CN117138234A

CN117138234A - TeNS micro-current mask with automatic charge and discharge protection function

Info

Publication number: CN117138234A
Application number: CN202311172583.1A
Authority: CN
Inventors: 孙敬波
Original assignee: Amsu Shenzhen New Technology Co ltd
Current assignee: Amsu Shenzhen New Technology Co ltd
Priority date: 2023-09-11
Filing date: 2023-09-11
Publication date: 2023-12-01
Anticipated expiration: 2043-09-11
Also published as: CN117138234B

Abstract

The invention relates to the technical field of masks, in particular to a TENS micro-current mask with automatic protection of charge and discharge, which comprises a conductive box, a micro-current mask and an elastic band, wherein the micro-current mask is arranged below the conductive box, the elastic band is arranged on two sides of the conductive box, a collecting component for fixing and collecting the micro-current mask and detecting the micro-current mask current is arranged in the conductive box, a fluid supplementing component for supplementing current for the micro-current mask is arranged in the conductive box, a power component for providing power for the fluid supplementing component is arranged in the conductive box, and the micro-current mask is fixed between a first clamping block and a second clamping block through the matched use of the collecting component when a user uses the micro-current mask, and when a current detection tube detects that the micro-current mask current is too high, a winding drum rotates to collect the micro-current mask, so that the micro-current mask is prevented from continuously contacting the face of the user, and skin is prevented from being damaged by the excessive micro-current mask.

Description

TeNS micro-current mask with automatic charge and discharge protection function

Technical Field

The invention relates to the technical field of masks, in particular to a TENS micro-current mask with automatic charge and discharge protection.

Background

The microcurrent mask is a beauty instrument, and the microcurrent mask is used for stimulating skin through low-intensity microcurrent so as to achieve the effects of improving skin firmness and improving skin quality, and is often used together with an emulsion or essence for helping nutrient components to better permeate the skin.

However, most of the microcurrent masks on the market need to be manually added with liquid and neutralized, so that microcurrent is generated in the mask, when the solution is manually added, the cosmetic effect is reduced due to stains on the hands of a user, substances such as scrap iron or other calcium carbonate can cause current to become large, in daily life, pearls, gray cement, fragile eggshells, marble and the like can contain calcium carbonate substances, if substances such as calcium carbonate stained on the hands are contacted with the microcurrent mask, the current of the microcurrent mask can be increased, the risk of damage to the face of the user can be generated, if the microcurrent mask current is not controlled in a proper current, skin can be stimulated when the microcurrent mask current is too high, discomfort is caused to the face of the user, the skin is damaged, and when the mask is attached to the face of the user, the mask can be accurately attached to the face of the user only through the mirror, so that inconvenience is brought to the user when the microcurrent mask is used.

In order to solve the above problems, the inventor provides a TENS microcurrent mask with automatic charge and discharge protection, which has the advantages of automatic solution addition, automatic mask collection, auxiliary positioning and automatic mask current collection when the mask current is too high.

Disclosure of Invention

In order to achieve the purposes of automatically adding solution, automatically collecting a mask, assisting in positioning and automatically collecting the mask when the current of the mask is too high, the invention provides the following technical scheme: a TENS microcurrent mask with automatic charge and discharge protection, comprising: the micro-current mask comprises a conductive box, a micro-current mask body and an elastic band, wherein the micro-current mask body is arranged below the conductive box, the elastic band is arranged on two sides of the conductive box, a collecting assembly used for fixing and collecting the micro-current mask body and detecting micro-current mask body current is arranged inside the conductive box, a fluid infusion assembly used for supplementing current for the micro-current mask body is arranged inside the conductive box, and a power assembly used for providing power for the fluid infusion assembly is arranged inside the conductive box.

Further, collection subassembly is including the motor, be provided with the reel that can be driven on the motor, the inside fixedly connected with first grip block of reel, the inside fixedly connected with electric current detection tube of first grip block, first recess has been seted up to the inside of first grip block, the inside fixedly connected with heart-shaped piece that two symmetries set up of first grip block, sliding connection has the slide bar between first recess and the heart-shaped piece, slide bar outer wall fixedly connected with dead lever, dead lever middle part fixedly connected with second grip block, the dead lever outside cover is equipped with first spring, first spring one end fixedly connected with is at the outer wall of reel, the other end fixedly connected with of first spring keeps away from the one end of slide bar at the dead lever, the second recess has been seted up to the inside of electrically conductive box, the outer wall fixedly connected with fixed disk of electrically conductive box, sliding connection has the double-deck slide plate outside cover to be equipped with the second spring between the second recess, second spring one end fixedly connected with is close to one side of electrically conductive box at the fixed disk, the other end fixedly connected with cylinder lid is kept away from in the inside fixedly connected with cylinder lid of electrically conductive box.

Further, the power component comprises a third groove, the inside in electrically conductive box is seted up to the third groove, the inside sliding connection of third groove has two disc posts that the symmetry set up, disc post keeps away from third groove one end fixedly connected with arc piece, third spring has been cup jointed in the outside of arc piece, third spring one end fixedly connected with is at the inner wall of third groove, third spring other end fixedly connected with keeps away from arc piece one end at disc post, disc post keeps away from arc piece one end fixedly connected with spherical pole.

Further, the liquid supplementing assembly comprises two limit rods which are symmetrically arranged, the two limit rods are all rotated in the third groove, a groove drum is fixedly connected to the outer wall of the limit rod, one end of the limit rod, which is far away from the third groove, is fixedly connected with a double-layer groove disc, the double-layer groove disc is far away from the first oval disc and the second oval disc which are fixedly connected with one side of the limit rod, two symmetrically arranged positioning blocks are fixedly connected with an inner cavity of the conductive box, one side of the positioning block, which is far away from the conductive box, is fixedly connected with a T-shaped groove plate, a T-shaped block is fixedly connected with a T-shaped block, the outer wall of the T-shaped block is fixedly connected with a limit strip, the limit strip is close to a spherical slider, the outer wall of the T-shaped block is rotationally connected with an extrusion clamp, the extrusion clamp is far away from two limit posts, two fourth springs are fixedly connected with one side of the T-shaped block, two symmetrically arranged unidirectional liquid supplementing pipes are fixedly connected with one ends of the conductive box, one end of the unidirectional liquid supplementing pipes are far away from the conductive box, the conductive box is fixedly connected with a water pipe, and the water pipe is fixedly connected with a water pipe.

Further, the outer wall of the rotating cover is provided with a round rubber block, so that the rotating cover can be fixed on the outer wall of the conductive box.

Further, the shape of the spherical rod is matched with the shape and the size of the groove in the groove drum, so that the groove drum is driven to rotate when the spherical rod moves.

Furthermore, the extrusion clamps are arranged in a mirror image mode by taking the limiting strips as centers, so that the bottle bodies of the bottles can be extruded and stored when the extrusion clamps move mutually.

Further, both ends of the conveying pipe are communicated with the interiors of the two storage bottles, so that the pressure when the two storage bottles are extruded is simultaneously transmitted in the conveying pipe.

Furthermore, the shape and the size of the groove in the T-shaped groove plate are matched with those of the bottom lug of the T-shaped block, so that the T-shaped block can slide in the T-shaped groove plate.

Advantageous effects

Compared with the prior art and products, the invention has the beneficial effects that:

1. through the cooperation use of collecting the subassembly to reached when the user uses the microcurrent facial mask, fixed microcurrent facial mask between first grip block and second grip block, solved the user and need just can be with the accurate laminating of facial mask to the mirror the problem, played the effect of assistance-localization real-time, and when the electric current detection tube detects microcurrent facial mask electric current high, the reel can rotate and collect the microcurrent facial mask of pasting at the user's face, avoided microcurrent facial mask to continue to contact with the user's face, prevented microcurrent facial mask electric current too high harm skin, improved the security.

2. Through the cooperation use of power component to reduce the condition that needs to add liquid to the microcurrent facial mask through the instrument, and then prevent to use the inconvenient problem of instrument when adding liquid to the microcurrent facial mask, further reduced the necessity of adding the instrument, reduced the production of adding the instrument simultaneously, because of adding the instrument and being disposable, avoided the waste of once only adding the instrument, and then improved the environmental protection effect of whole device.

3. Through the cooperation use of fluid infusion subassembly to reached the user when dreing the elastic band to the head, the elastic band pulling extrusion presss from both sides the extrusion storage bottle, solved the user and can't add the problem of liquid when having the spot in the hand, prevented that the spot from being infected with the microcurrent facial mask and influencing the cosmetic effect, and avoided the hand to contact the microcurrent facial mask when having substances such as spot or other calcium carbonate, lead to the condition that microcurrent facial mask electric current was increaseed, and then avoided the microcurrent facial mask when using, the condition that the electric current grow accidentally injures the user.

Drawings

FIG. 1 is a schematic diagram of the overall structure position relationship of the present invention;

FIG. 2 is a schematic view of a conductive box and an arc block of the present invention;

FIG. 3 is a schematic view of the positional relationship of the collection assembly of the present invention;

FIG. 4 is a schematic view of a spool, a first groove, and a heart block of the present invention;

FIG. 5 is an enlarged view of the invention at A in FIG. 4;

FIG. 6 is a schematic view of a conductive cartridge and collection assembly of the present invention;

FIG. 7 is an enlarged view of the invention at B in FIG. 6;

FIG. 8 is a schematic view of a motor and a third groove according to the present invention;

FIG. 9 is a schematic diagram of the positional relationship of the power assembly of the present invention;

FIG. 10 is an enlarged view of FIG. 9C in accordance with the present invention;

FIG. 11 is a schematic diagram of the positional relationship of a double-layer groove disk and a T-shaped block according to the present invention;

FIG. 12 is an enlarged view of the portion D of FIG. 11 in accordance with the present invention;

FIG. 13 is a schematic diagram of the positional relationship of the fluid infusion assembly of the present invention.

Reference numerals: 1. a conductive box; 2. a microcurrent mask; 3. an elastic band;

4. a collection assembly; 41. a motor; 42. a reel; 43. a first clamping block; 44. a current detection tube; 45. a first groove; 46. a heart-shaped block; 47. a slide bar; 48. a fixed rod; 49. a first spring; 410. a second groove; 411. a double-layer slide plate; 412. a fixed plate; 413. a second spring; 414. a cylindrical rod; 415. a rotary cover; 416. a second clamping block;

5. a power assembly; 51. a third groove; 52. a disc post; 53. an arc-shaped block; 54. a third spring; 55. a spherical rod;

6. a fluid replacement assembly; 61. a limit rod; 62. a groove drum; 63. a double-layer groove disc; 64. a first elliptical sheet; 65. a second elliptical sheet; 66. a positioning block; 67. t-shaped groove plates; 68. a T-shaped block; 69. a limit bar; 610. a spherical slider; 611. an extrusion clamp; 612. a limit column; 613. a fourth spring; 614. a storage bottle; 615. a delivery tube; 616. one-way fluid infusion tube; 617. a water pipe groove.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present invention are included in the protection scope of the present invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 13, the TENS micro-current mask with automatic protection for charge and discharge according to an embodiment of the present invention includes a conductive box 1, a micro-current mask 2, and an elastic band 3, where the micro-current mask 2 is disposed below the conductive box 1, the elastic band 3 is disposed at two sides of the conductive box 1, a collecting component 4 for fixing and collecting the micro-current mask 2 and detecting the micro-current mask 2 current is disposed inside the conductive box 1, a fluid supplementing component 6 for supplementing the micro-current mask 2 with current is disposed inside the conductive box 1, and a power component 5 for providing power to the fluid supplementing component 6 is disposed inside the conductive box 1.

The collecting assembly 4 comprises a motor 41, the motor 41 is fixedly connected in the conductive box 1, a winding drum 42 capable of being driven is arranged on the motor 41, a first clamping block 43 is fixedly connected in the winding drum 42, a current detection tube 44 is fixedly connected in the first clamping block 43, a piezoresistor is arranged in the current detection tube 44, when the piezoresistor detects that the current is too high, the resistance value of the piezoresistor is reduced, a first groove 45 is formed in the first clamping block 43, two symmetrically arranged heart-shaped blocks 46 are fixedly connected in the first clamping block 43, a sliding rod 47 is connected between the first groove 45 and the heart-shaped blocks 46 in a sliding manner, a fixing rod 48 is fixedly connected with the outer wall of the sliding rod 47, a second clamping block 416 is fixedly connected in the middle of the fixing rod 48, a first spring 49 is sleeved outside the fixing rod 48, first spring 49 one end fixed connection is in the outer wall of reel 42, the other end fixed connection of first spring 49 keeps away from the one end of slide bar 47 at dead lever 48, second recess 410 has been seted up to the inside of electrically conductive box 1, the outer wall fixedly connected with fixed disk 412 of electrically conductive box 1, sliding connection has double-deck slide disk 411 between the second recess 410, double-deck slide disk 411 outside cover is equipped with second spring 413, second spring 413 one end fixed connection is close to one side of electrically conductive box 1 at fixed disk 412, second spring 413 other end fixed connection is kept away from the one end of fixed disk 412 at double-deck slide disk 411, the inside fixedly connected with cylinder pole 414 of electrically conductive box 1, cylinder pole 414 outer wall rotation is connected with rotation lid 415, rotation lid 415 outer wall is provided with circular rubber piece, make rotation lid 415 can fix at electrically conductive box 1 outer wall.

The power assembly 5 comprises a third groove 51, the third groove 51 is formed in the conductive box 1, two symmetrical disc posts 52 are slidably connected in the third groove 51, one end of each disc post 52, away from the third groove 51, of each disc post 52 is fixedly connected with an arc block 53, a third spring 54 is sleeved on the outer side of each arc block 53, one end of each third spring 54 is fixedly connected to the inner wall of each third groove 51, the other end of each third spring 54 is fixedly connected to one end, away from each arc block 53, of each disc post 52, and one end, away from each arc block 53, of each disc post 52 is fixedly connected with a spherical rod 55.

The fluid infusion assembly 6 comprises two symmetrically arranged limiting rods 61, the two limiting rods 61 are all rotated in the third groove 51, a groove cylinder 62 is fixedly connected to the outer wall of the limiting rod 61, the shape of the spherical rod 55 is matched with the shape and the size of the groove in the groove cylinder 62, the groove cylinder 62 is driven to rotate when the spherical rod 55 moves, one end of the limiting rod 61 far away from the third groove 51 is fixedly connected with a double-layer groove disc 63, one side of the double-layer groove disc 63 far away from the limiting rod 61 is fixedly connected with a first elliptic disc 64 and a second elliptic disc 65, the inner cavity of the conductive box 1 is fixedly connected with two symmetrically arranged positioning blocks 66, one side of the positioning blocks 66 far away from the conductive box 1 is fixedly connected with a T-shaped groove plate 67, a T-shaped block 68 is slidably connected in the T-shaped groove plate 67, the shape and the size of the groove in the T-shaped groove plate 67 is matched with the shape and the size of the bump at the bottom of the T-shaped block 68, the T-shaped block 68 can slide in the T-shaped groove plate 67, the outer wall of the T-shaped block 68 is fixedly connected with a limit bar 69, one side outer wall of the limit bar 69 close to the T-shaped block 68 is fixedly connected with a spherical sliding block 610, the outer wall of the T-shaped block 68 is rotationally connected with an extrusion clamp 611, one side of the extrusion clamp 611 far away from the T-shaped block 68 is fixedly connected with two limit posts 612, a fourth spring 613 is fixedly connected between the two limit posts 612, the inside of the conductive box 1 is fixedly connected with two symmetrically arranged one-way liquid supplementing pipes 616, one ends of the two one-way liquid supplementing pipes 616 far away from the conductive box 1 are fixedly connected with storage bottles 614, the extrusion clamp 611 is arranged in a mirror image mode by taking the limit bar 69 as the center, the bottle bodies of the storage bottles 614 can be extruded when the extrusion clamp 611 moves mutually, a water pipe groove 617 is formed in the inside of the conductive box 1, a conveying pipe 615 is fixedly connected with the inside of the water pipe groove 617, two ends of the conveying pipe 615 are communicated with the inside of the two storage bottles 614, so that the pressure when the two storage bottles 614 are squeezed is simultaneously transferred inside the transfer tube 615.

In combination with the above preferred embodiments, the working principle of the present invention is as follows:

when not in use: the current detection tube 44 has an electrical connection relationship with the motor 41, the first spring 49 and the third spring 54 are not compressed, the second spring 413 and the fourth spring 613 are not stretched, the outer wall of the rotating cover 415 is provided with anti-slip stripes, the extrusion clamps 611 which are symmetrically mirror-image arranged with the limit strips 69 as the center are not mutually abutted, and the liquid which is neutralized by the micro-current mask 2 and generates current is arranged in the storage bottle 614.

When in use, a user moves the top of the microcurrent mask 2 into the conductive box 1, after the top of the microcurrent mask 2 is abutted against the winding drum 42, the microcurrent mask 2 stops moving, at the moment, the user presses down the double-layer slide plate 411 once in the conductive box 1, the double-layer slide plate 411 firstly drives the fixing rod 48 to move downwards, at the moment, the double-layer slide plate 411 stretches the second spring 413, the two ends of the second spring 413 generate interaction force on the double-layer slide plate 411 and the fixing plate 412, after the user presses down the double-layer slide plate 411 once again in the conductive box 1, the second spring 413 pulls the double-layer slide plate 411 to move to the bottom of the second groove 410, when the double-layer slide plate 411 firstly drives the fixing rod 48 to move downwards, the fixed rod 48 is far away from one end of the winding drum 42 to compress the first spring 49, at this time, two ends of the first spring 49 are extruded by the winding drum 42 and the fixed rod 48, meanwhile, the fixed rod 48 drives the sliding rod 47 to slide along the first groove 45 and the heart-shaped block 46, the sliding rod 47 drives the second clamping block 416 to move towards the first clamping block 43, when the sliding rod 47 moves to the bottom of the first groove 45, after a user presses down the double-layer sliding disc 411 inside the conductive box 1, the sliding rod 47 slides to the groove of the heart-shaped block 46 along the first groove 45 and the heart-shaped block 46, and the second clamping block 416 and the first clamping block 43 are mutually abutted, so that the top of the micro-current mask 2 is clamped between the second clamping block 416 and the first clamping block 43;

in the process that a user uses the micro-current mask 2, a current detection tube 44 in the first clamping block 43 monitors the current of the micro-current mask 2 in real time, if the micro-current mask 2 is excessively high, as the current detection tube 44 is in an electrical connection relation with the motor 41, and the inside of the current detection tube 44 contains a piezoresistor, when the piezoresistor detects that the current is excessively high, the resistance value of the piezoresistor is reduced, and when the current detection tube 44 detects that the current is excessively high, the motor 41 is started after the motor 41 is electrified, the motor 41 drives a winding drum 42 to rotate, the micro-current mask 2 clamped between the second clamping block 416 and the first clamping block 43 can be collected in the conductive box 1, under the condition that the micro-current mask 2 is ensured to have no high voltage, the anti-slip stripes on the outer wall of the rotating cover 415 are pressed against the hand of the user to be pulled away from the conductive box 1, and when the user pulls the rotating cover 415, the rotating cover 415 rotates around the cylindrical rod 414, and at the moment, the conductive box 1 is opened;

when the user presses the double-layer slide plate 411 to the inside of the conductive box 1 for the second time, as described above, after the double-layer slide plate 411 abuts against the fixing rod 48, the double-layer slide plate 411 is pulled by the mutual acting force generated by the two ends of the second spring 413 to the double-layer slide plate 411 and the fixing plate 412, so that the double-layer slide plate 411 moves to the bottom of the second groove 410, when the fixing rod 48 is pushed by the double-layer slide plate 411 for the second time, the fixing rod 48 drives the slide rod 47 to move from the groove of the heart-shaped block 46 to the bottom of the first groove 45, and when the first spring 49 is compressed by the fixing rod 48 and the winding drum 42, the first spring 49 drives the fixing rod 48 to move away from the winding drum 42, at this moment, the fixing rod 48 drives the slide rod 47 to move to the top of the first groove 45, the fixing rod 48 drives the second clamping block 416 to move away from the first clamping block 43, and the micro-current mask 2 clamped between the second clamping block 416 and the first clamping block 43 releases the limit of the limit movement, and when the user turns the cover 415 to open, the micro-current mask 2 inside the conductive box 1 is drawn away from the first clamping mask 2;

after the microcurrent mask 2 is pulled away, the rotary cover 415 is pushed to rotate to the outer wall of the conductive box 1 around the cylindrical rod 414, so that the conductive box 1 forms a closed space, when the microcurrent mask 2 needs to be taken out next time, the top of the microcurrent mask 2 is clamped between the second clamping block 416 and the first clamping block 43 due to the fact that the double-layer sliding disc 411 is pressed by a user for a single time, the microcurrent mask 2 cannot be clamped between the second clamping block 416 and the first clamping block 43 due to the fact that the double-layer sliding disc 411 is pressed by the user for an even number of times when the double-layer sliding disc 411 is pressed by the user for an even number of times to press the conductive box 1, the microcurrent mask 2 can be taken out, and therefore the problem that the microcurrent mask 2 needs to be applied to a mirror by a user accurately is solved between the first clamping block 43 and the second clamping block 416, the effect of auxiliary positioning is achieved, when the current detection tube 44 detects that the microcurrent mask 2 is pressed down in the inside, the drum 42 is pressed by the user for an even number of times to press the conductive box 1, the microcurrent mask 2 can be taken out, the microcurrent mask 2 can be continuously prevented from being damaged by the user, and the safety of the microcurrent mask 2 is prevented from being damaged by the skin.

When the user uses the microcurrent mask 2, after the user fixes the microcurrent mask 2 between the first clamping block 43 and the second clamping block 416, the user wears the elastic band 3 on the head when wearing the elastic band 3 on the head, then the user attaches the microcurrent mask 2 on the face, when the user wears the elastic band 3 on the head first, the elastic band 3 is stretched due to the stretch of the elastic force, the elastic band 3 drives the arc-shaped block 53 to move away from the conductive box 1, the arc-shaped block 53 carries the disc post 52 to synchronously move, the disc post 52 drives the spherical rod 55 to synchronously move when the disc post 52 moves away from the conductive box 1, the disc post 52 and the third groove 51 compress the third spring 54, the shape of the spherical rod 55 is matched with the shape and the size of the groove inside the groove barrel 62, the groove barrel 62 is driven to rotate when the spherical rod 55 moves, at this time, the spherical rod 55 drives the groove drum 62 to rotate, the groove drum 62 drives the limit rod 61 to rotate, the limit rod 61 drives the double-layer groove disc 63 to rotate, at this time, the spherical slider 610 slides in the outer wall of one side of the double-layer groove disc 63 away from the limit rod 61, the spherical slider 610 drives the limit strip 69 to slide in the direction away from the double-layer groove disc 63 first, the shape and size of the inner groove of the T-shaped groove plate 67 are matched with the shape and size of the lug at the bottom of the T-shaped block 68, the limit strip 69 drives the T-shaped block 68 to slide in the direction away from the double-layer groove disc 63 first in the inner part of the T-shaped groove plate 67, when the double-layer groove disc 63 rotates once, the double-layer groove disc 63 enables the spherical slider 610 to slide to one side of the double-layer groove disc 63 close to the T-shaped groove plate 67, the spherical slider 610 drives the limit strip 69 to synchronously move, the limit strip 69 drives the T-shaped block 68 to move to one side of the T-shaped groove plate 67 close to the storage bottle 614, at this moment, two extrusion clamps 611 which are mirror-image-set move to the upper side and the lower side of the storage bottle 614, when the double-layer groove disk 63 rotates for one circle, the double-layer groove disk 63 drives the first elliptic disk 64 to synchronously rotate with the second elliptic disk 65 for one circle, the first elliptic disk 64 and the second elliptic disk 65 can collide with the two extrusion clamps 611 which are mirror-image-set when rotating, at this moment, the two extrusion clamps 611 rotate around the outer wall of the T-shaped block 68, one end of the two extrusion clamps 611 close to the double-layer groove disk 63 is collided by the first elliptic disk 64 and the second elliptic disk 65 and moves towards the direction far away from the double-layer groove disk 63, one end of the two extrusion clamps 611 far away from the double-layer groove disk 63 moves towards the direction close to the storage bottle 614, the body of the storage bottle 614 is extruded by the first elliptic disk 64 and the second elliptic disk 65, liquid inside the storage bottle 614 is extruded and conveyed to the inside the conveying pipe 615, the liquid flows to the conveying pipe 615 through the extrusion, and finally, one end of the conveying pipe 615 is far away from the storage bottle 614, the micro-face film 2 is fixed at the top of the time between the second clamping block 416 and the first clamping block 43, the micro-face film 2, the external current is required to be added with the micro-face film 2, the external face film 2 is further reduced, the external face film 2 is produced, the external face film 2 is further, the external face film 2 is not required, and the external face film 2 is produced, and the external face 2 is further has the external face-friendly effect, and the external face device is further has and the external face device.

After the user uses the micro-current mask 2, the elastic band 3 is removed from the head, at this time, the third spring 54 generates opposite acting force on the disc post 52 and the third groove 51, the third spring 54 pushes the disc post 52 to move towards the inside of the third groove 51, the disc post 52 drives the spherical rod 55 to synchronously move, the spherical rod 55 drives the groove cylinder 62 to rotate, the groove cylinder 62 drives the limiting rod 61 to rotate, the limiting rod 61 drives the double-layer groove disc 63 to rotate, at this time, when the double-layer groove disc 63 reversely rotates once, the double-layer groove disc 63 drives the first elliptical disc 64 and the second elliptical disc 65 to synchronously rotate for one circle, the first elliptical disc 64 and the second elliptical disc 65 are in contact with the extrusion clamp 611, the extrusion clamp 611 is contracted by the elasticity of the fourth spring 613, so that the two extrusion clamps 611 of the extrusion storage bottle 614 reversely rotate around the outer wall of the T-shaped block 68, the bottle body of the extrusion storage bottle 614 is extruded by the first elliptical disc 64 and the second elliptical disc 65, when the double-layer groove disc 63 reversely rotates for one circle, the double-layer groove disc 63 drives the spherical sliding block 610 to slide to the middle part of the double-layer groove disc 63, at the moment, the limit strip 69 drives the T-shaped block 68 to move to one side of the T-shaped groove plate 67, which is far away from the storage bottle 614, and reset, when the elastic band 3 is worn by a user next time, the effect of automatically spraying the liquid which is neutralized by the microcurrent mask 2 is achieved, so that when the elastic band 3 is worn by the user to the head, the elastic band 3 pulls the extrusion clamp 611 to extrude the storage bottle 614, the problem that the liquid can not be added when the user has stains on the hand is solved, the problem that the stains are stained with the microcurrent mask 2 to influence the beautifying effect is avoided, the condition that the microcurrent mask 2 is increased in current when the stains or other substances such as calcium carbonate are stained on the hand is avoided, and the condition that the microcurrent mask 2 is increased in current is avoided when the microcurrent mask 2 is used, the current becomes large and the user is injured by mistake.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims

1. The utility model provides a possess and accomplish little electric current facial mask of TENS of automatic protection of charge-discharge, includes electrically conductive box (1), little electric current facial mask (2), elastic band (3), little electric current facial mask (2) set up in the below of electrically conductive box (1), elastic band (3) set up in the both sides of electrically conductive box (1), a serial communication port, the inside of electrically conductive box (1) is provided with collection subassembly (4) that are used for fixed and collect little electric current facial mask (2) and detect little electric current facial mask (2) electric current simultaneously, the inside of electrically conductive box (1) is provided with fluid infusion subassembly (6) that are used for supplementing electric current for little electric current facial mask (2), the inside of electrically conductive box (1) is provided with power component (5) that are used for providing power for fluid infusion subassembly (6).

2. The TENS microcurrent mask with automatic charge and discharge protection according to claim 1, wherein: the collecting assembly (4) comprises a motor (41), a winding drum (42) which can be driven is arranged on the motor (41), a first clamping block (43) is fixedly connected to the inside of the winding drum (42), a current detection tube (44) is fixedly connected to the inside of the first clamping block (43), a first groove (45) is formed in the inside of the first clamping block (43), two symmetrically arranged heart-shaped blocks (46) are fixedly connected to the inside of the first clamping block (43), a sliding rod (47) is connected between the first groove (45) and the heart-shaped blocks (46) in a sliding manner, a fixing rod (48) is fixedly connected to the outer wall of the sliding rod (47), a second clamping block (416) is rotatably connected to the middle part of the fixing rod (48), a first spring (49) is sleeved on the outer side of the fixing rod (48), one end of the first spring (49) is fixedly connected to the outer wall of the winding drum (42), the other end of the first spring (49) is fixedly connected to one end of the fixing rod (48) far away from the fixing rod (47), a sliding rod (47) is connected to the inner side of the sliding rod (1) is provided with a second sliding disc (411), a second sliding disc (410) is fixedly connected to the inner side of the sliding disc (411), one end of the second spring (413) is fixedly connected to one side, close to the conductive box (1), of the fixed disc (412), the other end of the second spring (413) is fixedly connected to one end, far away from the fixed disc (412), of the double-layer sliding disc (411), a cylindrical rod (414) is fixedly connected to the inside of the conductive box (1), and a rotary cover (415) is rotatably connected to the outer wall of the cylindrical rod (414).

3. The TENS microcurrent mask with automatic charge and discharge protection according to claim 1, wherein: the power component (5) comprises a third groove (51), the third groove (51) is formed in the conductive box (1), two symmetrical disc posts (52) are connected to the inside of the third groove (51) in a sliding mode, one end of each disc post (52) away from the third groove (51) is fixedly connected with an arc-shaped block (53), a third spring (54) is sleeved on the outer side of each arc-shaped block (53), one end of each third spring (54) is fixedly connected to the inner wall of each third groove (51), the other end of each third spring (54) is fixedly connected to one end of each disc post (52) away from the corresponding arc-shaped block (53), and one end of each disc post (52) is fixedly connected with a spherical rod (55) away from the corresponding arc-shaped block (53).

4. A TENS microcurrent mask with automatic charge and discharge protection according to claim 3, characterized in that: the fluid infusion subassembly (6) is including two gag lever posts (61) that symmetry set up, two gag lever post (61) all rotate in the inside of third recess (51), the outer wall fixedly connected with grooved drum (62) of gag lever post (61), gag lever post (61) is kept away from third recess (51) one end fixedly connected with double-deck grooved disk (63), double-deck grooved disk (63) are kept away from gag lever post (61) one side fixedly connected with first oval disk (64) and second oval disk (65), locating piece (66) that electric conduction box (1) inner chamber fixedly connected with two symmetries set up, one side fixedly connected with T shape recess board (67) of locating piece (66) keep away from electric conduction box (1), the inside sliding connection of T shape recess board (67) has T shape piece (68), T shape piece (68) outer wall fixedly connected with spacing (69), spacing piece (69) are close to T shape piece (68) one side outer wall fixedly connected with spherical slider (610), T shape piece (68) are rotated and are connected with locating piece (66), two extrusion clip (612) are kept away from between two fixed posts (612), the inside fixedly connected with of electrically conductive box (1) one-way fluid replacement pipe (616) that two symmetries set up, two one-way fluid replacement pipe (616) keep away from electrically conductive box (1) one end equal fixedly connected with storage bottle (614), water pipe groove (617) have been seted up to the inside of electrically conductive box (1), water pipe groove (617) inside fixedly connected with conveyer pipe (615).

5. The TENS microcurrent mask with automatic charge and discharge protection according to claim 2, wherein: the outer wall of the rotary cover (415) is provided with a round rubber block.

6. A TENS microcurrent mask with automatic charge and discharge protection according to claim 3, characterized in that: the shape of the spherical rod (55) is matched with the shape and the size of the groove inside the groove drum (62).

7. The TENS microcurrent mask with automatic charge and discharge protection according to claim 4, wherein: the extrusion clamp (611) is arranged in a mirror image mode by taking the limit strip (69) as a center.

8. The TENS microcurrent mask with automatic charge and discharge protection according to claim 4, wherein: both ends of the conveying pipe (615) are communicated with the interiors of the two storage bottles (614).

9. The TENS microcurrent mask with automatic charge and discharge protection according to claim 4, wherein: the shape and the size of the inner groove of the T-shaped groove plate (67) are matched with those of the bottom lug of the T-shaped block (68).