CN114939209B - Non-invasive atomizer for improving skin and shape - Google Patents

Abstract

The invention discloses a noninvasive atomizer for improving skin and shape, which comprises an atomizer body, wherein an annular plate is movably arranged on a liquid outlet of the atomizer body, a bonding plate fixedly connected with the atomizer body is bonded on the surface of the annular plate far away from the atomizer body, a liquid outlet component for atomizing liquid is jointly arranged on the annular plate and the bonding plate, a sealing cover is detachably connected on the atomizer body, a movable groove for sliding of the annular plate is formed in the sealing cover, and grooves are formed in the same positions on the opposite sides of the bonding plate and the sealing cover; according to the invention, through the cooperation among the moving assembly, the first cleaning assembly, the second cleaning assembly, the sliding assembly and the like, the front surface and the rear surface of the liquid outlet assembly can be effectively cleaned, the front side and the rear side of the atomized liquid outlet can be effectively cleaned, and the rear side of the atomized liquid outlet can be cleaned more accurately and thoroughly.

Description

Non-invasive atomizer for improving skin and shape

Technical Field

The invention relates to the technical field of nebulizers, in particular to a noninvasive nebulizer for improving skin and body shape.

Background

Atomization refers to the operation of dispersing a liquid into tiny droplets by a nozzle or by using a high-speed air flow, and the atomized numerous dispersed droplets can capture particulate matters in the gas, that is, the liquid is atomized into droplets by a special device and sprayed out.

Chinese patent publication No. CN209121379U discloses a nano atomizer for moisturizing liquid, which comprises a water supply tank, wherein a filter membrane is arranged at the bottom of the water supply tank, the lower end of the filter membrane is connected with a water inlet, an ultrasonic atomizer is arranged below the water inlet, and a screw sleeve is arranged at the other end of the water inlet; has the advantages of reducing nozzle blockage, improving cosmeceutical utilization rate and the like.

The device realizes reducing the spout through direct change atomizing subassembly and blocks up, all needs to prepare a plurality of atomizing subassemblies when trip or idle and supplies the replacement, has both increased the trouble on the use, can also increase occupation space simultaneously, and the practicality remains to improve.

Accordingly, there is a need to provide a non-invasive atomizer for improving skin and body shape that addresses the above-described technical problems.

Disclosure of Invention

The invention aims to provide a noninvasive atomizer for improving skin and shape, so as to solve the problems that in the background technology, nozzle blockage is reduced by directly replacing an atomizing assembly, a plurality of atomizing assemblies are needed to be prepared for replacement when the atomizer is in travel or idle, the trouble of use is increased, and meanwhile, the occupied space is increased.

In order to achieve the above purpose, through setting up rotatable play liquid subassembly, when play liquid subassembly rotates, its front surface and rear surface and atomized liquid export all can be effectively cleared up by first clean subassembly and second clean subassembly, need not to prepare a plurality of atomization component and replace, can prepare to continue the use next time.

Based on the thought, the invention provides the following technical scheme: a noninvasive atomizer for improving skin and physique, including the atomizer body, the activity is provided with the annular slab on the liquid outlet of atomizer body, the surface laminating that the atomizer body was kept away from to the annular slab is provided with and atomizes appearance body fixed connection laminating board, annular slab and laminating board are provided with the play liquid subassembly that is used for atomizing out jointly, can dismantle on the atomizer body and be connected with the closing cap, set up on the closing cap and remove the groove and be used for annular slab slip, the same position of laminating board and closing cap opposite side is all seted up flutedly, the equal fixed mounting in inside of recess has the first clean subassembly that is used for clearing up out liquid subassembly, the inside slidable mounting of first clean subassembly has the clean subassembly of second that is used for clearing up out liquid subassembly, the inside slidable mounting of recess has the slip subassembly that corresponds with the clean subassembly position of second, can dismantle on the liquid subassembly and be connected with the removal subassembly that is used for the recess of blocking, remove subassembly respectively with two slip subassembly movable laminating, the inside fixed mounting of one of recess has the arch that corresponds with the removal subassembly position.

As a further aspect of the invention: the first cleaning component comprises a baffle fixedly connected with the groove, a placing groove and an arc-shaped groove are formed in the surface of the baffle in a penetrating mode, an annular groove communicated with the placing groove is formed in the baffle, the second cleaning component is arranged in the placing groove and the annular groove, and a cleaning sheet is arranged on the surface, close to the moving component, of the baffle.

As a further aspect of the invention: the second cleaning assembly comprises a special-shaped block in sliding fit with the placing groove, a round rod is rotatably arranged on the surface, close to the partition plate, of the special-shaped block, a circular ring is fixedly arranged on the outer surface of the round rod, a spring is movably sleeved on the outer surface of the round rod and positioned at the top of the circular ring, and a cleaning block is arranged on the surface, close to the moving assembly, of the round rod.

As a further aspect of the invention: the sliding assembly comprises a cross rod, square blocks in sliding fit with the grooves are fixedly arranged at two ends of the cross rod, springs are fixedly arranged between the square blocks and the walls of the grooves, and top blocks corresponding to the positions of the second cleaning assembly are rotatably arranged on the outer surfaces of the cross rod through torsion springs.

As a further aspect of the invention: the rotatable direction of the top block in the laminating plate under the action of the torsion spring is opposite to that of the top block in the sealing cover.

As a further aspect of the invention: the movable assembly comprises a baffle which is detachably connected with the liquid outlet assembly and used for blocking the groove, a deflector rod is fixedly arranged on one side of the baffle, a long rod is fixedly arranged on the other side of the baffle, a cavity is formed in the surface of the long rod in a penetrating mode, and a side plate corresponding to the position of the cavity is rotatably arranged on the surface of the long rod through a torsion spring.

As a further aspect of the invention: the liquid outlet assembly comprises a cylinder fixedly connected with the attaching plate and a cantilever rotationally connected with the annular plate, an arc-shaped plate rotationally connected with the cantilever is rotationally arranged on the outer surface of the cylinder, and a plurality of atomization holes are formed in the arc-shaped plate in a penetrating mode.

As a further aspect of the invention: the groove wall of the placing groove and the upper part of the ring groove are provided with internal threads, and the outer surface of the round rod is provided with external threads matched with the internal threads.

As a further scheme of the invention, a handle positioned in the moving groove is fixedly arranged on the outer surface of the annular plate, and a spring is arranged between the handle and the groove wall of the moving groove.

According to the noninvasive type atomizer for improving the skin and the shape, through the cooperation among the moving assembly, the first cleaning assembly, the second cleaning assembly, the sliding assembly and the like, the front surface and the rear surface of the liquid outlet assembly can be effectively cleaned, the front side and the rear side of the atomized liquid outlet can be effectively cleaned, the rear side of the atomized liquid outlet can be cleaned more accurately and thoroughly, and adverse reactions caused by mixing of the liquid to be atomized and the liquid atomized last time can be prevented when different liquids are replaced for atomization; meanwhile, a plurality of liquid outlet components are not required to be prepared, and the liquid outlet components are not required to be correspondingly replaced when different liquids are replaced for atomization, so that the trouble in use is reduced; because a plurality of liquid outlet components are not required to be prepared, the occupied space during idling and during exiting is reduced, the experience of a user is better, and the practicability is higher.

Drawings

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a liquid outlet assembly according to the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A;

FIG. 4 is a schematic diagram of a closure structure according to the present invention;

FIG. 5 is a schematic view of the internal structure of the groove according to the present invention;

FIG. 6 is a schematic view of a sliding assembly according to the present invention;

FIG. 7 is an enlarged view of the structure at B in FIG. 4;

FIG. 8 is a schematic diagram of a mobile assembly according to the present invention;

FIG. 9 is a schematic view of a second cleaning assembly according to the present invention;

fig. 10 is a schematic view of the structure of the placement tank and the round bar of the present invention.

In the figure: 1. an atomizer body; 2. an annular plate; 3. bonding plates; 4. a liquid outlet component; 5. a cover; 6. a moving assembly; 7. a first cleaning assembly; 8. a second cleaning assembly; 9. a sliding assembly; 10. a groove; 11. a handle; 12. a moving groove; 401. a cylinder; 402. an arc-shaped plate; 403. an atomization hole; 404. a cantilever; 601. a baffle; 602. a deflector rod; 603. a long rod; 604. a cavity; 605. a side plate; 701. a partition plate; 702. a cleaning sheet; 703. a ring groove; 704. a placement groove; 705. an arc-shaped groove; 801. a profiled block; 802. a round bar; 803. a cleaning block; 804. a circular ring; 901. a cross bar; 902. a square block; 903. and (5) a top block.

Detailed Description

Embodiment one:

referring to fig. 1 to 5, the present invention provides a non-invasive atomizer for improving skin and body shape: the atomization device comprises an atomization device body 1, wherein the atomization device body 1 is an existing mature technology and is not described in detail herein; an annular plate 2 is movably arranged on the liquid outlet of the atomizer body 1; the surface lamination of the annular plate 2 away from the atomizer body 1 is provided with a lamination plate 3 fixedly connected with the atomizer body 1, the annular plate 2 and the lamination plate 3 are jointly provided with four liquid outlet assemblies 4 which are used for atomizing liquid and mutually laminated, when in use, the atomizer body 1 discharges liquid from the hollow of the annular plate 2, and then the liquid is changed into atomized liquid through the four liquid outlet assemblies 4 to be sprayed out; the atomizing appearance body 1 is detachably connected with a cover 5 for shielding the laminating plate 3 and only exposing the liquid outlet component 4, a movable groove 12 is formed in the cover 5 and used for sliding the annular plate 2, the cover 5 is also of hollow design, after the cover 5 is closed, the annular plate 2 and the laminating plate 3 are blocked, only the liquid outlet component 4 is displayed outside, and atomized liquid from the liquid outlet component 4 is sprayed out from the center of the cover 5.

Four grooves 10 are respectively formed in the same position on the opposite side of the bonding plate 3 and the sealing cover 5 and correspond to the four liquid outlet assemblies 4; the inside of recess 10 is all fixed mounting has the first clean subassembly 7 that is used for once clearing up out liquid subassembly 4, the inside slidable mounting of first clean subassembly 7 has the second clean subassembly 8 that is used for the second clearance to go out liquid subassembly 4, the inside slidable mounting of recess 10 has the slip subassembly 9 that corresponds with the clean subassembly 8 position of second, be connected with the removal subassembly 6 that is used for blocking recess 10 on the liquid subassembly 4, the removal subassembly 6 has also blocked first clean subassembly 7 and the clean subassembly 8 of second equally, the removal subassembly 6 respectively with two slip subassembly 9 movable laminating, the inside fixed mounting of recess 10 has the arch (not shown in the figure) that corresponds with the removal subassembly 6 position on the adhesion board 3.

The outer surface of the annular plate 2 is fixedly provided with a handle 11 for quickly adjusting the position of the annular plate 2, a spring (not shown in the figure) is arranged between the handle 11 and the groove wall of the moving groove 12, the handle 11 can slide leftwards along the moving groove 12, the spring on the handle 11 is arranged on the left side, and the spring can be used for resetting the handle 11 after the handle 11 is shifted leftwards by hands to slide leftwards.

A sleeve (not shown) can be clamped outside the sealing cover 5, and the sleeve and the sealing cover 5 can be closed when in idle state, so that the possibility of polluting the liquid outlet assembly 4 is reduced.

In the present embodiment, it is preferable that: when the cleaning device is used, the handle 11 is stirred along the moving groove 12, the handle 11 drives the annular plate 2 to rotate clockwise, the annular plate 2 drives the four liquid outlet assemblies 4 to rotate clockwise from mutual lamination to dispersion, the liquid outlet assemblies 4 drive the moving assemblies 6 to move synchronously in the moving process, the grooves 10 are gradually exposed by the moving assemblies 6 in the moving process, the first cleaning assembly 7 and the second cleaning assembly 8 are gradually exposed, and the moving assemblies 6 also drive the two sliding assemblies 9 to move in the grooves 10; the sliding component 9 on the bonding plate 3 can not drive the second cleaning component 8 on the bonding plate 3 to move when moving, and the sliding component 9 on the sealing cover 5 can drive the second cleaning component 8 on the sealing cover 5 to reciprocate back and forth relative to the liquid outlet component 4 when moving, along with the clockwise movement of the liquid outlet component 4, the front surface of the sealing cover is effectively cleaned by the first cleaning component 7 and the second cleaning component 8 on the sealing cover 5, the rear surface of the sealing cover is effectively cleaned by the first cleaning component 7 and the second cleaning component 8 on the bonding plate 3, and meanwhile, the second cleaning component 8 on the sealing cover 5 can effectively clean an atomized liquid outlet of the liquid outlet component 4, so that the cleanliness of one side (namely the front side) of the atomized liquid outlet close to the sealing cover 5 is ensured.

After the annular plate 2 moves to the limit position along clockwise left, the liquid outlet assembly 4 also stops moving, at this time, the liquid outlet assembly 4 corresponds to the position of the second cleaning assembly 8, and the sliding assembly 9 on the attaching plate 3 abuts against the protrusion on the attaching plate 3, so that the sliding assembly 9 on the attaching plate 3 resets along the groove 10, and the second cleaning assembly 8 on the attaching plate 3 is driven to reciprocate back and forth relative to the liquid outlet assembly 4 in the resetting process, so that an atomized liquid outlet of the liquid outlet assembly 4 is effectively cleaned, and the cleanliness of one side (namely the rear side) of the atomized liquid outlet close to the annular plate 2 is ensured.

Through the cooperation of the structures such as the moving assembly 6, the first cleaning assembly 7, the second cleaning assembly 8 and the sliding assembly 9, the front surface and the rear surface of the liquid outlet assembly 4 can be effectively cleaned, the front side and the rear side of the atomized liquid outlet can be effectively cleaned, the rear side of the atomized liquid outlet is cleaned more accurately and effectively, and the cleaning degree of the liquid outlet assembly 4 is greatly improved; meanwhile, the atomized liquid outlets are cleaned by being distributed on the front side and the rear side, and the atomized liquid outlets are not interfered with each other, so that the atomized liquid outlets on the liquid outlet assembly 4 can be effectively cleaned thoroughly, and adverse reactions caused by mixing of the liquid to be atomized and the liquid atomized last time can be prevented when different liquids are replaced for atomization; meanwhile, a plurality of liquid outlet assemblies 4 are not required to be prepared, and when different liquids are required to be replaced for atomization, the liquid outlet assemblies 4 are not required to be replaced correspondingly, so that the trouble in use is reduced; because a plurality of liquid outlet assemblies 4 are not needed, the occupied space during idle and traveling is reduced, and the experience of a user is further improved.

Embodiment two:

referring to fig. 1 to 9, on the basis of the first embodiment, the first cleaning assembly 7 includes a partition plate 701 fixedly connected with the groove 10, a placement groove 704 and an arc groove 705 are formed on the surface of the partition plate 701, the placement groove 704 is in an annular design, a ring groove 703 communicated with the placement groove 704 is formed in the partition plate 701, the cross sections of the placement groove 704 and the ring groove 703 are cross-shaped, the second cleaning assembly 8 is arranged in the placement groove 704 and the ring groove 703, and cleaning sheets 702 are arranged on the surface, close to the moving assembly 6, of the partition plate 701.

The second cleaning assembly 8 comprises a profiled block 801 in sliding engagement with the placement groove 704, the profiled block 801 being slidable along the placement groove 704 but not rotatable within the placement groove 704; the surface of the special-shaped block 801 far away from the placing groove 704 is provided with a V-shaped part, and the pointed opening of the V-shaped part faces the inner bottom wall of the groove 10; the special-shaped block 801 is rotatably provided with a round rod 802 close to the surface of the partition 701, the outer surface of the round rod 802 is fixedly provided with a circular ring 804, the outer surface of the round rod 802 is movably sleeved with a spring positioned at the top of the circular ring 804, when the round rod 802 moves along the placing groove 704, the spring is extruded by the circular ring 804, and the spring is matched with the circular ring 804 to realize the reset of the round rod 802; the round bar 802 is provided with a cleaning block 803 near the surface of the moving assembly 6.

The sliding assembly 9 comprises a cross rod 901, square blocks 902 which are in sliding fit with the grooves 10 are fixedly arranged at two ends of the cross rod 901, sliding grooves are formed in the grooves 10 and used for sliding of the square blocks 902, and the square blocks 902 are matched with V-shaped parts of the special blocks 801 when sliding along the sliding grooves, so that the special blocks 801 can be driven to lift; a spring is fixedly arranged between the block 902 and the wall of the groove 10, the block 902 pulls the spring when sliding, and the spring is used for resetting the block 902; the outer surface of the cross bar 901 is rotatably provided with a top block 903 corresponding to the V-shaped position of the special-shaped block 801 through a torsion spring, meanwhile, the length of the top block 903 is smaller than that of the cross bar 901, a part of avoidance space is provided, and the top block is used for sliding along the cross bar 901 when the moving assembly 6 rotates clockwise, so that the normal running of the movement of the cross bar 901 is ensured; the arrangement of the block 902 and the sliding groove can prevent the block 902 from deflecting during sliding, so that the deflection of the top block 903 can be reduced, the position of the top block 903 during moving can be ensured, and the jacking effect of the V-shaped part of the special-shaped block 801 can be ensured.

The rotatable direction of the top block 903 in the attaching plate 3 under the action of the torsion spring is opposite to that of the top block 903 in the sealing cover 5, the top block 903 in the attaching plate 3 can only rotate clockwise under the action of the torsion spring, the top block 903 in the sealing cover 5 can only rotate anticlockwise under the action of the torsion spring, and the top block 903 in the attaching plate 3 and the top block 903 in the sealing cover 5 face the V-shaped part of the special-shaped block 801 initially.

The moving assembly 6 comprises a baffle 601 which is detachably connected with the liquid outlet assembly 4 and is used for blocking the groove 10, a deflector rod 602 is fixedly arranged on one side of the baffle 601 close to the sealing cover 5, and the deflector rod 602 is positioned in an arc-shaped groove 705 of a partition plate 701 in the sealing cover 5 and is attached to a cross rod 901 in the sealing cover 5; a long rod 603 is fixedly arranged on the other side of the baffle 601, the long rod 603 is positioned in an arc-shaped groove 705 of the partition 701 in the laminating plate 3 and is laminated with a cross rod 901 in the laminating plate 3, and the deflector rod 602 and the long rod 603 are both leaned towards the center of the annular plate 2 in the initial position; the surface of the long rod 603 is provided with a cavity 604 in a penetrating way, the surface of the long rod 603 is provided with a side plate 605 corresponding to the position of the cavity 604 in a rotating way through a torsion spring, and a cross rod 901 in the attaching plate 3 is positioned in the cavity 604 and the side plate 605. The side plate 605 always keeps the attaching state with the cavity 604 (namely, is parallel to the supporting rod) under the action of the torsion spring, but the side plate 605 can rotate clockwise or anticlockwise, when the cross bar 901 in the attaching plate 3 attaches to the side plate 605 and moves, the spring in the attaching plate 3 is pulled, but the side plate 605 is not driven to rotate by the torsion spring; the width of the side plate 605 is larger than the width of the long rod 603, and the protrusions provided on the attaching plate 3 correspond to the positions of the side plate 605, but initially the protrusions are located on the side of the groove 10 away from the side plate 605.

The liquid outlet assembly 4 comprises a cylinder 401 fixedly connected with the bonding plate 3 and a cantilever 404 rotationally connected with the annular plate 2, wherein an arc plate 402 rotationally connected with the cantilever 404 is rotationally arranged on the outer surface of the cylinder 401, and in an initial state, the four arc plates 402 are mutually and sequentially bonded to form a complete circle, and when the arc plate 402 rotates by taking the cylinder 401 as a base point through the cantilever 404, the four arc plates 402 completely enter the range of the bonding plate 3; a plurality of atomization holes 403 are formed in the arc plates 402 in a penetrating manner for discharging liquid, the four arc plates 402 are matched with the plurality of atomization holes 403, so that the atomization amount in use is effectively ensured, and when the four arc plates 402 are reset along an original path to form a circular shape, the whole body is sealed and attached, and the liquid cannot flow out from gaps among the arc plates 402; while the cleaning block 803 is adapted to the size of the atomizing aperture 403 for thorough cleaning of the atomizing aperture 403.

In the present embodiment, it is preferable that: when in use, the annular plate 2 is shifted through the moving groove 12 to rotate clockwise, the annular plate 2 drives the arc plate 402 to rotate clockwise by taking the cylinder 401 as a base point through the cantilever 404 until the hollow of the annular plate 2 is completely exposed, and the arc plate 402 completely enters the bonding plate 3; the baffle 601 is driven to synchronously move when the arc plate 402 moves, so that the grooves 10 on the attaching plate 3 and the sealing cover 5 are gradually opened, the cleaning cloth and the cleaning blocks 803 in the grooves 10 are gradually exposed, and along with the movement of the arc plate 402, the rear surface of the arc plate 402 is contacted with the cleaning cloth and the cleaning blocks 803 on the attaching plate 3, and the front surface of the arc plate 402 is contacted with the cleaning cloth and the cleaning blocks 803 on the sealing cover 5, so that effective cleaning is achieved.

The baffle 601 drives the deflector 602 and the long rod 603 to synchronously move when moving, the deflector 602 drives the cross rod 901 in the sealing cover 5 to move along the groove 10 and simultaneously stretches the spring, and the top block 903 in the sealing cover 5 only can rotate anticlockwise under the action of the torsion spring, so that the top block 903 in the sealing cover 5 can drive the V-shaped part of the special-shaped block 801 to reciprocate back and forth relative to the arc plate 402 when moving along with the long rod 603, namely the special-shaped block 801 slides along the placing groove 704, the special-shaped block 801 drives the round rod 802 and the circular ring 804 to synchronously move and squeeze the spring, and the round rod 802 drives the cleaning block 803 to reciprocate to effectively clean the front side of the atomization hole 403; when the long rod 603 moves, the cross rod 901 in the bonding plate 3 is driven by the cavity 604 and the side plate 605 to move along the groove 10, and the spring is also stretched, and because the ejector rod in the bonding plate 3 can rotate clockwise under the action of the torsion spring, when the cross rod 901 drives the ejector block 903 to move, the ejector block 903 rotates and does not drive the special-shaped block 801 to move along the placing groove 704; when the long rod 603 drives the cross rod 901 to move to the limit position through the cavity 604 and the side plate 605, the atomization holes 403 of the arc plate 402 are in one-to-one correspondence with the positions of the cylinders 401, at the moment, the protrusions in the grooves 10 of the attaching plate 3 are abutted against the protruding surfaces of the side plate 605, the side plate 605 is driven to rotate, at the moment, the cavity 604 is in an open-close state, under the action of the springs in the attaching plate 3, the cross rod 901 automatically resets along the grooves 10 under the cooperation of the structures such as the square block 902 and the sliding grooves, the cross rod 901 does not deflect in the resetting process, at the moment, the top block 903 drives the special-shaped blocks 801 in the attaching plate 3 to reciprocate back and forth relative to the arc plate 402, the special-shaped blocks 801 drive the cleaning blocks 803 to effectively clean the rear sides of the atomization holes 403 through the cylinders 401, and because the positions of the atomization holes 403 and the cylinders 401 are not moved at the moment, the cleaning of the cylinders 401 in the attaching plate 3 is more accurate and effective. Because the atomizing apparatus body 1 directly continuously impacts the rear side of the atomizing hole 403 with a large amount of liquid, the cleaning block 803 in the adhesion plate 3 is required to clean the rear side of the atomizing hole 403 in a reciprocating manner more thoroughly, the cleaning block 803 in the sealing cover 5 effectively cleans the front side of the atomizing hole 403, and the cleaning block 803 cooperates with the cleaning sheet 702 to clean the surface of the arc plate 402 effectively, so that the overall cleaning effect is better, and the practicability is higher.

After cleaning, the handle 11 is loosened, under the action of the spring in the moving groove 12, the handle 11 can drive the annular plate 2 to automatically reset, the annular plate 2 drives the arc plate 402 to reset through the cantilever 404 to close the groove 10, the arc plate 402 drives the baffle 601, the long rod 603 and the deflector 602 to reset, the cross rod 901 in the sealing cover 5 synchronously moves along with the deflector 602 under the action of the spring, and when the long rod 603 moves to abut against the cross rod 901 in the attaching plate 3, the cross rod 901 moves along with the long rod 603 to squeeze the side plate 605 out and reenter the cavity 604, and the cross rod moves back and forth in sequence.

Embodiment III:

referring to fig. 1 to 10, on the basis of the second embodiment, an inner thread (i.e. a C-section) is disposed on the groove wall of the placement groove 704 and above the ring groove 703, and an outer thread adapted to the inner thread is disposed on the outer surface of the round bar 802.

In the present embodiment, it is preferable that: when the special-shaped block 801 reciprocates along the placing groove 704, the round rod 802 is driven to synchronously move along the placing groove 704 through the cooperation of the structures such as the circular ring 804, the annular groove 703 and the spring, and the round rod 802 is provided with the internal thread and the external thread, and the round rod 802 can also reciprocate to automatically rotate when reciprocating, so that compared with the non-rotation of the second embodiment, the cleaning force is larger, the cleaning effect on the front side and the rear side of the atomizing hole 403 can be further improved, the atomizing hole 403 is cleaned more effectively, the cleaning degree is improved, and the applicability is stronger.

The working principle and the using method of the invention are as follows: when in use, the handle 11 is shifted along the moving groove 12, the handle 11 drives the annular plate 2 to rotate clockwise, the annular plate 2 drives the arc plate 402 to rotate clockwise by taking the cylinder 401 as a base point through the cantilever 404 until the hollow of the annular plate 2 is completely exposed, and at the moment, the arc plate 402 completely enters the laminating plate 3; the baffle 601 is driven to synchronously move when the arc plate 402 moves, so that the grooves 10 on the attaching plate 3 and the sealing cover 5 are gradually opened, the cleaning cloth and the cleaning blocks 803 in the grooves 10 are gradually exposed, and along with the movement of the arc plate 402, the rear surface of the arc plate 402 is contacted with the cleaning cloth and the cleaning blocks 803 on the attaching plate 3, and the front surface of the arc plate 402 is contacted with the cleaning cloth and the cleaning blocks 803 on the sealing cover 5, so that effective cleaning is achieved.

The baffle 601 drives the deflector rod 602 and the long rod 603 to synchronously move when moving, the deflector rod 602 drives the cross rod 901 in the sealing cover 5 to move along the groove 10 and simultaneously stretches the spring, and at the moment, the top block 903 in the sealing cover 5 drives the cleaning block 803 to reciprocate relative to the arc plate 402 through the cooperation of structures such as the round rod 802, the circular ring 804, the spring and the special-shaped block 801 in the moving process of the long rod 603, and meanwhile, the cleaning block can also reciprocate to automatically rotate to effectively clean the front side of the atomizing hole 403 under the action of internal threads and external threads; when the long rod 603 moves, the cross rod 901 in the bonding plate 3 is driven to move along the groove 10 through the cavity 604 and the side plate 605, the spring is also stretched, and when the cross rod 901 drives the top block 903 to move, the top block 903 rotates and does not drive the special-shaped block 801 to move, so that the cleaning block 803 at the rear side of the arc plate 402 does not reciprocate at the moment; when the long rod 603 drives the cross rod 901 to move to the limit position, the atomizing holes 403 of the arc plate 402 correspond to the positions of the cylinders 401 one by one, at this time, the protrusions in the grooves 10 of the bonding plate 3 are abutted against the protruding surfaces of the side plates 605, and then the side plates 605 are driven to rotate so that the cavities 604 are in an opening and closing state, the cross rod 901 is automatically reset along the grooves 10 under the cooperation of structures such as springs, blocks 902 and sliding grooves, and the like, the cross rod 901 does not deflect any more in the resetting process, the top block 903 is driven to reciprocate relative to the arc plate 402 through the cooperation of the structures such as the round rod 802, the circular ring 804, the springs and the special-shaped blocks 801, and the like, and meanwhile, under the action of internal threads and external threads, the rear sides of the atomizing holes 403 can be effectively cleaned by reciprocating self-rotation, and because the positions of the atomizing holes 403 correspond to the cylinders 401 at this time, the cylinders 401 in the bonding plate 3 can be cleaned more accurately and effectively, and more requirements in practical use are met.

Claims (6)

1. The noninvasive atomizer for improving skin and shape comprises an atomizer body, and is characterized in that an annular plate is movably arranged on a liquid outlet of the atomizer body, a surface of the annular plate, which is far away from the atomizer body, is provided with a bonding plate fixedly connected with the atomizer body, the annular plate and the bonding plate are jointly provided with a liquid outlet component for atomizing liquid, a sealing cover is detachably connected with the atomizer body, a movable groove for sliding the annular plate is formed in the sealing cover, grooves are formed in the same positions on the opposite sides of the bonding plate and the sealing cover, a first cleaning component for cleaning the liquid outlet component is fixedly arranged in the grooves, a second cleaning component for cleaning the liquid outlet component is slidably arranged in the first cleaning component, a sliding component corresponding to the position of the second cleaning component is slidably arranged in the grooves, a movable component for blocking the grooves is detachably connected on the liquid outlet component, the movable component is movably bonded with two sliding components respectively, and a protrusion corresponding to the position of the movable component is fixedly arranged in the groove;

the liquid outlet component comprises a cylinder fixedly connected with the attaching plate and a cantilever rotationally connected with the annular plate, an arc-shaped plate rotationally connected with the cantilever is rotationally arranged on the outer surface of the cylinder, and a plurality of atomization holes are formed in the arc-shaped plate in a penetrating mode;

the outer surface of the annular plate is fixedly provided with a handle positioned in the moving groove, and a spring is arranged between the handle and the groove wall of the moving groove.

2. The noninvasive atomizer for improving skin and body of claim 1, wherein the first cleaning assembly comprises a baffle fixedly connected with the groove, a placement groove and an arc-shaped groove are formed in the surface of the baffle in a penetrating manner, a ring groove communicated with the placement groove is formed in the baffle, the second cleaning assembly is arranged in the placement groove and the ring groove, and a cleaning sheet is arranged on the surface, close to the moving assembly, of the baffle.

3. The non-invasive atomizer for improving skin and shape according to claim 2, wherein the second cleaning assembly comprises a profiled block slidingly engaged with the placement groove, a round bar is rotatably mounted on the surface of the profiled block adjacent to the partition plate, a circular ring is fixedly mounted on the outer surface of the round bar, a spring is movably sleeved on the outer surface of the round bar and on the top of the circular ring, and a cleaning block is arranged on the surface of the round bar adjacent to the moving assembly.

4. The non-invasive atomizer for improving skin and body according to claim 1, wherein the sliding assembly comprises a cross bar, square blocks which are in sliding fit with the grooves are fixedly installed at two ends of the cross bar, springs are fixedly installed between the square blocks and the walls of the grooves, and a top block corresponding to the position of the second cleaning assembly is rotatably installed on the outer surface of the cross bar through torsion springs.

5. The non-invasive atomizer for improving skin and shape according to claim 4, wherein said top block in the adhesive plate is rotatable in opposite direction under the action of torsion springs to the top block in the cover.

6. The noninvasive atomizer for improving skin and body according to claim 1, wherein the moving assembly comprises a baffle detachably connected with the liquid outlet assembly and used for blocking the groove, a deflector rod is fixedly installed on one side of the baffle, a long rod is fixedly installed on the other side of the baffle, a cavity is formed through the surface of the long rod, and a side plate corresponding to the position of the cavity is rotatably installed on the surface of the long rod through a torsion spring.