. The shape and the size of the front end small hole are different, so that different jet air flows can be formed; the air pressure can be adjusted by an air valve; the coating introduction liquid with different consistencies can meet the absorption effect of the liquid on the receiving surface by matching with different propelling speeds of the motor.

Drawings

FIG. 1 is a perspective view of a cold-hot vaporization coating handle for a beauty treatment apparatus for introducing a liquid in a non-contact manner according to the present invention;

FIG. 2 is a perspective view of an internal main frame of a cold-hot vaporization coating handle for non-contact introduction of liquid for a beauty treatment apparatus according to the present invention;

FIG. 3 is an exploded view of a non-contact liquid-introducing cold-hot vaporization coating handle for a cosmetic device according to the present invention;

FIG. 4 is a schematic view showing the positions of the thin tube insertion holes of the inner and outer connection frames at the front end of the cold-hot gasification coating handle for introducing liquid in a non-contact manner for a beauty instrument according to the present invention;

FIG. 5 is a schematic view of the position of the front housing orifice of a non-contact liquid-conducting cold-hot vaporization coating handle for a cosmetic device according to the present invention;

FIG. 6 is a first detailed view of the middle inner and outer connection frames of the cold-hot gasification coating handle for non-contact liquid introduction of the beauty instrument according to the present invention;

FIG. 7 is a second detailed view of the middle inner and outer connection frames of the cold-hot gasification coating handle for non-contact liquid introduction of the beauty instrument according to the present invention;

FIG. 8 is a schematic view of the internal structure of the middle end of the housing of the cold-hot vaporization coating handle for non-contact liquid introduction for a beauty instrument according to the present invention;

FIG. 9 is a schematic view showing the air tube connection position of a cold-hot vaporization coating handle for non-contact introduction of liquid for a beauty instrument according to the present invention;

in the figure: 1. a housing front end; 101. anti-skid water drop lines; 102. a front shell aperture; 2. a housing middle end; 201. a visible window; 202. connecting columns; 203. a liquid bottle placement component; 3. a shell tail end; 301. a button housing; 302. A button protective film; 303. heat dissipation holes; 304. a tail end connecting port; 4. the front end is internally and externally connected with a frame; 401. a thin tube; 402. a thin tube socket; 403. anti-skid corrugation; 5. the middle part is internally and externally connected with a frame; 501. an air tap; 5011. an air faucet placing hole; 502. a push rod placing hole; 503. an air tube; 504. placing a bottle column; 505. a connecting port; 6. a button assembly; 601. a button wiring hole; 602. a button; 7. a transparent liquid bottle; 701. a plug; 702. a small cover; 703. a push rod; 8. a motor assembly; 801. a support rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 9, a cold-hot gasification coating handle for non-contact liquid introduction of a beauty instrument is characterized by comprising a shell and a main frame, wherein the shell comprises a shell front end 1, a shell middle end 2 and a shell tail end 3; the main frame comprises a front-end inner and outer connecting frame 4, a middle-portion inner and outer connecting frame 5, a button assembly 6, a transparent liquid bottle 7 and a motor assembly 8, wherein the shell middle end 2 and the shell tail end 3 are connected through the middle-portion inner and outer connecting frame 5, the shell front end 1 and the shell middle end 2 are connected through the front-end inner and outer connecting frame 4, the transparent liquid bottle 7 is arranged in the shell middle end 2, the button assembly 6 is arranged on one side below the middle-portion inner and outer connecting frame 5, the button assembly 6 and the motor assembly 8 are connected through an insulating wire to ensure control operation, and the button assembly 6 and the motor assembly 8 are all arranged in the shell tail end 3.

The middle inner and outer connecting frame 5 is provided with a push rod placing hole 502 which penetrates up and down in the center, an air faucet placing hole 5011 is arranged beside the push rod placing hole 502, a cylindrical hollow bottle placing column 504 is arranged on the push rod placing hole 502 and is designed to be integrated with the middle inner and outer connecting frame 5, the push rod 703 penetrates through the push rod placing hole 502 and the bottle placing column 504 to be contacted with a plug 701 at the bottom of the transparent liquid bottle 7, the air faucet placing hole 5011 is used for placing an air faucet 501, the air faucet 501 is connected with an air pipe 503, compressed air led out from an air valve of a host is connected onto the air faucet 501 through the air pipe 503, then the compressed air enters a cavity in the middle end 2 of the shell, the cavity in the middle end 2 of the shell is communicated with the cavity in the front end 1 of the shell through a through hole in the middle end 2 of the shell, and each connecting link is provided with a corresponding sealing ring, the air pressure output by the air valve is continuously kept to the cavity at the front end 1 of the shell, so that reliable injection pressure is ensured; a support rod 801 is arranged between the middle inner and outer connecting frame 5 and the motor assembly 8 and used for assisting in supporting the middle inner and outer connecting frame 5, so that loss can be reduced; the pressure of the compressed gas is adjustable and only needs to be connected to the air tap 501, and the compressed gas and the coating introduction liquid are mixed and vaporized at the small hole of the front shell.

The transparent liquid bottle 7 is placed on the bottle placing column 504, a small cap 702 capable of puncturing is arranged on the bottle for sealing and storing the lead-in liquid in the bottle, and a thin tube 401 can penetrate through the small cap to be pricked into the lead-in liquid; a movable plug 701 is arranged in the bottle, the lower part of the plug is in contact with a telescopic push rod 703, the push rod 703 penetrates through the middle inner and outer connecting frames 5 to be connected with the motor assembly 8, the advance and the retreat of the push rod can be controlled through a driving motor, and the plug 701 is further controlled to operate up and down, so that the liquid in the transparent liquid bottle 7 is controlled to be extruded out of the thin tube 401; the small cover 702 and the plug 701 are both made of medical rubber, and the coating and leading-in liquid is pushed by the motor component 8 to be led out through the thin tube 401, so that the use amount of the liquid is accurately and effectively controlled. The thin tube 401 with different specifications can be replaced to adapt to the application and introduction of liquid with different consistencies; different vaporization effects of the application liquid can be obtained by changing the housing front end 1 of different specifications.

The tubule 401 is inserted into a tubule socket 402 positioned in the middle of the upper part of the front end internal and external connecting frame 4, the position of the tubule corresponds to the front shell pore 102 on the front end 1 of the shell, the front end of the tubule is hidden in the front shell pore 102, the front end of the tubule is close to the edge but does not protrude out of the edge, and the rear end of the tubule is inserted into the transparent liquid bottle 7 to be contacted with the lead-in liquid; the front shell orifice 102 is designed according to the spraying effect, and the specification of the thin tube 401 can be configured according to the liquid consistency.

The shell front end 1, the front end internal and external connecting frame 4 and the shell middle end 2 can be detached separately to replace the thin tube 401 and the transparent liquid bottle 7, a circle of water drop-shaped anti-skidding water drop lines 101 are arranged at the position, close to the splitting position, of the shell front end 1, the corrugated anti-skidding corrugations 403 are arranged at the position, close to the splitting position, of the outer area of the front end internal and external connecting frame 4, and the two positions are both favorable for splitting the shell; two visual windows 201 are symmetrically arranged on the upper half part of the middle end 2 of the shell and used for observing the use state of the introduced liquid in the bottle.

A button shell 301 is attached to the shell tail end 3, and a layer of button protective film 302 is covered on the button shell; the lower half part of the tail end 3 of the shell is provided with a circle of rectangular pores which are arranged in a scattering mode and serve as heat dissipation holes 303, the heat dissipation function is achieved, and the service life of the handle is prolonged; the bottom of the tail end 3 of the shell is provided with a tail end connecting port 304 for leading out the air pipe 503 to be communicated with a host compressor, and the leading-in mode and the pressure can be adjusted through a human-computer interface of the host.

The button assembly 6 is provided with a row of button connecting holes 601 near the inner cavity for extending circuit lines to connect the motor to enable the buttons 602 to play a function, and the operation, stop and adjustment of the handle can be controlled at any time.

The middle inner and outer connecting frame 5 is provided with three connecting ports 505, the middle end 2 of the shell is internally provided with three connecting columns 202 which are respectively in one-to-one correspondence, and the middle inner and outer connecting frame 5 and the middle end 2 of the shell are mutually connected; a liquid bottle placing component 203 is arranged in the middle end 2 of the shell and is used for being equipped with the transparent liquid bottle 7.

The front shell apertures 102 may be shaped and sized to form different jet streams; the air pressure can be adjusted by an air valve; the coating introduction liquid with different consistencies can meet the absorption effect of the liquid on the receiving surface by matching with different propelling speeds of the motor; transparent liquid bottle 7 with tubule 401 is low-cost general part specification, if need change tubule 401, will lift shell front end 1, if only change transparent liquid bottle 7, can wholly lift shell middle-end 2, need not lift shell front end 1 with tubule 401 can reduce installation work volume like this.

A method for mounting a cold and hot vaporization coating handle for non-contact liquid introduction of a cosmetic instrument, characterized by comprising the steps of:

step 1, assembling an internal main frame:

step 1: the air tap 501 is arranged on the middle inner and outer connecting frames 5;

step 2: pushing the motor assembly 8 to be mounted on the middle inner and outer connecting frames 5, and then mounting the push rod 703 on the motor assembly 8;

and 3, step 3: mounting said button assembly 6 to said housing tail end 3, and mounting said housing tail end 3 to said intermediate inner and outer attachment brackets 5;

and 4, step 4: the housing middle end 2 with the viewing window 201 is mounted to the middle inner and outer attachment frame 5.

Step 2, assembling an internal front frame:

step 1: the thin tube 401 is mounted on the front end internal and external connection frame 4;

step 2: and packaging the front end 1 of the shell outside the front end inner and outer connecting frames 4.

Step 3, liquid bottle assembly:

step 1: the transparent liquid bottle 7 is arranged on the push rod 703 of the fixed part, and the installation state can be observed through the visual window 201;

step 2: and (3) mounting the assembled front end inner and outer connecting frames 4 on the shell middle end 2.

The external host comprises a power supply, a control circuit, a control interface, a compressor and an air valve, wherein the power supply converts commercial power into voltage required by each part of equipment; the control circuit receives the control interface input instruction and the instruction sent back by the button on the hand tool to control the compressor and the air valve, and the motor is pushed to work or stop by matching with the handle.

When the liquid guide device is used, liquid to be guided is filled in the transparent liquid bottle, the transparent liquid bottle is filled in the middle end of the shell, and the using state of the liquid to be guided in the transparent liquid bottle can be observed through the visual window.

When the leading-in opening faces downwards, the key at the tail end of the shell is positioned in the thumb controllable area, so that the control operation is convenient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A cold and hot gasification coating handle for non-contact leading-in liquid of a beauty instrument is characterized by comprising a shell and a main frame, wherein the shell comprises a shell front end (1), a shell middle end (2) and a shell tail end (3); the main frame comprises a front-end inner and outer connecting frame (4), a middle-portion inner and outer connecting frame (5), a button assembly (6), a transparent liquid bottle (7) and a motor assembly (8), wherein the shell middle end (2) and the shell tail end (3) are connected through the middle-portion inner and outer connecting frame (5), the shell front end (1) is connected with the shell middle end (2) through the front-end inner and outer connecting frame (4), the transparent liquid bottle (7) is arranged in the shell middle end (2), the button assembly (6) is arranged on one side below the middle-portion inner and outer connecting frame (5), the button assembly (6) is connected with the motor assembly (8) through an insulating wire to ensure control operation, and the button assembly (6) and the motor assembly (8) are arranged in the shell tail end (3).

2. The cold-hot gasification coating handle for non-contact liquid introduction for a beauty instrument according to claim 1, characterized in that a push rod placing hole (502) penetrating through the upper and lower parts is provided at the center of the middle inner and outer connecting frame (5), an air faucet placing hole (5011) is provided beside the push rod placing hole (502), a cylindrical hollow bottle placing column (504) is provided on the push rod placing hole (502), the push rod placing hole and the middle inner and outer connecting frame (5) are designed as an integral body, the push rod (703) penetrates through the push rod placing hole (502) and the bottle placing column (504) to contact with a plug (701) at the bottom of the transparent liquid bottle (7), the air faucet placing hole (5011) is used for placing an air faucet (501), the air faucet (501) is connected with an air pipe (503), so that compressed air led out from an air valve of a main machine is connected to the air faucet (501) through the air pipe (503), compressed gas enters a cavity in the middle end (2) of the shell, the cavity in the middle end (2) of the shell is communicated with a cavity in the front end (1) of the shell through a through hole in the middle end (2) of the shell, each connecting link is provided with a corresponding sealing ring, and the gas pressure output by the gas valve is continuously kept to the cavity in the front end (1) of the shell, so that reliable injection pressure is ensured; a support rod (801) is arranged between the middle inner and outer connecting frame (5) and the motor assembly (8) and used for assisting in supporting the middle inner and outer connecting frame (5), so that loss can be reduced; the pressure of the compressed gas can be adjusted, and only the compressed gas and the coating introduction liquid need to be connected to the gas nozzle (501), and the compressed gas and the coating introduction liquid are mixed and vaporized at the small hole of the front shell.

3. The cold-hot vaporization coating handle for non-contact liquid introduction of a cosmetic instrument according to claim 2, wherein the transparent liquid bottle (7) is placed on the bottle placing column (504), and a small pierceable cap (702) is provided on the bottle for sealing the introduction liquid in the bottle and allowing the narrow tube (401) to be inserted into the introduction liquid through the small pierceable cap; a movable plug (701) is arranged in the bottle, the lower part of the plug is in contact with the telescopic push rod (703), the push rod (703) penetrates through the middle inner and outer connecting frames (5) to be connected with the motor component (8), the advance and the retreat of the push rod can be controlled through a driving motor, and then the plug (701) is controlled to operate up and down, so that the liquid in the transparent liquid bottle (7) is controlled to be extruded out of the thin tube (401); the small cover (702) and the plug (701) are both made of medical rubber, and the coating and introducing liquid is pushed by the motor component (8) to be led out through the thin tube (401), so that the use amount of the liquid is accurately and effectively controlled; the thin tube (401) with different specifications can be replaced to adapt to the application and introduction of liquid with different consistencies; different vaporization effects of the application liquid can be obtained by replacing the front end (1) of the housing with different specifications.

4. The cold-hot vaporization coating handle for non-contact liquid introduction for the beauty instrument according to claim 3, characterized in that the tubule (401) is inserted into a tubule insertion opening (402) positioned at the upper middle of the front end internal and external connection frame (4), the position of the tubule is corresponding to the front shell small hole (102) on the front end (1) of the shell, the front end of the tubule is hidden in the front shell small hole (102), the front end of the tubule is close to the edge but not protruding the edge, and the rear end of the tubule is inserted into the transparent liquid bottle (7) to be contacted with the introduced liquid; the front shell pore (102) is designed according to the spraying effect, and the specification of the thin tube (401) can be configured according to the consistency of liquid.

5. The cold-hot vaporization coating handle for non-contact liquid introduction for a cosmetic instrument according to claim 4, wherein the front shell apertures (102) have different shapes and sizes to form different jet streams; the air pressure can be adjusted by an air valve; the coating introduction liquid with different consistencies can meet the absorption effect of the liquid on the receiving surface by matching with different propelling speeds of the motor; transparent liquid bottle (7) with tubule (401) are low-cost general part specification, if need change tubule (401), will lift shell front end (1), if only change transparent liquid bottle (7), can wholly lift shell middle-end (2) off, need not lift shell front end (1) with tubule (401), can reduce installation work volume like this.

6. The cold-hot gasification coating handle for non-contact liquid introduction for the beauty instrument according to claim 1, characterized in that the front end (1) of the shell, the front inner-outer connecting frame (4) and the middle end (2) of the shell are respectively and independently detachable to replace the thin tube (401) and the transparent liquid bottle (7), the front end (1) of the shell is provided with a circle of water drop-shaped anti-skid water drop lines (101) near the detaching part, the outer area of the front inner-outer connecting frame (4) is provided with corrugated anti-skid corrugations (403) near the detaching part, and the two positions are provided with anti-skid corrugations (403) which both contribute to the detaching of the shell; two visual windows (201) are symmetrically arranged on the upper half part of the middle end (2) of the shell and used for observing the use state of the introduced liquid in the bottle.

7. The cold-hot vaporization coating handle for non-contact liquid introduction for a cosmetic instrument according to claim 2, wherein a button case (301) is attached to the case rear end (3) and covered with a button protective film (302); the lower half part of the tail end (3) of the shell is provided with a circle of rectangular pores which are arranged in a scattering mode and are used as heat dissipation holes (303), so that the heat dissipation function is achieved, and the service life of the handle is prolonged; the bottom of the tail end (3) of the shell is provided with a tail end connecting port (304) for leading out the air pipe (503) to be communicated with a compressor of a host, and the leading-in mode and the pressure can be adjusted through a human-computer interface of the host.

8. The cold-hot vaporization coating handle for non-contact liquid introduction of a beauty instrument according to claim 1, characterized in that the button assembly (6) is provided with a row of button connecting holes (601) near the inner cavity for extending circuit lines to connect the motor to make the button (602) function, and the handle can be controlled to operate, stop and adjust at any time.

9. The cold-hot vaporization coating handle for non-contact liquid introduction for a beauty instrument according to claim 1, wherein three connection ports (505) are provided on the middle inner and outer connection frames (5), and three connection columns (202) are provided in the middle end (2) of the case in one-to-one correspondence to connect the middle inner and outer connection frames (5) and the middle end (2) of the case with each other; a liquid bottle placing component (203) is further arranged in the middle end (2) of the shell and is used for being equipped with the transparent liquid bottle (7).

Images