CN215608765U - Beauty treatment handle - Google Patents

Abstract

The application discloses cosmetic handle, cosmetic handle include the head and with the handheld portion that the head is connected, the head is equipped with the micropin subassembly, the micropin subassembly includes fixed plate, grafting post and a plurality of micropin structure, each the micropin structure is made by soluble high molecular polymer, and is a plurality of micropin structure array arrange in the fixed plate, the micropin structure is used for pricking in the user skin, so that soluble high molecular polymer dissolves in the user skin, the grafting post connect in the fixed plate and with handheld portion is pegged graft. Through set up the micropin subassembly at the head, the micropin subassembly includes a plurality of micropin structures of being made by soluble high-molecular polymer, and the micropin structure is used for pricking in the user's skin to make soluble high-molecular polymer dissolve in the user's skin. Because the micro-needle structure is made of the soluble high molecular polymer, an additional injection structure is not needed for injection, and therefore the wound area caused to the skin of a user is effectively reduced.

Description

Beauty treatment handle

Technical Field

The application relates to the field of electronic equipment, in particular to a beauty handle.

Background

At present, people pay more and more attention to skin care along with the improvement of the quality of life. However, when the cosmetic is injected into the skin of a user by using a conventional cosmetic handle, a large wound may be generated on the skin, thereby causing some damage to the skin.

SUMMERY OF THE UTILITY MODEL

The application provides a cosmetic handle with minimal invasive injection function.

The application provides a cosmetic handle, wherein, cosmetic handle include the head and with the handheld portion that the head is connected, the head is equipped with the micropin subassembly, the micropin subassembly includes fixed plate, grafting post and a plurality of micropin structure, each the micropin structure is made by soluble high molecular polymer, and is a plurality of micropin structure array arrange in the fixed plate, the micropin structure is used for pricking in the user's skin, so that soluble high molecular polymer dissolves in the user's skin, the grafting post connect in the fixed plate and with handheld portion pegs graft.

The cosmetic handle that this application provided, through set up the micropin subassembly at the head, the micropin subassembly includes a plurality of micropin structures of being made by soluble high molecular polymer, and the micropin structure is used for pricking in the user skin to make soluble high molecular polymer dissolve in the user skin. Because the micro-needle structure is made of the soluble high molecular polymer, namely is formed by solidifying the cosmetic, an additional injection structure is not needed for injection, and the wound area caused to the skin of a user in the injection process of the cosmetic is effectively reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is an exploded schematic view of a cosmetic handle provided by an embodiment of the present application;

fig. 2 is an assembled schematic view of a cosmetic handle provided by an embodiment of the present application;

fig. 3 is a schematic structural diagram of a microneedle assembly in a cosmetic handle provided by an embodiment of the present application;

fig. 4 is another exploded schematic view of a cosmetic handle provided by an embodiment of the present application;

FIG. 5 is an exploded view of another embodiment of a cosmetic handle;

FIG. 6 is an assembled schematic view of a cosmetic handle according to another embodiment;

fig. 7 is an exploded view of a cosmetic handle provided by an embodiment of the present application from another perspective;

fig. 8 is an assembled view of another embodiment of a cosmetic handle;

fig. 9 is an exploded view of another embodiment of a cosmetic handle.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 inventive step, are within the scope of the present disclosure.

In the description of the embodiments of the present application, it should be understood that the terms "top," "bottom," "upper," "lower," and the like refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the present application and simplifying the description, and do not imply or indicate that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the present application.

Referring to fig. 1 and 2 together, an embodiment of the present application provides a cosmetic handle 1000, the cosmetic handle 1000 includes a head 100 and a hand-held portion 200 connected to the head 100, the head 100 is provided with a microneedle assembly 10, the microneedle assembly 10 includes a fixing plate 11, an insertion column 12 and a plurality of microneedle structures 13, each microneedle structure 13 is made of a soluble high molecular polymer, the plurality of microneedle structures 13 are arrayed on the fixing plate 11, the microneedle structures 13 are used for penetrating into the skin of a user to dissolve the soluble high molecular polymer in the skin of the user, and the insertion column 12 is connected to the fixing plate 11 and inserted into the hand-held portion 200.

By providing the microneedle assembly 10 in the head 100, the microneedle assembly 10 includes a plurality of microneedle structures 13 made of soluble high molecular polymer, and the microneedle structures 13 are configured to penetrate into the skin of the user, so that the soluble high molecular polymer is dissolved in the skin of the user. Because the micro-needle structure 13 is made of the soluble high molecular polymer, namely is formed by solidifying the cosmetic, an additional injection structure is not needed for injection, and the wound area caused to the skin of a user in the injection process of the cosmetic is effectively reduced.

In this embodiment, the head 100 is disposed at one end of the handheld portion 200, and the handheld portion 200 is in a column shape, so that a user can hold the handheld portion 200 conveniently. The microneedle component 10 is arranged in the head 100, and the fixing plate 11 of the microneedle component 10 and the microneedle structure 13 on the fixing plate 11 are arranged on one side of the head 100 departing from the handheld portion 200, so that the microneedle structure 13 is in contact with the skin of a user to realize the microneedle injection function.

Referring to fig. 3, in one embodiment, the fixing plate 11 includes a first surface 111 and a second surface 112 opposite to each other, the patch plug 12 is connected to the second surface 112, the microneedle structure 13 includes a needle tip 131 and a fixed end 132 opposite to each other, the fixed end 132 is connected to the first surface 111, the needle tip 131 is perpendicular to the first surface 111 and extends in a direction away from the first surface 111, and the microneedle structure 13 penetrates into the skin of the user through the needle tip 131.

In this embodiment, the fixing plate 11 is used to carry the microneedle structure 13, and the fixing plate 11 and the microneedle structure 13 on the fixing plate 11 are disposed on a side of the head 100 away from the handheld portion 200, so as to pierce into the skin of the user and release the soluble high molecular polymer; the plug-in post 12 is used to fixedly connect the fixing plate 11 to the handheld portion 200.

Wherein, micro needle structure 13 is formed by the solidification of soluble high-molecular polymer, makes it possess certain structural strength to can effectively pierce user's skin in, after micro needle structure 13 made by soluble high-molecular polymer pierces user's skin in, micro needle structure 13 can be dissolved by blood or body fluid, thereby makes soluble high-molecular polymer play the nursing effect to user's skin. Compared with the traditional mode of injecting the cosmetic agent through the injection needle, the microneedle injection technology can effectively reduce the skin wound of a user, so that the skin of the user is prevented from being damaged. In a specific embodiment, the soluble high molecular polymer is hyaluronic acid. The hyaluronic acid is injected into the skin of a user, so that the nutrition metabolism of the skin can be improved, the skin becomes tender and smooth, and the effects of removing wrinkles and increasing the elasticity of the skin are achieved, so that the hyaluronic acid has a good anti-aging effect, and is also beneficial to moisturizing and absorption of other nutrient substances. The soluble high molecular polymer includes, but is not limited to, hyaluronic acid, and may be any other cosmetic agent having a skin care function, and is not particularly limited herein.

The microneedle structure 13 includes a needle tip 131 and a fixed end 132, the fixed end 132 is connected to the first surface 111 of the fixing plate 11, and the needle tip 131 is perpendicular to the first surface 111 and extends in a direction away from the first surface 111. Under the structure, the micro-needle structure 13 can effectively penetrate into the skin of the user to meet the corresponding skin care function. Wherein, the needle tip 131 has a sharper structure than the fixed end 132, so as to facilitate piercing the skin; the fixed end 132 is wider than the needle tip 131, thereby facilitating the fixation of the microneedle structure 13 to the first surface 111. It will be appreciated that the needle tip 131 extends perpendicularly to the first surface 111 and away from the first surface 111, such that when the first surface 111 is brought into engagement with the skin of the user, the microneedle structure 13 is able to penetrate perpendicularly into the skin of the user, thereby further reducing the area of the skin of the user that is exposed to the wound.

The number of the micro needle structures 13 is plural, and the plurality of micro needle structures 13 are distributed on the first surface 111 of the fixing plate 11 in an array. It can be understood that, when the cosmetic agent is used in a fixed amount, the more the number of the microneedle structures 13 made of the cosmetic agent is, the smaller the volume of each microneedle structure 13 is, and the reduction of the volume of the microneedle structure 13 can effectively reduce the wound area of the skin of the user; it can also be understood that, when the plurality of microneedle structures 13 are distributed on the first surface 111 of the fixing plate 11 in an array, the plurality of microneedle structures 13 are uniformly distributed, and the distances between the plurality of microneedle structures 13 are the same, so that the user experience is further optimized.

The microneedle structure 13 is disposed on the first surface 111 of the fixing plate 11, the insertion connection column 12 is connected to the second surface 112 of the fixing plate 11, the fixing plate 11 can be designed into a rectangular plate, a circular plate or other plate bodies, and different designs can be performed according to different use conditions, which is not specifically limited herein. It is understood that, according to different treatment sites, the first surface 111 may be designed to be a plane, a concave surface, a convex surface or other irregular surface, so that when the microneedle structure 13 is inserted into the corresponding site, the first surface 111 can be attached to the skin of the corresponding site, so that the microneedle structure 13 can be completely immersed into the skin of the user, thereby reducing the loss of the soluble high molecular polymer. In a specific embodiment, the fixing plate 11 may be made of an elastic material, so that the fixing plate 11 may be elastically deformed when being pressed, and thus the fixing plate 11 does not need to be designed into a specific shape, and when being pressed against the skin, the first surface 111 of the fixing plate 11 may be elastically deformed to effectively adhere to the skin of the user, thereby simplifying the processing process and reducing the loss of the soluble high molecular polymer.

The insertion column 12 is used to fix the fixing plate 11 and the microneedle structure 13 on the fixing plate 11 to the handheld portion 200, and the shape of the insertion column 12 includes, but is not limited to, a column shape, and may be any other shape as long as it can satisfy the connection fixing function, and is not specifically limited herein. It should be noted that, the inserting column 12 and the fixing plate 11 may be a split structure, and they may be bonded and fixed by an adhesive, may be fixed by a screw connection, and may also be fixed by a clamping structure, where a connection and fixing manner between the inserting column 12 and the fixing plate 11 is not specifically limited. It can be understood that the insertion post 12 and the fixing plate 11 can also be an integrated structure, and the insertion post 12 and the fixing plate 11 are integrally formed, so that the structural stability of the microneedle assembly 10 is further improved.

Referring to fig. 1 and 4, in one embodiment, the hand-held portion 200 includes a driving member 210 and a connecting member 220, one end of the connecting member 220 is inserted into the insertion column 12, the other end of the connecting member 220 is connected to the driving member 210, and the driving member 210 is used for driving the connecting member 220 to drive the microneedle assembly 10 to reciprocate along the extending direction of the needle tip 131.

In this embodiment, one end of the connecting member 220 is connected to the insertion column 12, and the other end is connected to the driving member 210, so that the driving member 210 is fixedly connected to the microneedle assembly 10, and the driving member 210 is used for providing a driving force to drive the microneedle assembly 10 to reciprocate along the extending direction of the needle tip 131, that is, to drive the microneedle assembly 10 to vibrate back and forth, so that the microneedle structure 13 can effectively penetrate into the skin of the user, and dissolve the cosmetic in the skin, so as to achieve a corresponding skin care effect.

Optionally, the driving member 210 may be a cam structure, and the flexible motion of the connecting member 220 is realized by using the principle of cam rotation, so as to drive the microneedle assembly 10 to vibrate back and forth;

optionally, the driving member 210 may also be a linear motor, and the linear motor drives the connecting member 220 to perform a linear telescopic motion, so as to drive the microneedle assembly 10 to vibrate back and forth.

It is understood that the types of the driving member 210 include, but are not limited to, the above two types, and may be any other driving device that meets the corresponding requirements, and is not limited specifically herein.

In a specific embodiment, the connector 220 may be omitted, and the insertion column 12 is directly and fixedly connected to the driving member 210, so that the driving member 210 directly drives the microneedle assembly 10 to perform a reciprocating motion to effectively penetrate the skin of the user, thereby implementing the function of injecting the cosmetic agent by the microneedles.

In one embodiment, the cosmetic handle 1000 includes a housing assembly 300, a first accommodating cavity 301 is formed in the housing assembly 300, the driving member 210 and the connecting member 220 are accommodated in the first accommodating cavity 301, the microneedle structure 13 and the fixing plate 11 of the microneedle assembly 10 are disposed outside the housing assembly 300, and the insertion column 12 extends into the first accommodating cavity 301 from outside the housing assembly 300 and is inserted into the connecting member 220. It is understood that the fixing plate 11 and the microneedle structure 13 on the fixing plate 11 are disposed outside the housing assembly 300 so as to be in contact with the skin of the user to perform a microneedle injection function; the driving element 210 and the connecting element 220 are accommodated in the housing assembly 300, so that the housing assembly 300 can effectively protect the driving element 210 and the connecting element 220 from structural damage; one end of the insertion column 12 is connected to the fixing plate 11, and the other end extends out of the housing assembly 300 into the first accommodating cavity 301 and is inserted into the connector 220, so that the driving member 210 can effectively drive the microneedle assembly 10.

In one embodiment, the housing assembly 300 includes a first housing 310 and a second housing 320 covering the first housing 310, the first housing 310 and the second housing 320 enclose and form a first accommodating cavity 301, the second housing 320 includes a connection end surface 321, the connection end surface 321 is located on one side of the second housing 320 departing from the first housing 310, the fixing plate 11 is located on one side of the connection end surface 321 departing from the second housing 320, the fixing plate 11 and the connection end surface 321 are arranged at an interval, the microneedle structure 13 is located on the surface of the fixing plate 11 departing from the connection end surface 321, the connection end surface 321 is provided with a first through hole 101 penetrating through the connection end surface 321, the insertion post 12 penetrates through the first through hole 101 and is inserted into the connecting element 220.

In this embodiment, the connection terminal surface 321 is the terminal surface that the second casing 320 deviates from the first casing 310, when the user holds the handheld portion 200, the connection terminal surface 321 can face the skin of the user, the fixing plate 11 and the microneedle structure 13 are arranged on the side where the connection terminal surface 321 deviates from the handheld portion 200, and the microneedle structure 13 is arranged on the surface where the fixing plate 11 deviates from the connection terminal surface 321, so that the microneedle structure 13 contacts with the skin of the user, thereby realizing the microneedle injection function, the insertion column 12 passes through the connection terminal surface 321 and the driving member 210 fixed connection, so as to realize the driving function of the microneedle assembly 10.

The first housing 310 and the second housing 320 may be assembled by screwing or clipping, or may be integrally formed. Optionally, first casing 310 and second casing 320 are assembled through the joint mode of buckle block and are formed, and casing assembly 300 is split type structure promptly, and casing assembly 300 can split into first casing 310 and second casing 320, when overhauing the internal component of cosmetic handle 1000, only need with first casing 310 and second casing 320 separation can, the operation is comparatively convenient and can not cause the damage to casing assembly 300's structure. Moreover, when the cosmetic handle 1000 is used, the shell assembly 300 is easily damaged, the first shell 310 can be replaced in time when the damaged point is on the first shell 310, the second shell 320 can be replaced in time when the damaged point is on the second shell 320, the use of the cosmetic handle 1000 is not affected after the replacement, the fault tolerance of the cosmetic handle 1000 is improved, only a part of the shell assembly 300 needs to be replaced instead of the whole shell assembly 300, and the maintenance cost is further reduced.

In this embodiment, the connection end face 321 is provided with a first through hole 101 penetrating through the connection end face 321, and the shape of the first through hole 101 matches the shape of the plugging column 12, so that the plugging column 12 can pass through the first through hole 101 and be connected to the connection member 220, where the shape and size of the first through hole 101 are not specifically limited.

Referring to fig. 5, in an embodiment, a sealing portion 322 is further protruded from an inner surface of the first through hole 101, and the sealing portion 322 is used for limiting the connecting member 220 from reciprocating in a fixed direction. It will be appreciated that when the driving member 210 drives the microneedle assembly 10 to reciprocate, a certain offset may occur during the motion, so that the microneedle structure 13 does not move in the set direction, and thus the wound area on the skin of the user is increased during the microneedle injection. Therefore, the sealing part 322 can be convexly arranged on the inner surface of the first through hole 101, and the size of the sealing part 322 is matched with that of the insertion column 12, so that when the insertion column 12 reciprocates in the first through hole 101, the sealing part 322 can limit the movement direction of the insertion column 12, thereby ensuring that the movement direction of the microneedle assembly 10 is kept stable, reducing the wound area of the skin of a user, and optimizing the experience effect of the user.

Referring to fig. 6, in an embodiment, the connecting end face 321 is further provided with a roller 323, a wheel face 324 of the roller 323 contacts with the skin of the user, and the roller 323 rolls on the skin surface of the user to lift the skin of the user. It will be appreciated that the presence of the roller 323 allows the roller 323 to be used to roll on the skin surface of the user before, after, and during the microneedle injection process, with the tread 324 of the roller 323 contacting the skin of the user to provide a tight lifting function to the skin of the user. In one embodiment, the connecting end surface 321 may be perforated to embed the roller 323 into the connecting end surface 321, the roller 323 is spaced apart from the microneedle assembly 10, and the roller 323 can roll against the connecting end surface 321.

Referring to fig. 4 and fig. 7, in an embodiment, the beauty handle 1000 further includes a main circuit board 400 and a power source 410 disposed on the main circuit board 400, the main circuit board 400 is received in the first receiving cavity 301, and the power source 410 is electrically connected to the driving member 210 to supply power to the driving member 210.

It will be appreciated that the power source 410 is provided on the main circuit board 400 within the housing assembly 300 and the driver 210 is electrically connected to the main circuit board 400 such that the power source 410 provides power to the driver 210 through the circuitry on the main circuit board 400 for a corresponding power application. Specifically, the handle 1000 further includes a plurality of cables (not shown), one ends of the cables are welded to the main circuit board 400, and the other ends of the cables are welded to the driving member 210, so as to meet the power supply requirement.

Optionally, a power interface 440 may be disposed at the rear end of the housing assembly 300, and an external power source 410 may be connected to the circuit on the main circuit board 400 through the power interface 440, so as to supply power to the driving member 210.

It can be understood that the housing assembly 300 is further provided with a first button 411, and the first button 411 is connected to the main circuit board 400, so that a user can control the power supply or the power failure of the power supply 410 by pressing the first button 411, and further control the opening or closing of the beauty treatment handle 1000.

In one embodiment, the main circuit board 400 is further provided with a control assembly 420, the control assembly 420 is electrically connected to the main circuit board 400, and the control assembly 420 is used for controlling the power supplied by the power source 410 to the driving member 210 so as to control the driving power of the driving member 210 and further regulate the reciprocating speed of the microneedle assembly 10.

It is understood that the housing assembly 300 is further provided with a second button 421, and the second button 421 is connected to the control assembly 420, so that the user can control the driving power of the driving member 210 by pressing the second button 421, and further regulate the reciprocating motion rate of the microneedle assembly 10. Specifically, the driving power of the driving member 210 can be divided into a plurality of gears, and by pressing the second button 421, the control component 420 controls the driving member 210 to reach the corresponding driving power, so that the microneedle assembly 10 reciprocates at the corresponding motion rate.

It should be noted that, a display lamp 430 is further disposed on the main circuit board 400, a display window 431 corresponding to the display lamp 430 is disposed on the housing assembly 300, and when the driving power of the driving member 210 is located at different gear positions, the corresponding display lamp 430 emits light, so that the user can observe the control switching of the beauty treatment handle 1000 in time.

Referring to fig. 8 and 9, in one embodiment, the head 100 of the handle 1000 further comprises a radio frequency assembly 20, and the radio frequency assembly 20 is used for introducing micro-current or/and radio frequency current to the skin of the user. It can be understood that the resonance generated by the electric energy and the human body can stimulate the rearrangement of cell molecules, achieve the functions of balancing cells and regulating metabolism, and simultaneously can effectively reduce the side effect of the medicine on the body and improve the immunity of the human body.

In one embodiment, the radio frequency assembly 20 includes a connecting housing 21 and a conductive portion 22, the connecting housing 21 is disposed on a side of the connecting end face 321 away from the second housing 320, the connecting housing 21 is detachably connected to the connecting end face 321, a second accommodating cavity 201 (not shown) is disposed in the connecting housing 21, when the housing is connected to the connecting end face 321, the fixing plate 11 and the microneedle structure 13 are accommodated in the second accommodating cavity 201, the conductive portion 22 is disposed on a side of the connecting housing 21 away from the connecting end face 321, and the conductive portion 22 is configured to contact with the skin of the user and introduce a micro current or/and a radio frequency current into the skin of the user.

In the embodiment, since the connection housing 21 of the radio frequency assembly 20 is detachably connected to the connection end face 321, and the second accommodating cavity 201 accommodates the fixing plate 11 and the microneedle structure 13, the beauty handle 1000 provided by the embodiment of the present application can be conveniently switched between the microneedle injection function and the electrotherapy function without affecting each other. When the microneedle injection function is needed to inject the cosmetic into the skin of the user, the radio frequency assembly 20 can be detached from the connection end face 321, part of the microneedle assembly 10 is used to pierce the skin of the user, and the cosmetic made of the soluble high molecular polymer is released in the skin; when the radio frequency assembly 20 is needed to perform electrotherapy treatment on the skin of a user, the radio frequency assembly 20 can be installed on the connecting end face 321, and the radio frequency assembly 20 is used for contacting the skin of the user and introducing micro-current or/and radio frequency current to the skin of the user so as to achieve electrotherapy treatment effect.

The detachable connection between the connection housing 21 and the connection end face 321 of the radio frequency module 20 is multiple, including but not limited to a clamping connection, a latch connection, a magnetic attraction connection or a rotation locking connection, and may also be any detachable connection that satisfies the corresponding functional requirements, which is not repeated here.

Referring to fig. 9, in an embodiment, the beauty treatment handle 1000 further includes a phototherapy assembly 30, and the phototherapy assembly 30 is used for emitting light for caring the skin of the user.

In the embodiment, the phototherapy component 30 is disposed in the housing component 300, the phototherapy component 30 includes a plurality of lamp beads 31 and a second circuit board 32, the second circuit board 32 is fixedly connected to the second housing 320, the second circuit board 32 is opposite to the connection end face 321, the plurality of lamp beads 31 are disposed on the surface of the second circuit board 32 facing the connection end face 321 and electrically connected to the second circuit board 32, and a circuit on the second circuit board 32 supplies power to the plurality of lamp beads 31, so that the plurality of lamp beads 31 emit light rays for caring the skin of the user.

It can be understood that the second circuit board 32 simultaneously performs the functions of carrying and supplying power to the lamp bead 31, and the second circuit board 32 is fixedly connected to the inner surface of the second casing 320. It should be noted that, in order to make the light that lamp pearl 31 sent can jet out through connection terminal surface 321, and possess better phototherapy effect, lamp pearl 31 on second circuit board 32 and the second circuit board 32 should be located the position that is close to connection terminal surface 321, consequently, still need set up on the second circuit board 32 and cross a hole 33, make the peg graft post 12 of micropin subassembly 10 can pass a hole 33, thereby effectively avoid the second circuit board 32 to the blockking of micropin subassembly 10, the function of micropin subassembly 10 and phototherapy subassembly 30 has been guaranteed simultaneously is normal.

Wherein, a plurality of lamp pearls 31 are arranged around through-hole circumference equidistance on the second circuit board 32 to make the light that phototherapy subassembly 30 jetted out more even, more be favorable to promoting the effect that phototherapy was protected skin. The lamp beads 31 are LEDs (Light Emitting diodes), and the lamp beads 31 can convert emitted Light energy into energy in cells, accelerate the cell growth process cycle, stimulate fibroblasts to produce collagen, and do not cause any damage and discomfort to the skin. The plurality of lamp beads 31 can emit light rays with the same color and also can emit light rays with various colors, and the plurality of lamp beads 31 can emit any one or combination of a plurality of kinds of light rays with various colors such as red light, blue light, yellow light and the like. A plurality of lamp pearls 31 in phototherapy subassembly 30 include at least one red light that sends red light, at least one blue light that sends blue light, at least one yellow light that sends yellow light to lamp pearls 31 that send different colours light set up in turn in an interlaced manner.

Optionally, the lamp bead 31 may emit red light, and the red light is emitted through the head 100 and irradiates the skin of the user. The red light emitted by the lamp beads 31 can improve the activity of skin cells and promote the metabolism of the skin cells, and the red light can also improve fine wrinkles and prevent the skin from drooping and removing the wrinkles; specifically, the wavelength of red light is 620nm to 660 nm. The wavelength of red light may be 630nm, 632nm, 635nm, 637nm, 640nm, 643nm, 647nm or 650 nm. Preferably, the wavelength of red light is 630 nm. The red light wave in the wavelength range can stimulate the blood flow of the skin, promote the growth of collagen, stimulate the activity of cells, promote the regeneration and growth, and achieve the effects of whitening, tendering the skin and repairing the skin injury.

Optionally, the lamp bead 31 can emit blue light, and the blue light is emitted through the head 100 and irradiates the skin of the user. Blue light emitted by the lamp beads 31 can kill bacteria on the skin to inhibit the breeding of the bacteria, and the blue light can improve the effects of diminishing inflammation and removing acne of sebum and shrinking pores; specifically, the wavelength of the blue light is 450nm to 490nm, and specifically, the wavelength of the blue light may be specifically 450nm, 460nm, 467nm, 480nm, 485nm, or 490 nm. Preferably, the wavelength of the blue light is 470 nm. Wherein, the blue light wave in the wavelength range has the effects of calming and diminishing inflammation and can inhibit the breeding of bacteria.

Optionally, the lamp bead 31 may emit yellow light, which exits through the head 100 and illuminates the skin of the user. The yellow light emitted by the lamp beads 31 can improve the effects of dark yellow skin and removing freckles. Specifically, the yellow light has a wavelength of 567nm-607nm, and the yellow light also has a wavelength of 577nm, 580nm, 581nm, 585nm, 588nm, 590nm, 595nm, or 597 nm. Preferably, the yellow light has a wavelength of 590 nm. The yellow light wave in the wavelength range has the function of improving the exchange rate of cell nutrients, and also has the functions of supplementing energy to the skin of a human body part and improving the roughness of the skin.

By adopting the beauty handle 1000 provided by the embodiment of the application, when the micro-needle assembly 10 or the radio frequency assembly 20 is in contact with the skin for skin care, the phototherapy assembly 30 can further play a role of skin care and beauty, and the integrated design of the phototherapy assembly 30, the micro-needle assembly 10 and the radio frequency assembly 20 can effectively realize multifunctional skin care, so that the use experience of a user is improved.

It will also be understood by those skilled in the art that if all or some of the components of cosmetic handpiece 1000 of the present application are combined by fusing, physical connection, etc., the components in cosmetic handpiece 1000 move positions; or integrally provided; or a detachable design; and the replacement of the quantity of the characteristics and the change of the characteristics and the shapes of the characteristics used without functions, all the combined components can form equipment/devices with specific functions, and the replacement of the corresponding components of the utility model by the equipment/devices also falls into the protection scope of the utility model.

Compared with the prior art, the cosmetic handle 1000 of this application has following advantage:

1. the micro-needle structure 13 is formed by curing the soluble high-molecular polymer, so that the micro-needle structure has certain structural strength, and can be effectively penetrated into the skin of a user, and after the micro-needle structure 13 made of the soluble high-molecular polymer is penetrated into the skin of the user, the micro-needle structure 13 can be dissolved by blood or body fluid, so that the soluble high-molecular polymer has a nursing effect on the skin of the user. Compared with the traditional mode of injecting the cosmetic agent through the injection needle, the microneedle injection technology can effectively reduce the skin wound of a user, so that the skin of the user is prevented from being damaged.

2. The micro-needle structure 13 is made of hyaluronic acid, the hyaluronic acid is injected into the skin of a user, the nutrition metabolism of the skin can be improved, the skin becomes tender and smooth, and the open-chain hyaluronic acid has the effects of removing wrinkles and increasing the elasticity of the skin.

3. A plurality of micropin structures 13 are array distribution in the first surface 111 of fixed plate 11, and the reduction of micropin structure 13 volume can effectively reduce the area of being wounded of user's skin, and a plurality of micropin structures 13 distribute evenly, and the interval between a plurality of micropin structures 13 is the same, has further optimized the user and has used experience.

4. The beauty handle 1000 can be provided with the microneedle assembly 10, the radio frequency assembly 20 and the phototherapy assembly 30 at the same time, a part of the microneedle assembly 10 is used for penetrating into the skin of a user and releasing the soluble high molecular polymer, the radio frequency assembly 20 is used for introducing micro-current or/and radio frequency current into the skin of the user, the phototherapy assembly 30 is used for emitting light for nursing the skin of the user, and the combined action of the microneedle assembly 10, the radio frequency assembly 20 and the phototherapy assembly 30 enables the beauty handle 1000 to have multiple skin care functions such as microneedle injection, electrotherapy and phototherapy.

5. The roller 323 is arranged, so that the roller 323 can be used to roll on the surface of the skin of the user before, after and during the process of microneedle injection, and the wheel face 324 of the roller 323 is in contact with the skin of the user to perform the function of tightly lifting the skin of the user.

The foregoing is an implementation of the embodiments of the present application, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the principle of the embodiments of the present application, and these modifications and decorations are also regarded as the protection scope of the present application.

Claims (14)

1. The utility model provides a cosmetic handle, its characterized in that, cosmetic handle include the head and with the handheld portion that the head is connected, the head is equipped with the micropin subassembly, the micropin subassembly includes fixed plate, grafting post and a plurality of micropin structure, each the micropin structure is made by soluble high molecular polymer, and is a plurality of micropin structure array arrange in the fixed plate, the micropin structure is used for pricking in the user's skin, so that soluble high molecular polymer dissolves in the user's skin, the grafting post connect in the fixed plate and with handheld portion pegs graft.

2. The cosmetic handle according to claim 1, wherein the fixing plate comprises a first surface and a second surface opposite to each other, the insertion post is connected to the second surface, the microneedle structure comprises a needle tip and a fixed end, the fixed end is connected to the first surface, the needle tip is perpendicular to the first surface and extends in a direction away from the first surface, and the microneedle structure penetrates into the skin of the user through the needle tip.

3. The cosmetic handle according to claim 1, wherein the soluble high molecular polymer of which the microneedle structure is made is hyaluronic acid.

4. The cosmetic handle according to claim 2, wherein the handle comprises a driving member and a connecting member, one end of the connecting member is connected to the insertion column, the other end of the connecting member is connected to the driving member, and the driving member is configured to drive the connecting member to drive the microneedle assembly to reciprocate along the extending direction of the needle tip.

5. The cosmetic handle according to claim 4, wherein the cosmetic handle comprises a housing assembly, a first accommodating cavity is formed in the housing assembly, the driving member and the connecting member are accommodated in the first accommodating cavity, the microneedle structure and the fixing plate of the microneedle assembly are arranged outside the housing assembly, and the insertion column extends into the first accommodating cavity from outside the housing assembly and is inserted into the connecting member.

6. The cosmetic handle according to claim 5, wherein the housing assembly includes a first housing and a second housing covering the first housing, the first housing and the second housing enclose the first accommodating cavity, the second housing includes a connection end surface, the connection end surface is located on a side of the second housing facing away from the first housing, the fixing plate is located on a side of the connection end surface facing away from the second housing, the fixing plate and the connection end surface are arranged at an interval, the microneedle structure is located on a surface of the fixing plate facing away from the connection end surface, a first through hole penetrating through the connection end surface is arranged on the connection end surface, and the insertion connection pillar penetrates through the first through hole and is inserted into the connecting piece.

7. The cosmetic handle according to claim 6, wherein the inner surface of the first through hole is further convexly provided with a sealing portion for restricting the connecting member from reciprocating in a fixed direction.

8. The cosmetic handle according to claim 6 wherein the connecting end surface is further provided with a roller, the roller surface of the roller being in contact with the skin of the user, the roller rolling on the skin surface of the user to lift the skin of the user.

9. The cosmetic handle according to claim 6, further comprising a main circuit board and a power supply disposed on the main circuit board, wherein the main circuit board is received in the first receiving cavity, and the power supply is electrically connected to the driving member to supply power to the driving member.

10. The cosmetic handle according to claim 9, wherein the main circuit board is further provided with a control component, the control component is electrically connected with the main circuit board, and the control component is used for controlling the power supply of the power supply to the driving member so as to control the driving power of the driving member and further regulate and control the reciprocating motion rate of the microneedle assembly.

11. The cosmetic handle according to claim 6, wherein the head of the cosmetic handle is further provided with a radiofrequency assembly for introducing a micro-current or/and a radiofrequency current to the skin of a user.

12. The cosmetic handle according to claim 11, wherein the radio frequency assembly includes a connecting housing and a conductive portion, the connecting housing is disposed on a side of the connecting end surface away from the second housing, the connecting housing is detachably connected to the connecting end surface, a second accommodating cavity is disposed in the connecting housing, when the housing is connected to the connecting end surface, the fixing plate and the microneedle structure are accommodated in the second accommodating cavity, the conductive portion is disposed on a side of the connecting housing away from the connecting end surface, and the conductive portion is configured to contact with the skin of the user and introduce micro-current or/and radio frequency current to the skin of the user.

13. The cosmetic handle according to claim 6, wherein the head of the cosmetic handle is further provided with a phototherapy assembly to emit light for treatment of the skin of the user.

14. The cosmetic handle of claim 13, characterized in that phototherapy subassembly is located in the casing subassembly, phototherapy subassembly includes a plurality of lamp pearls and second circuit board, second circuit board rigid coupling in the second casing, and the second circuit board just right connect the terminal surface, and is a plurality of the lamp pearl is located the second circuit board orientation connect on the surface of terminal surface and with the second circuit board electricity is connected, circuit on the second circuit board is a plurality of the lamp pearl power supply to it is a plurality of to make a plurality of the lamp pearl emergence carries out the light of nursing to user's skin.

Images