CN211658965U - Atomizing handle mechanism - Google Patents

Abstract

The utility model relates to an atomizing handle mechanism. The atomization handle mechanism comprises an atomization handle structure and an ion atomization structure arranged on the atomization handle structure; the atomizing handle structure comprises an atomizing handle barrel, a water storage cup connected to one end of the atomizing handle barrel, and a mist outlet head arranged at the other end of the atomizing handle barrel; the atomizing handle barrel comprises an atomizing main barrel body, a mist outlet connecting part connected to one end of the atomizing main barrel body and a water cup connecting part connected to the other end of the atomizing main barrel body, the water storage cup is detachably connected to the water cup connecting part, and the mist outlet head is connected to the mist outlet connecting part; the ion atomization structure comprises an atomization ultrasonic generator arranged in the atomization handle barrel, an atomization ultrasonic oscillation wafer connected with the atomization ultrasonic generator and extending into the water cup connecting part, and an ion generator corresponding to the mist outlet head. The utility model discloses can make the permeability of water smoke better, convenient operation, it is better to the moisturizing effect of skin, can also realize multiple functions.

Description

Atomizing handle mechanism

Technical Field

The utility model relates to a beauty equipment technical field especially relates to an atomizing handle mechanism.

Background

In the field of beauty treatment technology, beauty equipment such as radio frequency beauty instruments, optical beauty instruments, ultrasonic beauty instruments and the like can be applied to beauty treatment of skin and treatment of skin diseases. When these beauty devices are used to manipulate the skin, the skin is heated and the water is lost. In order to replenish the skin with moisture to achieve moisturization of the skin, water is sprayed onto the skin. In conventional techniques, moisturizing sprays are typically used to moisturize the skin. However, the water mist generated by the water replenishing way has large particles, poor permeability to skin and poor water replenishing effect; moreover, the water replenishing mode has a single function and only can replenish water to the skin; in addition, the water replenishing mode is inconvenient to operate and high in cost.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model provides an atomizing handle mechanism can make the permeability of water smoke better, and convenient operation is better to the moisturizing effect of skin, can also realize multiple functions.

In order to achieve the above object, the utility model provides a following technical scheme:

an atomization handle mechanism comprises an atomization handle structure and an ion atomization structure arranged on the atomization handle structure;

the atomizing handle structure comprises an atomizing handle barrel, a water storage cup detachably connected to one end of the atomizing handle barrel, and a mist outlet head arranged at the other end of the atomizing handle barrel;

the atomizing handle barrel comprises a gradually-changed cylindrical atomizing main barrel body, a disc-shaped mist outlet connecting part detachably connected to one end of the atomizing main barrel body and a water cup connecting part detachably connected to the other end of the atomizing main barrel body, the water storage cup is detachably connected to the water cup connecting part, and the mist outlet head is detachably connected to the mist outlet connecting part;

the ion atomization structure comprises an atomization ultrasonic generator arranged in the atomization handle barrel, an atomization ultrasonic oscillation wafer connected with the atomization ultrasonic generator and extending into the water cup connecting part, and an ion generator arranged in the atomization connecting part or the atomization main barrel and corresponding to the fog outlet head.

Optionally, the diameter of the atomizing main cylinder body gradually increases from the water cup connecting part to the mist outlet connecting part, and then gradually decreases, and a cylinder neck part is connected between the atomizing main cylinder body and the mist outlet connecting part in a smooth transition manner;

the diameter of a neck portion is less than the diameter of the main atomizing barrel, and the diameter of the main atomizing barrel is less than the diameter of the mist outlet connecting portion.

Optionally, the water cup connecting part comprises a cylinder connecting sleeve sleeved with the atomization main cylinder and a cup body connecting sleeve connected with the cylinder connecting sleeve;

the cup body connecting sleeve comprises a cup body connecting outer sleeve body and a cup body connecting inner sleeve body, wherein the cup body connecting outer sleeve body is sleeved with the barrel body connecting sleeve, the cup body connecting inner sleeve body is clamped in the cup body connecting outer sleeve body, a cup body clamping groove is formed between the cup body connecting outer sleeve body and the cup body connecting inner sleeve body, and a port of the water storage cup is clamped in the cup body clamping groove.

Optionally, the cup body connecting outer sleeve comprises an outer sleeve body sleeved on the sleeve body connecting sleeve, and a first annular boss protruding from the inner wall surface of the outer sleeve body;

the cup body is connected with the inner sleeve body and comprises an inner sleeve body main body and a second annular boss protruding out of the end part of the inner sleeve body main body, the second annular boss is clamped at the top of the first annular boss, the inner sleeve body main body penetrates through and is located in the inner cavity of the outer sleeve body main body, and the inner cavity of the inner sleeve body main body is communicated with the inner cavity of the water storage cup.

Optionally, the tip of barrel adapter sleeve seted up with the atomizing mouth of atomizing main barrel inner chamber intercommunication, barrel adapter sleeve, outer sleeve body the enclose between the first cyclic annular boss and establish and be formed with the intercommunication the atomizing mouth with the atomizing chamber of the inner chamber of interior sleeve body main part, atomizing ultrasonic vibration wafer is located in the atomizing chamber.

Optionally, the mist outlet head comprises a fixing seat detachably arranged on the mist outlet connecting portion, and a mist outlet disc arranged on the fixing seat, and a mist outlet communicated with the inner cavity of the main atomizing cylinder is formed in the mist outlet disc.

Optionally, a fog head mounting groove is formed in the end portion of the fog outlet connecting portion, the fixing seat is embedded in the fog head mounting groove, and the end face of the fixing seat and the end face of the fog outlet disc are aligned to the end face of the fog outlet connecting portion.

Optionally, the fixing seat includes a main seat body embedded in the mist head mounting groove, and a connection pipe barrel protruding from an inner side end of the main seat body and extending into an inner cavity of the main atomizing barrel, and the ion generator is disposed on the connection pipe barrel or between the main seat body and the mist outlet tray.

Optionally, the atomization handle structure further comprises an atomization inlet pipe arranged on the side surface of the atomization main cylinder;

the atomizing inlet wire pipe is including inlaying and locating interior spool in the main barrel lateral wall of atomizing to and the cover is located interior spool outside the pipe, the terminal surface of outer spool with the lateral surface of the main barrel of atomizing supports tightly.

Optionally, the atomizing device further comprises an oxygen pipe communicated with the inner cavity of the atomizing main cylinder, and the oxygen pipe is connected with an external oxygen generator.

The utility model provides an among the technical scheme, through locating the ion atomization structure on the atomizing handle section of thick bamboo, can atomize in order to form the super little spraying to the water liquid in the water storage cup to spout the skin surface from the fog outlet with spraying, so that skin absorbs moisture. In addition, the spray can be ionized simultaneously, so that the spray activity can be enhanced, and the skin beautifying effect can be further enhanced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic perspective view of a beauty instrument according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an exploded structure of a beauty instrument host device according to an embodiment of the present invention;

fig. 3 is a schematic sketch of a three-dimensional structure of an atomizing handle mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an exploded structure of an atomizing handle mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a three-dimensional structure of an ultrasonic handle mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of an exploded structure of an ultrasonic handle mechanism according to an embodiment of the present invention;

fig. 7 is a schematic diagram of a three-dimensional structure of a double-ended rf handle mechanism according to an embodiment of the present invention;

fig. 8 is a schematic diagram of an exploded structure of the double-ended rf handle mechanism according to the embodiment of the present invention;

fig. 9 is a schematic diagram of a three-dimensional structure of a four-head rf handle mechanism according to an embodiment of the present invention;

fig. 10 is a schematic diagram of an exploded structure of a four-headed rf handle mechanism according to an embodiment of the present invention;

fig. 11 is a schematic diagram of a three-dimensional structure of an atomization beauty device according to an embodiment of the present invention;

fig. 12 is a schematic diagram of a three-dimensional structure of an ultrasonic beauty apparatus according to an embodiment of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				20	Beauty treatment handle mechanism	100	Beauty instrument host equipment
110	Chassis bottom plate	120	Casing of machine case
				122	Partition board	130	Touch control screen
140	Main controller	150	Radio frequency generating device
				160	Ultrasonic wave generator	170	Light source controller
180	Oxygen-generating device	200	Atomizing handle mechanism
				210	Atomizing handle barrel	212	Atomizing main cylinder
214	Mist outlet connecting part	220	Mist outlet head
				222	Fixed seat	224	Fog outlet disc
230	Cup connecting part	232	Cylinder connecting sleeve
				234	Cup body connecting inner sleeve body	236	Cup body connecting outer sleeve
240	Atomization inlet pipe	242	Inner wire tube
				244	Outer wire tube	250	Ion atomization structure
300	Ultrasonic handle mechanism	310	Sound wave handle tube
				312	Sound wave main cylinder	314	Acoustic wave head connecting sleeve
320	Sound wave threading pipe	330	Red and blue light lamp structure
				332	Transmitting head sleeve	334	Transmitting head light-transmitting cover
340	Sound wave generating structure	342	Metal resonance sheet
				350	Switch button	700，800	Double-end radio frequency handle mechanism
710，810	Radio frequency handle tube	712，812	Radio frequency main barrel
				714，814	Radio frequency threading pipe part	716，816	Radio frequency connection sleeve part
720，820	Radio frequency treatment head structure	722，822	Radio frequency connection end cover
				724，824	Radio frequency probe mounting hole

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front, back, top and bottom … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 2, the present invention provides a beauty apparatus, which includes a beauty apparatus main body device 100 and a beauty handle mechanism 20 engaged with the beauty apparatus main body device 100. Thus, various optical, acoustic and radio frequency instruments can be installed in the beauty instrument main unit 100, and then the beauty handle mechanism 20 can be operated to the skin. Also, a plurality of beauty treatment handle mechanisms 20 may be configured as necessary to perform different beauty treatment operations.

Specifically, the beauty instrument main unit 100 may include a main unit housing, a main controller 140 disposed in the main unit housing, and at least one of a radio frequency generator 150, an ultrasonic wave generator 160, and an oxygen generator 180 disposed in the main unit housing and connected to the main controller 140. At least one of the radio frequency generator 150, the ultrasonic generator 160, the oxygen generator 180, etc. can be integrated into a host case to form a multifunctional beauty instrument host equipment 100, which can simultaneously have at least one of the radio frequency beauty function, the ultrasonic beauty function, and the oxygen beauty function, and has the advantages of multiple functions, wide application range, and low overall cost. The main controller 140 can control the radio frequency generator 150, the ultrasonic wave generator 160, and the oxygen generator 180 so as to operate normally.

Moreover, the mainframe box may include a box housing 120, a plurality of partitions 122 disposed in the box housing 120, a touch control panel 130 disposed on the top of the box housing 120 and connected to the main controller 140, and the rf generator 150, the ultrasonic generator 160, and the oxygen generator 180 may be disposed on the partitions 122, respectively. By arranging the plurality of layers of partition plates 122 in the case shell 120, the case cavity in the case shell 120 can be divided into a plurality of layers of sub-cavities, so that the radio frequency generating device 150, the ultrasonic wave generating device 160, the oxygen generating device 180 and other devices can be respectively arranged in the plurality of layers of sub-cavities, the devices can be integrated together and can be mutually independent, and the modularized arrangement of the devices can be realized. In addition, the touch control screen 130 is arranged on the top of the case shell 120, so that the visual operation control can be directly carried out on the beauty instrument main unit device 100 from the case shell 120, and the operation control is simple and convenient.

Further, the mainframe box may include a bottom plate 110, and a plurality of supporting pulleys disposed at the bottom of the bottom plate 110, and the casing housing 120 is disposed at the top of the bottom plate 110. The chassis base 110 provides support for the chassis housing 120 and various pieces of equipment disposed in the chassis housing 120, and the entire apparatus is pushed to move by support pulleys provided on the bottom of the chassis base 110. Moreover, in order to facilitate pushing the whole device to move, an arc push rod can be arranged on the rear side of the top of the case shell 120, and the arrangement of the touch control screen 130 on the front side of the top of the case shell 120 is not influenced. In addition, the touch control screen 130 may be disposed obliquely on the top front side of the cabinet housing 120 for convenience of installation and operation.

Moreover, the side plates on the two sides of the case housing 120 are respectively provided with a plurality of case heat dissipation holes, the case housing 120 is provided with case heat dissipation channels communicated with the case heat dissipation holes on the two sides, and the host case comprises case heat dissipation fans arranged in the case heat dissipation channels of the case housing 120. By providing the chassis heat dissipation fan in the chassis housing 120, the inside of the entire chassis housing 120 can be dissipated using the chassis heat dissipation passage, and thus each device in the chassis housing 120 can be dissipated to ensure the normal operation of each device.

Furthermore, the rf generator 150 may include an rf controller disposed on one of the partitions 122, and an rf generator connected to the rf controller, and the rf controller is connected to the main controller 140. The rf controller can be controlled by the main controller 140, and the rf controller can control the rf generator to operate to emit rf signals. Moreover, the rf generator may include a first rf generator and a second rf generator disposed on the partition plate 122, both of which are connected to the main controller 140 and the rf controller, and the power of the first rf generator may be greater than or less than that of the second rf generator. That is, the rf generator 150 may include two or more rf generators, and may emit rf signals with different powers, as required, to meet different rf signal usage requirements. For example, the rf generator may include two rf generators, a first rf generator and a second rf generator, which may respectively generate two rf signals with different powers. Moreover, the two rf generators may be disposed on one partition plate 122 (i.e., in one sub-chamber), or may be disposed on two partition plates 122 (i.e., in two sub-chambers), respectively. In addition, the two rf generators may be connected to one rf controller (i.e., controlled by one rf controller in a unified manner), or may be connected to two rf controllers respectively (i.e., controlled by two rf controllers respectively).

Further, the ultrasonic wave generating device 160 may include an ultrasonic wave controller provided on the other of the partition plates 122, and an ultrasonic wave generator connected to the ultrasonic wave controller, the ultrasonic wave controller being connected to the main controller 140. That is, the ultrasonic controller is controlled by the main controller 140, and the ultrasonic generator can be controlled by the ultrasonic controller to operate to send out an ultrasonic signal. Moreover, the ultrasonic generator can also comprise a first ultrasonic generator and a second ultrasonic generator, the first ultrasonic generator and the second ultrasonic generator can be connected with the main controller and the ultrasonic controller, and the power of the first ultrasonic generator is greater than or less than that of the second ultrasonic generator. Similarly, the ultrasonic generator 160 may also include two or more ultrasonic generators as required, and may emit ultrasonic signals with different powers to meet different ultrasonic signal use requirements. For example, the ultrasonic generator may include two radio frequency generators, a first ultrasonic generator and a second ultrasonic generator, which may respectively generate two ultrasonic signals with different powers. Also, the two ultrasonic generators may be provided on one partition plate 122 (i.e., in one sub-chamber), or may be provided on two partition plates 122, respectively (i.e., in two sub-chambers). In addition, the two ultrasonic generators can be connected with one ultrasonic controller (i.e. controlled by one ultrasonic controller in a unified way) or can be respectively connected with the two ultrasonic controllers (i.e. controlled by the two ultrasonic controllers respectively).

In addition, the oxygen generator 180 may include an oxygen generator controller disposed on the other partition plate 122 (or the bottom plate 110 of the cabinet), and an oxygen generator connected to the oxygen generator controller, wherein the oxygen generator controller is connected to the main controller. The oxygen making controller can be controlled by the main controller, and the oxygen making controller can control the oxygen making machine to work, so that the oxygen making machine can make oxygen to obtain oxygen.

In addition, the beauty instrument main unit 100 may further include a power module disposed on another partition plate 122, and the power module is electrically connected to the main controller 140, the rf controller, the ultrasonic controller, the oxygen generator controller, and the like. By arranging the power supply module, power can be supplied to each instrument device in the host computer case. Moreover, different power supply modules can be arranged according to requirements to supply power to different instruments and equipment respectively.

In addition, the beauty instrument main body device 100 may further include a light source controller 170 provided on another partition plate 122 (or the chassis base plate 110 or the chassis housing 120), and the light source controller 170 is electrically connected to the main controller 140. The main controller 140 may control the light source controller 170, and the light source controller 170 may control the light emitted from the external light emitting lamps, and may also adjust parameters such as power and brightness of the light emitting lamps to meet different usage requirements. Specifically, the light source controller 170 may include a red-blue light controller, an ultraviolet light controller, a yellow light controller, and the like, which are disposed on the partition plate 122. The red and blue light controller can control the red and blue light lamp to emit light, the ultraviolet light controller can control the ultraviolet light lamp to emit light, and the yellow light controller can control the yellow light lamp to emit light, etc. In addition, the light source controller 170 may further include other light controllers for controlling the lights of other colors.

In addition, the mainframe box may further include a plurality of handle holders disposed on both sides of the top of the box housing 120, and each handle holder may be correspondingly disposed with one beauty-care handle mechanism 20. Furthermore, the back side of the main body case may be provided with a plurality of interface ports through which respective devices in the main body case may be correspondingly connected to the plurality of beauty treatment handle mechanisms 20 to implement different beauty treatment functions.

In addition, as shown in fig. 3 to 4, in some embodiments, one cosmetic handle mechanism 20 described above may be provided as an atomizing handle mechanism 200. The atomization handle mechanism 200 can include an atomization handle structure, and an ion atomization structure 250 disposed on the atomization handle structure. Through the structural ion atomization structure 250 that sets up of atomizing handle, can atomize and ionize water liquid, then spout on skin, carry out moisturizing to skin.

Specifically, the atomizing handle structure may include an atomizing handle barrel 210, a water storage cup detachably connected to one end of the atomizing handle barrel, and a mist outlet head 220 disposed at the other end of the atomizing handle barrel 210. The water storage cup can be used for storing water for atomization, so that the ion atomization structure 250 can atomize and ionize, and can be sprayed out of the atomization handle cylinder 210 through the mist outlet head 220. Moreover, the atomizing handle barrel 210 may include a gradually-changing cylindrical atomizing main barrel 212, a disc-shaped mist outlet connecting portion 214 detachably connected to one end of the atomizing main barrel 212, and a cup connecting portion 230 detachably connected to the other end of the atomizing main barrel 212, the water storage cup is detachably connected to the cup connecting portion 230, and the mist outlet head 220 is detachably connected to the mist outlet connecting portion 214. The atomizing handle barrel 210 is designed to be gradually cylindrical, so that a user can hold the atomizing handle barrel conveniently for operation; the disc-shaped mist outlet connecting part 214 is arranged, so that the mist outlet head 220 can be conveniently connected and mounted; and the cup connecting part 230 is arranged, so that the cup can be conveniently connected. Therefore, the atomizing handle barrel 210 and the atomizing handle structure are beautiful and elegant in appearance as a whole, and are convenient to hold and operate.

Moreover, the diameter of the main atomizing cylinder 212 may gradually increase and then gradually decrease from the cup connection portion 230 toward the mist outlet connection portion 214, and a cylinder neck portion is smoothly and transitionally connected between the main atomizing cylinder 212 and the mist outlet connection portion 214, so that the main atomizing cylinder 212 may form a shape with two thin ends and a thick middle portion. Moreover, the diameter of the cylinder neck is smaller than that of the main atomization cylinder 212, and the diameter of the main atomization cylinder 212 is smaller than that of the mist outlet connection part 214. The neck of the cylinder can be made to be the thinnest, and the mist outlet connection part 214 and the mist outlet head 220 can be made to be the thickest, so that the whole atomizing handle cylinder 210 has a beautiful appearance.

In addition, the cup connecting portion 230 may include a cylinder connecting sleeve 232 connected to the atomizing main cylinder 212, and a cup connecting sleeve connected to the cylinder connecting sleeve 232. Moreover, the cup connecting sleeve may include a cup connecting outer sleeve 236 sleeved with the barrel connecting sleeve 232 and a cup connecting inner sleeve 234 engaged with the cup connecting outer sleeve 236, a cup engaging groove is formed between the cup connecting outer sleeve 236 and the cup connecting inner sleeve 234, and a port of the water storage cup may be engaged with the cup engaging groove. Therefore, the water storage cup is conveniently clamped at the water cup connecting part 230, and is convenient to detach and mount, and water is conveniently replaced.

Further, the cup body connecting outer sleeve 236 may include an outer sleeve body sleeved on the sleeve connecting sleeve 232, and a first annular boss protruding from an inner wall surface of the outer sleeve body; the cup body connecting inner sleeve body 234 comprises an inner sleeve body and a second annular boss protruding out of the end part of the inner sleeve body, the second annular boss is clamped on the top of the first annular boss, the inner sleeve body penetrates through and is positioned in the inner cavity of the outer sleeve body, and the inner cavity of the inner sleeve body is communicated with the inner cavity of the water storage cup. Therefore, the cup body connecting inner sleeve body 234 is conveniently clamped in the outer sleeve body, and water in the water storage cup can flow into the inner cavity of the outer sleeve body through the inner cavity of the inner sleeve body, so that atomization is convenient.

Moreover, the end of the cylinder connecting sleeve 232 is provided with an atomizing port communicated with the inner cavity of the atomizing main cylinder 212, and an atomizing cavity formed between the cylinder connecting sleeve, the outer sleeve body and the first annular boss and communicated with the atomizing port and the inner cavity of the inner sleeve body is surrounded. Thus, the water liquid can be atomized in the atomization chamber, and the atomized water mist enters the inner cavity of the main atomization cylinder 212 to be delivered to the mist outlet head 220 for spraying.

In addition, the ion atomization structure 250 may include an atomization ultrasonic generator disposed in the atomization handle barrel, an atomization ultrasonic oscillation wafer connected to the atomization ultrasonic generator and extending into the cup connection portion 230, and the atomization ultrasonic oscillation wafer may be disposed in the atomization chamber and an ion generator disposed in the atomization connection portion or the atomization main barrel and corresponding to the mist outlet head. Moreover, the atomizing ultrasonic generator can be the first ultrasonic generator (or the second ultrasonic generator), can generate ultrasonic waves, and can convey the ultrasonic waves to the atomizing ultrasonic oscillation wafer, and the atomizing ultrasonic oscillation wafer can convert the sound waves into vibration, so that the atomizing ultrasonic oscillation wafer vibrates at high frequency to atomize the water liquid in the atomizing cavity. The beauty instrument main unit 100 may further include an ionization controller connected to the main controller 140 and the touch control panel 130, and the ionization controller may be connected to an ionizer to control the operation of the ionizer. Through the ion atomization structure 250 arranged on the atomization handle cylinder 210, the water in the water storage cup can be atomized to form ultramicro spray, and the spray is sprayed out to the surface of the skin from the mist outlet, so that the skin can absorb moisture. In addition, the spray can be ionized simultaneously, so that the spray activity can be enhanced, and the skin beautifying effect can be further enhanced.

In addition, the mist outlet head 220 may include a fixing base 222 detachably disposed on the mist outlet connecting portion 214, and a mist outlet disc 224 disposed on the fixing base 222, wherein the mist outlet disc 224 is provided with a mist outlet communicated with the inner cavity of the main atomizing cylinder 212. Through the fixing seat 222 arranged on the mist outlet connecting part 214 of the main atomizing cylinder 212, the mist outlet disc 224 can be fixedly connected, so that the mist can be conveniently sprayed out from a mist outlet on the mist outlet disc 224. Moreover, the end of the mist outlet connecting portion 214 is provided with a mist head mounting groove, the fixing seat 222 can be embedded in the mist head mounting groove, and the end surface of the fixing seat 222 and the end surface of the mist outlet disc 224 are aligned with the end surface of the mist outlet connecting portion 214. Therefore, the mist outlet connecting part 214 and the mist outlet head 220 are kept flush and beautiful.

Moreover, the fixing base 222 may include a main base embedded in the mist head mounting groove, and a connection pipe protruding from the inner side end of the main base and extending into the inner cavity of the atomizing main cylinder, and the ion generator may be disposed on the connection pipe or between the main base and the mist outlet disc 224. When the atomizing ultrasonic oscillation wafer atomizes water liquid and conveys the water liquid to the mist outlet head 220, the water mist is ionized through the ion generator, and the activity of the water mist is enhanced.

In addition, the atomizing handle structure may further include an atomizing inlet tube 240 disposed on a side surface of the atomizing main cylinder 212, and a cable and a pipeline may be inserted into an inner cavity of the atomizing main cylinder 212 through the atomizing inlet tube 240, so as to connect the atomizing handle structure with the beauty instrument main unit 100. Moreover, the atomizing inlet pipe 240 may include an inner pipe 242 embedded in the side wall of the main atomizing cylinder 212, and an outer pipe 244 sleeved outside the inner pipe 242, wherein an end surface of the outer pipe 244 abuts against the outer side surface of the main atomizing cylinder 212. Through setting up interior spool 242 and outer wire 244 for the connection of atomizing inlet pipe 240 and atomizing main cylinder 212 is more reliable, also more pleasing to the eye.

In addition, the atomizing handle mechanism 200 may further include an oxygen tube connected to the inner cavity of the main atomizing cylinder 212, and the oxygen tube may pass through the atomizing inlet tube 240 and be connected to an oxygen generator in the external beauty instrument main unit 100. Therefore, oxygen produced by the oxygen generator can be conveyed into the atomizing main cylinder 212 through the oxygen conveying pipe and is output through the mist outlet head 220, so that the oxygen content in the water mist sprayed by the mist outlet head 220 can be increased, and the beautifying effect is further enhanced.

In addition, as shown in fig. 5 to 6, in other embodiments, one of the beauty treatment handle mechanisms described above may be provided as the ultrasonic handle mechanism 300. Furthermore, the ultrasonic handle mechanism 300 may include a sonic handle structure, and a sonic generating structure 340 and a red-blue light lamp structure 330 disposed on the sonic handle structure. Ultrasonic waves can be output through the sound wave generating structure 340 to perform ultrasonic operation on the skin; the red and blue light structure 330 can irradiate the skin with red and blue light to treat dermatoses. Thus, the ultrasonic handle mechanism 300 can be multifunctional, and has high integration level and relatively low cost.

Specifically, the acoustic handle structure may include an acoustic handle cylinder 310, an acoustic threading tube 320 detachably connected to one end of the acoustic handle cylinder 310, and an acoustic emission head disposed at the other end of the acoustic handle cylinder 310, wherein the acoustic generation structure 340 and the red-blue light structure 330 are disposed at the acoustic emission head. Cables and pipes can be inserted into the inner cavity of the sound wave handle cylinder 310 through the sound wave threading pipe 320, the sound wave handle cylinder 310 can be connected with the beauty instrument main unit equipment 100, so as to connect the red and blue light lamp structure 330 with the red and blue light controller and connect the sound wave generating structure 340 with the ultrasonic wave generating device 160.

Moreover, the sound wave handle cylinder 310 may include a tapered cylindrical sound wave main cylinder 312, and a sound wave head connection sleeve 314 detachably connected to one end of the sound wave main cylinder 312, wherein the sound wave emitting head is detachably connected to the sound wave head connection sleeve 314; the sound wave threading pipe 320 is detachably connected to the other end of the sound wave main cylinder 312, the sound wave generating structure 340 is arranged in the sound wave handle cylinder 310 and the sound wave emitting head, and the red and blue light lamp structure 330 is arranged on the sound wave emitting head. By setting the main body of the acoustic wave handle cylinder 310 to be gradually cylindrical, the acoustic wave handle cylinder 310 can be held by a human hand for operation; by providing the sound head connection sleeve 314, it is convenient to connect the sound head and to provide the sound wave generating structure 340 and the red and blue light lamp structure 330.

Furthermore, the sound generating structure 340 may include an ultrasonic generator disposed in the sound main cylinder 312 or the sound head connection sleeve 314, and an ultrasonic oscillation wafer connected to the ultrasonic generator and disposed in the sound head connection sleeve 314 or the sound head. The ultrasonic generator of the sound wave generating structure 340 may be the second ultrasonic generator (or the first ultrasonic generator), which can generate ultrasonic waves and transmit the ultrasonic waves to the ultrasonic oscillation wafer, and the ultrasonic oscillation wafer can convert the ultrasonic waves into high-frequency vibrations to generate high-frequency vibrations to the air so as to perform the high-frequency vibrations to the skin, or directly perform the high-frequency vibrations to the skin.

Further, the acoustic wave transmitter may include a transmitter sleeve 332 sleeved on the transmitter connecting sleeve 314, the end of the transmitter sleeve 332 has an acoustic wave transmitting opening, and the ultrasonic oscillation wafer is disposed corresponding to the acoustic wave transmitting opening. Moreover, the sound wave emitting head may further include a metal resonator plate 342 disposed at the sound wave emitting port, and the metal resonator plate 342 corresponds to the ultrasonic oscillation chip or the ultrasonic oscillation chip is set as the metal resonator plate 342. That is, the metal resonance sheet 342 may be vibrated by the ultrasonic oscillation wafer, or directly vibrated, so that the metal resonance sheet 342 directly acts on the skin.

In addition, the emitter sleeve 332 may include an emitter inner cylinder connected to the sound head connection sleeve 314, an arc emitter light-transmitting cover 334 covering the emitter inner cylinder, and the red and blue light structure 330 disposed outside the emitter inner cylinder and covering the emitter light-transmitting cover 334, wherein the light irradiation direction of the red and blue light structure 330 is the same as the direction of the sound wave emitting opening. The red and blue light structure 330 can emit red light or blue light under the action of the red and blue light controller, and irradiate the skin through the transmitting head light-transmitting cover 334, so as to beautify and treat the skin. Moreover, the light irradiation direction of the red and blue light lamp structure is the same as the direction of the sound wave emitting port, so that the irradiation direction of the ultrasonic waves on the skin is the same as the irradiation direction of the red and blue light, the skin can be acted on simultaneously in the same direction, and the effect is better.

Further, above-mentioned red blue light lamp structure 330 can locate lamp plate (light circuit board) on the first inner tube outer wall of transmission including the ring to and evenly locate a plurality of red blue light-emitting bulbs on the lamp plate, red blue light-emitting bulb all sets up to the direction of sound wave transmission mouth. The light circuit board is electrically connected with the red and blue light controller to control the light circuit board so as to control the red and blue light emitting bulb to emit red light or blue light. Further, by arranging a plurality of red-blue light emitting bulb rings around the sound wave emitting port, the skin can be irradiated from the periphery side of the sound wave emitting port. Therefore, the skin can be subjected to ultrasonic action and the red and blue light is covered, and the red and blue light lamp structure and the sound wave generating structure are independent and do not influence each other.

In addition, the sound wave main cylinder 312 may include a cylindrical sound wave cylinder handle and a sound wave holding cylinder disposed at one end of the sound wave cylinder handle, the sound wave head connecting sleeve is connected to an end of the sound wave holding cylinder, and a diameter of the sound wave cylinder handle and a diameter of the sound wave head connecting sleeve are both larger than a diameter of the sound wave holding cylinder. This makes the main acoustic wave cylinder 312 have a shape with a thin middle and thick ends, which facilitates the holding operation.

Moreover, the diameter of the sound wave cylinder handle is gradually increased and then gradually decreased from the end part to the sound wave holding cylinder direction, the sound wave holding cylinder is a bamboo joint cylinder, and the diameter of the sound wave head connecting sleeve 314 is gradually increased from the sound wave holding cylinder to the sound wave emitting head direction. Therefore, the sound wave holding cylinder and the sound wave head connecting sleeve 314 are both in an elliptical shape, and the sound wave holding cylinder is in a bamboo joint cylinder shape, so that the sound wave head connecting sleeve is convenient to hold and not easy to fall off, and the appearance is attractive. Moreover, the acoustic head connection sleeve 314 may include an isolation connection cylinder connected to the acoustic wave holding cylinder, and an acoustic head transition cylinder connected to the acoustic wave emitting head, and a plurality of rings of annular protrusions are disposed on an outer circumferential side of the isolation connection cylinder. Thus, slipping and hand drop caused by holding the sound wave main cylinder body can be prevented.

In addition, a switch button 350 is further embedded in the side surface of the sound wave main cylinder 312, and the switch button 350 corresponds to the sound wave generating structure 340 and the red and blue light lamp structure 330. The switch button 350 can control the sound wave generating structure 340 and the red and blue light lamp structure 330 to be turned on and off, which is simple and convenient.

Further, as shown in fig. 7-8, in other embodiments, one of the cosmetic handle mechanisms described above may be configured as a dual-headed rf handle mechanism 700. The dual-headed rf handle mechanism 700 may include an rf handle barrel 710 and an rf treatment head structure 720 disposed on the rf handle barrel 710. The radio frequency treatment head structure 720 can convert the radio frequency signal generated by the radio frequency generator into an electromagnetic signal to perform electromagnetic action on the skin, so as to realize beauty treatment on the skin.

Specifically, the rf handle tube 710 may include a tapered cylindrical rf main body 712, a cylindrical rf cable tube 714 disposed at one end of the rf main body 712, and a cylindrical rf coupling sleeve 716 detachably connected to the other end of the rf main body 712. Cables and pipes can be threaded through the rf threading tube 714 into the inner cavity of the rf handle tube 710, and the rf handle tube 710 can be connected to the main unit device 100 of the cosmetic apparatus, so as to connect the rf treatment head structure 720 to the rf generator. The radio frequency handle cylinder 710 is designed to be gradually cylindrical, so that a human hand can hold the radio frequency handle cylinder 710 for operation; the radio frequency connection sleeve portion 716 can be used to detachably connect the radio frequency treatment head structure 720.

Furthermore, the rf treatment head structure 720 may include a circular rf connection end cap 722 sleeved on the end of the rf connection sleeve 716, and two rf probe mounting holes 724 are formed on the end surface of the rf connection end cap 722 at an interval. Moreover, the rf therapy head structure 720 may further include a ceramic rf probe (not shown) respectively installed in the two rf probe installation holes 724, and an rf electrode lattice structure (not shown) installed in the rf connection sleeve portion 716 and the rf connection end cap 722 and corresponding to the ceramic rf probe, wherein the rf electrode lattice structure is connected to an rf generator in the external beauty instrument host device 100 through an rf signal line. Also, the rf generator may be a first rf generator (or a second rf generator). The radio frequency generator generates radio frequency signals under the control of the radio frequency controller, the radio frequency electrode lattice structure and the ceramic-plastic radio frequency probe can convert the radio frequency signals into electromagnetic waves, and the ceramic-plastic radio frequency probe directly contacts the skin to treat the skin. The ceramic plastic radio frequency probe corresponding to the radio frequency electrode lattice structure is arranged as the radio frequency treatment head structure 720, so that an electrodeless radio frequency probe structure can be formed, thereby carrying out electrodeless radio frequency operation on the skin, being simple and convenient to operate, not scalding the skin and having good beautifying effect on the skin. Furthermore, in this embodiment, the rf treatment head structure may include two ceramic rf probes, and the skin may be directly treated by contact through the two ceramic rf probes (i.e. two contacts). The radio frequency treatment head structure of the two ceramic radio frequency probes is more suitable for treating small-area and irregular-shaped skin.

Further, the ceramic-plastic radio frequency probe may include a ceramic-plastic radio frequency column inserted into the radio frequency probe mounting hole 724, and a ceramic-plastic radio frequency ball disposed at an end of the ceramic-plastic radio frequency column. Moreover, the ceramic-plastic radio frequency column and the ceramic-plastic radio frequency ball can be integrated, or can be connected together after being arranged in a split mode. Make the pottery mould radio frequency probe outward appearance comparatively pleasing to the eye like this, can mould the direct skin of radio frequency ball and contact through pottery moreover, the contact is more smooth, and user experience effect is better. Moreover, the ceramic-plastic radio-frequency column and the ceramic-plastic radio-frequency ball both comprise a stainless steel metal layer and a zirconium dioxide ceramic layer covered outside the stainless steel metal layer. The ceramic-plastic radio frequency probe adopting the nano ceramic-plastic structure does not generate a conductive phenomenon and is safe and reliable; the energy is focused on the contact point and directly reaches the dermis layer, and the treatment effect is good; the material is high temperature resistant, corrosion resistant and safe; no chemical reaction occurs. Moreover, any one of the two ceramic plastic radio frequency probes can be used for treatment when contacting the skin; the ceramic plastic radio frequency probe at a longer distance position can be uniformly heated to hypodermis tissue, thereby achieving the effects of tightening, lifting and wrinkle removal; the ceramic plastic radio frequency probe at the near-end position can reach the deep layer of dermis, so that all-dimensional 3D net-shaped heating is formed, the skin is tightened and lifted, and the wrinkle removing effect can be comprehensively improved.

And the ceramic-plastic radio frequency column can be provided with radio frequency through holes extending into the ceramic-plastic radio frequency ball, and the radio frequency electrode lattice structure corresponds to the radio frequency through holes or extends into the radio frequency through holes. Therefore, the electromagnetic wave generated by the radio frequency electrode lattice structure is closer to the skin, and the action effect is stronger. In addition, the radio frequency connecting sleeve part is internally provided with a cylindrical accommodating cavity, the diameter of the accommodating cavity is larger than the diameter of an inner hole of the radio frequency main cylinder, and the radio frequency electrode lattice structure is arranged in the accommodating cavity. Thus, the radio frequency electrode lattice structure is convenient to be arranged in the accommodating cavity.

In addition, the rf connection cap 722 may be an insulating plastic cap. The radio frequency handle cylinder 710 can also be an insulating plastic cylinder, which is safe and reliable. In addition, the rf connection end cap 722 and the rf handle tube 710 may be made of other insulating materials, such as ceramic.

In addition, the diameter of the rf main cylinder 712 may gradually decrease from the rf threading tube 714 to the rf connection sleeve 716, and then gradually increase, and both ends of the rf main cylinder 712 are smoothly connected to the rf threading tube 714 and the rf connection sleeve 716 respectively. Also, the diameter of the rf main cylinder 714 is smaller than the diameter of the rf threading tube portion 714 and the diameter of the rf connection sleeve portion 716. Thus, the rf main cylinder 712 can be configured to have a large end and a small middle, which is not only beautiful, but also easy to hold. In addition, a plurality of annular protrusions are formed on at least one of the outer peripheral surface of the rf threading tube 714 and the outer peripheral surface of the rf connection sleeve 716. Thus, the anti-slip effect can be achieved, and the radio frequency handle tube 710 is not easy to fall off when being held.

In addition, the rf threading tube 714 and the rf connection sleeve 716 can be detachably connected to the two ends of the rf main cylinder 712; alternatively, the rf threading tube portion 714 and the rf coupling sleeve portion 716 may be integrally formed with the rf main cylinder 712.

In addition, as shown in fig. 9-10, in other embodiments, the one cosmetic handle mechanism may be a four-head rf handle mechanism 800. The four-head rf handle mechanism 800 may include an rf handle barrel 810 and an rf treatment head structure 820 disposed on the rf handle barrel 810. Similarly, the radio frequency treatment head structure 820 can convert the radio frequency signal generated by the radio frequency generator into an electromagnetic signal to electromagnetically act on the skin, so as to realize the beauty treatment of the skin.

Specifically, the rf handle tube 810 includes a tapered cylindrical rf main body 812, a cylindrical rf threading tube 814 disposed at one end of the rf main body 812, and a cylindrical rf connection sleeve 816 detachably connected to the other end of the rf main body 812. Similarly, cables and pipes can be threaded into the inner cavity of the rf handle tube 810 through the rf threading tube 814, and the rf handle tube 810 and the main body device 100 of the beauty instrument can be connected to connect the rf treatment head structure 820 and the rf generator. The radio frequency handle tube 810 is designed to be gradually changed into a cylinder shape, so that a human hand can hold the radio frequency handle tube 810 for operation; the radio frequency connection sleeve 816 is convenient for detachable connection of the radio frequency treatment head structure 820.

Furthermore, the rf treatment head structure 820 may include a circular rf connection end cap 822 sleeved on the end of the rf connection sleeve 816, and four rf probe installation holes 824 are uniformly formed on the end surface of the rf connection end cap 822. Furthermore, the rf therapy head structure 820 may further include a ceramic rf probe (not shown) respectively installed in the four rf probe installation holes 824, and an rf electrode lattice structure corresponding to the ceramic rf probe and installed in the rf connection sleeve portion 816 and the rf connection end cap 822, and the rf electrode lattice structure is connected to an rf generator in the external cosmetic instrument host device 100 through an rf signal line. Also, the rf generator may be a second rf generator (or a first rf generator). Similarly, the radio frequency generator generates radio frequency signals under the control of the radio frequency controller, the radio frequency electrode lattice structure and the ceramic plastic radio frequency probe can convert the radio frequency signals into electromagnetic waves, and the ceramic plastic radio frequency probe directly contacts the skin to treat the skin. The ceramic plastic radio frequency probe corresponding to the radio frequency electrode lattice structure is arranged as a radio frequency treatment head structure, so that an electrodeless radio frequency probe structure can be formed, thereby carrying out electrodeless radio frequency operation on skin, having simple and convenient operation, not scalding the skin and having good beautifying effect on the skin. Furthermore, in this embodiment, the rf treatment head structure may include four ceramic rf probes, and the skin may be directly treated by contact through the four ceramic rf probes (i.e. four contacts). The radio frequency treatment head structure of the four ceramic radio frequency probes is more suitable for large-area and smoother skin treatment.

In addition, the specific structure of the four-head rf handle mechanism 800 in this embodiment is substantially the same as the two-head rf handle mechanism 700 in the above embodiment, and is not described herein again. In addition, a three-head radio frequency handle mechanism, a five-head radio frequency handle mechanism, and the like can be arranged according to needs.

In addition, the four-head rf handle mechanism 800 or the two-head rf handle mechanism 700 may be combined with the atomizing handle mechanism 200 or the ultrasonic handle mechanism 300, that is, a rf treatment head structure having two ceramic rf probes or four ceramic rf probes is disposed on the atomizing handle mechanism 200 or the ultrasonic handle mechanism 300 to form a composite handle mechanism.

Furthermore, as shown in fig. 11, in some embodiments, the cosmetic device may be configured as an aerosol cosmetic device. The atomization beauty instrument can comprise an atomization beauty instrument host and the atomization handle mechanism 200 which is connected with the atomization beauty instrument host and is described in the embodiment. The atomization beauty instrument main machine and the atomization handle mechanism 200 can spray skin. Moreover, the atomization beauty instrument can be independently arranged, and does not comprise other beauty instrument main machines and handle mechanisms.

The main unit of the cosmetic atomizer may include the main unit housing according to the above embodiment, the main controller 140 disposed in the main unit housing, and the ultrasonic generator 160 and the oxygen generator 180 disposed in the main unit housing and connected to the main controller 140. That is, in the present embodiment, the atomization beauty instrument main body of the atomization beauty instrument is provided with the ultrasonic wave generating device 160 and the oxygen generating device 180, and other structures are the same as those of the beauty instrument main body equipment, and are not described again. Moreover, this atomizing handle mechanism 200 can include can dismantle the atomizing handle structure of being connected through atomizing connecting pipe and host computer machine case, locate the structural ion atomizing structure of atomizing handle to and locate the oxygen therapy pipe in the atomizing handle structure inner chamber, the ion atomizing structure is connected with ultrasonic wave generating device, and the oxygen therapy pipe is connected with the oxygenerator in the host computer machine case of peripheral hardware. That is, the atomizing handle mechanism in this embodiment is the atomizing handle mechanism described in the above embodiments, and the structures of the two mechanisms are the same, and are not described herein again. Through the ion atomization structure arranged on the atomization beauty instrument, water in the water storage cup can be atomized to form ultramicro spray, and the spray is sprayed out of the mist outlet to the surface of the skin, so that the skin can absorb moisture. In addition, the spray can be ionized simultaneously, so that the spray activity can be enhanced, and the skin beautifying effect can be further enhanced.

In addition, the main body of the cosmetic atomization apparatus may include a radio frequency generator 150 disposed in the main body case and connected to the main controller, that is, the cosmetic atomization apparatus may also include the radio frequency generator 150. Moreover, the atomizing handle mechanism 200 may include a radio frequency treatment head structure disposed on the atomizing handle structure, and the radio frequency generating device is connected to the radio frequency treatment head structure. Moreover, the structure of the rf generator 150 in this embodiment is the same as or similar to that of the rf generator in the beauty apparatus in the above-mentioned embodiment, and the structure of the rf treatment head is also similar to that of the rf treatment head of the dual-head rf handle mechanism 700 or the four-head rf handle mechanism 800 in the above-mentioned embodiment, and is not described herein again.

Further, as shown in fig. 12, in some embodiments, the cosmetic apparatus may be an ultrasonic cosmetic apparatus. The ultrasonic beauty apparatus may include an ultrasonic beauty apparatus main body, and the ultrasonic handle mechanism 300 of the above embodiment connected to the ultrasonic beauty apparatus main body. The ultrasonic beauty instrument main body and the ultrasonic handle mechanism 300 can spray skin. Moreover, the atomization beauty instrument can be independently arranged, and does not comprise other beauty instrument main machines and handle mechanisms.

The ultrasonic beauty instrument main body may include the main body case described in the above embodiment, the main controller 140 provided in the main body case, and the ultrasonic wave generator 160 and the light source controller 170 provided in the main body case and connected to the main controller 140. That is, in this embodiment, the ultrasonic beauty apparatus main body of the ultrasonic beauty apparatus is provided with the ultrasonic wave generating device 160 and the light source controller 170, and other configurations are the same as those of the beauty apparatus main body device described above, and are not described again.

Moreover, this ultrasonic wave handle mechanism 300 can include the sound wave handle structure of can dismantling the connection through supersound connecting pipe and host computer machine case to and locate sound wave generation structure and red blue light lamp structure on the sound wave handle structure, sound wave generation structure and ultrasonic wave generating device are connected, and the light source controller is connected with red blue light lamp structure. That is, the ultrasonic handle mechanism in this embodiment is the ultrasonic handle mechanism described in the above embodiments, and the structures of the two mechanisms are the same, and are not described herein again. Ultrasonic waves can be output through the sound wave generating structure so as to carry out ultrasonic operation on the skin; the red and blue light lamp structure can irradiate the skin with red and blue light, and can be used for treating dermatoses. Therefore, the ultrasonic beauty instrument can be multifunctional, the integration level is high, and the cost is relatively low.

Furthermore, in some embodiments, the cosmetic device may be a radio frequency cosmetic device. The rf cosmetic apparatus may include a rf cosmetic apparatus main body, and the dual-head rf handle mechanism 700 according to the above embodiment or the four-head rf handle mechanism 800 according to the above embodiment connected to the rf cosmetic apparatus main body. Similarly, the radio frequency beauty instrument main unit is similar to the beauty instrument main unit device described in the above embodiments, and the difference is that a radio frequency generating device 150 is arranged in the main unit case; and the dual-headed rf handle mechanism 700 or the quad-headed rf handle mechanism 800 is the same as the dual-headed rf handle mechanism or the quad-headed rf handle mechanism in the above-described embodiment.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. An atomization handle mechanism is characterized by comprising an atomization handle structure and an ion atomization structure arranged on the atomization handle structure;

the atomizing handle structure comprises an atomizing handle barrel, a water storage cup detachably connected to one end of the atomizing handle barrel, and a mist outlet head arranged at the other end of the atomizing handle barrel;

the atomizing handle barrel comprises a gradually-changed cylindrical atomizing main barrel body, a disc-shaped mist outlet connecting part detachably connected to one end of the atomizing main barrel body and a water cup connecting part detachably connected to the other end of the atomizing main barrel body, the water storage cup is detachably connected to the water cup connecting part, and the mist outlet head is detachably connected to the mist outlet connecting part;

the ion atomization structure comprises an atomization ultrasonic generator arranged in the atomization handle barrel, an atomization ultrasonic oscillation wafer connected with the atomization ultrasonic generator and extending into the water cup connecting part, and an ion generator arranged in the atomization connecting part or the atomization main barrel and corresponding to the fog outlet head.

2. The handle mechanism of claim 1, wherein the diameter of the main atomizing cylinder gradually increases and then gradually decreases from the cup connection portion to the mist outlet connection portion, and a cylinder neck portion is smoothly transited between the main atomizing cylinder and the mist outlet connection portion;

the diameter of a neck portion is less than the diameter of the main atomizing barrel, and the diameter of the main atomizing barrel is less than the diameter of the mist outlet connecting portion.

3. The atomizing handle mechanism of claim 1, wherein the water cup connection portion includes a barrel connection sleeve that is in sleeve connection with the atomizing main barrel, and a cup connection sleeve that is in connection with the barrel connection sleeve;

the cup body connecting sleeve comprises a cup body connecting outer sleeve body and a cup body connecting inner sleeve body, wherein the cup body connecting outer sleeve body is sleeved with the barrel body connecting sleeve, the cup body connecting inner sleeve body is clamped in the cup body connecting outer sleeve body, a cup body clamping groove is formed between the cup body connecting outer sleeve body and the cup body connecting inner sleeve body, and a port of the water storage cup is clamped in the cup body clamping groove.

4. The atomizing handle mechanism according to claim 3, wherein the cup body connecting outer sleeve includes an outer sleeve body sleeved on the cylinder connecting sleeve, and a first annular boss protruding from an inner wall surface of the outer sleeve body;

the cup body is connected with the inner sleeve body and comprises an inner sleeve body main body and a second annular boss protruding out of the end part of the inner sleeve body main body, the second annular boss is clamped at the top of the first annular boss, the inner sleeve body main body penetrates through and is located in the inner cavity of the outer sleeve body main body, and the inner cavity of the inner sleeve body main body is communicated with the inner cavity of the water storage cup.

5. The handle mechanism of claim 4, wherein the end of the cylinder connecting sleeve is provided with an atomizing opening communicating with the inner cavity of the main atomizing cylinder, an atomizing cavity communicating with the atomizing opening and the inner cavity of the inner cylinder is defined between the cylinder connecting sleeve, the outer cylinder and the first annular boss, and the ultrasonic oscillator chip is disposed in the atomizing cavity.

6. The handle mechanism of any one of claims 1 to 5, wherein the mist outlet head comprises a fixed seat detachably mounted on the mist outlet connecting portion, and a mist outlet disc mounted on the fixed seat, and the mist outlet disc is provided with a mist outlet communicated with the inner cavity of the main atomizing cylinder.

7. The atomizing handle mechanism according to claim 6, wherein a mist head mounting groove is formed in an end portion of the mist outlet connecting portion, the fixing seat is embedded in the mist head mounting groove, and an end surface of the fixing seat and an end surface of the mist outlet disc are aligned with the end surface of the mist outlet connecting portion.

8. The handle mechanism of claim 7, wherein the fixing base comprises a main base body embedded in the mounting groove of the atomizing head, and a connecting tube protruding from an inner end of the main base body and extending into an inner cavity of the main atomizing barrel, and the ion generator is disposed on the connecting tube or between the main base body and the atomizing plate.

9. The atomizing handle mechanism according to any one of claims 1 to 5, characterized in that the atomizing handle structure further comprises an atomizing inlet pipe provided on a side surface of the atomizing main cylinder;

the atomizing inlet wire pipe is including inlaying and locating interior spool in the main barrel lateral wall of atomizing to and the cover is located interior spool outside the pipe, the terminal surface of outer spool with the lateral surface of the main barrel of atomizing supports tightly.

10. The handle mechanism of any one of claims 1 to 5, further comprising an oxygen tube in communication with the inner chamber of the main atomization barrel, the oxygen tube being connected to an external oxygen generator.

Images