CN211510566U - Oil guide ceramic and ultrasonic atomizer - Google Patents

Abstract

The utility model relates to an electronic smoking set, especially a lead oily pottery and ultrasonic atomization ware. Lead oily pottery and include vertical first cavity, second cavity, the third cavity that sets up, the second cavity sets up lead oily pottery' S central zone, the bottom of first cavity sets up the air inlet, the top of first cavity with the top intercommunication of second cavity forms first switching mouth, the bottom of second cavity with the bottom intercommunication of third cavity forms the second switching mouth, and the top of third cavity sets up the gas outlet, when leading oily pottery and using, air inlet, first cavity, second cavity, third cavity communicate in proper order and constitute S type air current passageway. The utility model discloses ultrasonic atomizer not only atomizes the start-up fast, and the smog volume is big and stable moreover.

Description

Oil guide ceramic and ultrasonic atomizer

Technical Field

The utility model relates to an electronic smoking set, concretely relates to lead oily pottery and ultrasonic atomization ware.

Background

The oil is led with leading oil cotton and the direct intercommunication realization in oil storehouse to current ultrasonic wave electron smog spinning disk atomiser, like aramid fiber, non-woven fabrics etc.. In the ultrasonic atomization ware use, along with ultrasonic atomization's going on, when the tobacco tar temperature risees in the oil storehouse, not only tobacco tar viscosity descends, but also the cotton pore space increase of oil guide, make the tobacco tar flow rate on oil guide cotton accelerate rapidly, oil guide cotton leads the oil quantity to increase, make the fuel feeding on the ultrasonic atomization piece too much, cause the ultrasonic atomization piece easily and be soaked by the tobacco tar, thereby make the atomizing of ultrasonic atomization piece start slowly, it is slow to go out the cigarette speed, the tobacco tar atomization is not abundant, oil and the scheduling problem of splashing appears inhaling easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, it is slow to overcome prior art and easily appear ultrasonic atomization piece atomizing start, goes out the cigarette speed and is slow, and the tobacco tar atomization is insufficient, provides an atomizing start fast, goes out the cigarette speed fast, and the abundant oil guide pottery and the ultrasonic atomization ware of tobacco tar atomization.

In order to solve the technical problem, the utility model provides a lead oily pottery, its first cavity, second cavity, the third cavity that includes vertical setting, the second cavity sets up lead oily pottery' S central zone, the bottom of first cavity sets up the air inlet, the top of first cavity with the top intercommunication of second cavity forms first switching mouth, the bottom of second cavity with the bottom intercommunication of third cavity forms the second switching mouth, and the top of third cavity sets up the gas outlet, when leading oily pottery and using, air inlet, first cavity, second cavity, third cavity communicate in proper order and constitute S type airflow channel.

The utility model discloses when leading oily pottery and use, lead oily ceramic ' S upper portion by the oil storage subassembly butt, lead oily ceramic ' S lower part with the oil storage cotton support hold on the ultrasonic atomization piece, make the air inlet, first cavity, the second cavity, the third cavity communicates in proper order and constitutes inclosed S type air current passageway, and lead oily ceramic ' S second cavity just to the central zone of ultrasonic atomization piece, thereby can not influence the ultrasonic atomization of the most violent ultrasonic atomization piece central zone of high-frequency oscillation and go on, it is faster to make ultrasonic atomization start-up, it is faster to go out cigarette speed, and the tobacco tar atomization of central zone is more abundant, exhaust smog is bigger. In addition, the airflow enters the first cavity from the air inlet at the bottom of the oil guide ceramic, the smoke in the first cavity is brought to the top of the second cavity, then the airflow flows from the top to the bottom to be mixed with the smoke in the second cavity, then the airflow enters the third cavity from the bottom of the second cavity, the airflow is mixed with the smoke in the third cavity and then is brought out from the top of the third cavity, the airflow direction in the second cavity is opposite to the smoke atomization direction, the smoke on the upper portion of the second cavity can flow back to the lower portion of the second cavity, the smoke generated in the early stage on the upper portion of the second cavity and the smoke generated in the later stage on the lower portion of the second cavity are brought out together, so that the smoke outflow is more concentrated, the smoke flowing into the oral cavity of a user has higher density, and the user experience. Airflow direction and atomizing play cigarette opposite direction in the second cavity still can be with on the oil droplet in the smog rebounds to the oil storage cotton, contain oil droplet in avoiding flowing smog to the user has the sensation of smoking the tobacco tar.

Furthermore, the upper part of the oil guide ceramic is provided with the oil suction hole, so that the distance between the ultrasonic atomization piece and the tobacco tar is closer, the tobacco tar can be transmitted to the oil storage cotton and the ultrasonic atomization piece as soon as possible, and the ultrasonic atomization is started faster.

Preferably, two oil suction holes are symmetrically formed in the upper portion of the oil guide ceramic, and the two oil suction holes are respectively formed in two sides of the second cavity, so that smoke can flow to the central area of the ultrasonic atomization sheet as soon as possible, the central area of the ultrasonic atomization sheet with the strongest high-frequency oscillation can begin ultrasonic atomization as soon as possible, and smoke is produced as soon as possible.

Preferably, the first cavity and the third cavity are arranged on two sides of the second cavity, so that the airflow direction is smoother.

Preferably, the bottom of the oil guide ceramic is provided with a pressing contact surface for pressing the oil storage cotton, the pressing contact surface comprises a peripheral bottom surface positioned on the periphery, a beam bottom surface positioned in the middle and a semi-circular bottom surface, the beam bottom surface is used for separating a first cavity and a third cavity, and the semi-circular bottom surface is used for pressing the central area of the oil storage cotton on the ultrasonic atomization sheet so as to avoid the influence on ultrasonic atomization caused by the fact that the oil storage cotton is arched when the ultrasonic atomization sheet is subjected to high-frequency oscillation.

For solving the technical problem, the utility model also provides an ultrasonic atomizer, it includes the oil storage subassembly, leads oil component and atomization component, it installs to lead the oil component the oil storage subassembly with between the atomization component, it includes to lead oil pottery and oil storage cotton, lead the ceramic top butt of oil storage subassembly, it will to lead the ceramic bottom of oil storage cotton support to be held on the ultrasonic atomization piece of atomization component, just it is right to lead the ceramic second cavity of oil the central zone of ultrasonic atomization piece makes the oil storage cotton that the central zone of ultrasonic atomization piece corresponds exposes in the second cavity.

The utility model discloses when ultrasonic atomizer used, the tobacco tar in the tobacco tar storehouse entered into from the inlet port of oil storage subassembly and led the ceramic oil absorption hole of oil, then lead oil pottery absorption tobacco tar and convey the tobacco tar to the oil storage cotton, the tobacco tar is absorbed and is saved by the oil storage cotton, after the cotton saturation of oil storage, lead the position of oil pottery and the cotton contact of oil storage to have formed the stagnation state, only when ultrasonic atomization piece during operation, the oil storage cotton receives the high-frequency oscillation influence of ultrasonic atomization piece, just can make the tobacco tar begin to produce and flow. Because the oil storage cotton corresponding to the central area of the ultrasonic atomization piece is exposed in the second cavity, the ultrasonic atomization of the central area of the ultrasonic atomization piece with the most intense high-frequency oscillation cannot be affected by the support of the oil guide ceramic, and then the ultrasonic atomization of the ultrasonic atomizer is started faster, the smoke is discharged faster, and the atomization is more sufficient. In addition, the airflow direction in the oil guide ceramic second cavity is opposite to the atomized smoke outlet direction, so that smoke generated by ultrasonic atomization is more concentrated, the smoke amount flowing out is larger, and the user experience feeling is better.

Furthermore, the bottom of the oil storage assembly is provided with a mounting groove for mounting oil guide ceramics, one side of the mounting groove is provided with an air inlet groove, the air inlet groove is communicated with an air inlet of the oil guide ceramics, so that air flow entering from the atomization assembly can enter the air inlet of the oil guide ceramics through the air inlet groove and then sequentially flows out to the air outlet channel through the first cavity, the second cavity and the third cavity.

Further, the bottom of the oil storage assembly is provided with an oil inlet hole, the oil guide ceramic is provided with an oil suction hole, and the oil inlet hole is aligned with the oil suction hole, so that the tobacco tar is closer to the oil storage cotton, the oil guide ceramic can guide the oil more quickly, and the ultrasonic atomization piece is not easy to generate a dry burning phenomenon.

Furthermore, the oil guide ceramic is installed right opposite to the oil storage cotton, and the oil storage cotton is just covered by the bottom surface of the oil guide ceramic, so that the tobacco tar stored in the oil storage cotton is not too much, and the ultrasonic atomization sheet is prevented from being soaked by the tobacco tar.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses lead oily ceramic middle part and set up the second cavity, the second cavity is just to the central zone setting of ultrasonic atomization piece, makes the central zone of ultrasonic atomization piece correspond expose in the second cavity through the oil storage cotton to make ultrasonic atomizer start ultrasonic atomization's speed faster. In addition, the direction of the air flow in the second cavity is opposite to the direction of the atomized smoke, so that the smoke flowing out of the ultrasonic atomizer is more concentrated and stable, and the user experience is better.

2. The utility model discloses a lead oily pottery and the cotton combination of oil storage and lead oil to lead in oily pottery and the oil storage storehouse tobacco tar lug connection and conduct to being located ultrasonic atomization piece and oil storage cotton on, the oil storage cotton only plays the oil storage effect, so lead oily volume of leading of oily subassembly certain at ultrasonic atomization in-process, the ultrasonic atomization piece can not soaked by the tobacco tar, has guaranteed ultrasonic atomization efficiency, and smog volume is stable.

3. The utility model discloses lead first, two, three cavitys that oil ceramic 'S inside setting and oil storage cotton link up, make oil storage cotton many places expose in first, two, three cavitys, just lead oil ceramic' S bottom and set up the air inlet, the air current flows through the bottom of first, two, three cavitys with S type route, and the air current passes through from the cotton upper surface of oil storage promptly, therefore can take the smog that ultrasonic atomization produced more fully in time out.

Drawings

Fig. 1 is a front sectional view of an ultrasonic atomizer according to a first embodiment of the present invention.

Fig. 2 is a cross-sectional view a-a of fig. 1, with arrows indicating the direction of gas flow.

Fig. 3 is a partial cutaway perspective view of a first embodiment of the ultrasonic atomizer according to the present invention.

Fig. 4 is a three-dimensional structure view of the plug body of the present invention.

Fig. 5 is a partially cut-away perspective structural view of the bottom view of the plug body of the present invention.

Fig. 6 is a three-dimensional structure view of the oil-guiding ceramic of the present invention.

Fig. 7 is a partially cut-away perspective structural view of the oil-guiding ceramic of the present invention.

Fig. 8 is a three-dimensional structure view of the bottom view of the oil-guiding ceramic of the present invention.

Fig. 9 is an exploded view of the ultrasonic atomizer of the present invention.

In the figure:

1. an oil storage assembly; 11. a housing; 12. a plug body; 13. an oil bin; 14. an air outlet channel; 111. a suction nozzle; 121. mounting grooves; 122. an air inlet groove; 123. an oil inlet hole; 124. an air outlet;

2. an oil guide assembly; 21. oil-conducting ceramic; 22. oil storage cotton; 211. A first cavity; 212. a second cavity; 213. a third cavity; 214. an air inlet; 215. a first interface; 216. a second adapter port; 217. an air outlet; 218. an oil suction hole; 219. Pressing the contact surface; 2191. a peripheral bottom surface; 2192. a beam bottom surface; 2193. a semicircular arc bottom surface;

3. an atomizing assembly; 31. a bottom cover; 32. an atomizing head; 33. an air intake passage; 321. An atomizing sleeve; 322. an ultrasonic atomization sheet; 323. an insulating base; 324. an electrode assembly.

Detailed Description

The invention is further described below with reference to specific preferred embodiments, without thereby limiting the scope of protection of the invention.

For convenience of description, the relative positional relationship of the components, such as: the descriptions of the upper, lower, left, right, etc. are described with reference to the layout directions of the drawings in the specification, and do not limit the structure of the present patent.

Example 1:

as shown in fig. 1 to 9, the ultrasonic atomizer of the present embodiment includes an oil storage assembly 1, an oil guide assembly 2, and an atomizing assembly 3, wherein the oil guide assembly 2 and the atomizing assembly 3 are sequentially installed at the bottom of the oil storage assembly 1.

The oil storage assembly 1 comprises a casing 11 and a plug body 12 which are jointed with each other, and an oil bin 13 and an air outlet channel 14 are formed in the casing 11 and the plug body 12 after being jointed. The housing 11 is provided with a suction nozzle 111. The plug body 12 is preferably a silicone plug having elasticity. The bottom of cock body 12 sets up mounting groove 121, and one side of mounting groove 121 sets up inlet tank 122, and sets up the inlet port 123 that communicates oil bin 13 and mounting groove 121 on the cock body 12, and sets up the venthole 124 in outlet channel 14 bottom.

The oil guide assembly 2 includes an oil guide ceramic 21 and an oil storage cotton 22 disposed on a bottom surface of the oil guide ceramic 21.

Lead and vertically set up first cavity 211, second cavity 212, third cavity 213 in the oily ceramic 21, second cavity 212 sets up the central zone at leading oily ceramic 21, first cavity 211 and third cavity 213 set up respectively in the both sides of second cavity 212 to the bottom of first cavity 211 sets up air inlet 214, the top of first cavity 211 and the top intercommunication of second cavity 212 form first switching mouth 215, the bottom of second cavity 212 and the bottom intercommunication of third cavity 213 form second switching mouth 216, the top of third cavity is as gas outlet 217.

The top of the oil guide ceramic 21 is provided with the oil suction hole 218, so that the distance between the smoke and the beam bottom surface 2192 and the semi-arc bottom surface 2193 of the oil guide ceramic 21 is shorter through the oil suction hole 218, namely the speed of the smoke and the oil to be transmitted to the central area (the position where the atomization is most intense) of the ultrasonic atomization sheet is high, enough smoke and oil are participated in the atomization, and the smoke amount is more stable.

The bottom of the oil guide ceramic 21 is provided with a pressing contact surface 219 for pressing the oil storage cotton 22 against the ultrasonic atomization sheet. The abutting contact surface 219 is composed of a circle of peripheral bottom surfaces 2191 located at the periphery and cross beam bottom surfaces 2192 and semi-arc bottom surfaces 2193 located in the middle, and the cross beam bottom surfaces 2192 and the semi-arc bottom surfaces 2193 abut against the central area of the oil storage cotton 22 to prevent the oil storage cotton 22 from being oscillated to empty and influence the contact of the tobacco tar and the ultrasonic atomization sheet, so that the atomization effect is influenced.

The top of the oil guide ceramic 21 is inserted into the mounting groove 121 of the plug body 12, the pressing contact surface 219 of the oil guide ceramic 21 presses the oil storage cotton 22 against the ultrasonic atomization sheet, and the oil inlet 123 of the plug body 12 is aligned and communicated with the oil suction hole 218 of the oil guide ceramic 21, so that the oil smoke is transmitted to the oil guide ceramic 21 through the oil inlet 123, and the oil storage cotton 22 absorbs the oil smoke on the oil guide ceramic 21 to supply the ultrasonic atomization sheet with the working requirement; the air inlet groove 122 of the plug body 12 is communicated with the air inlet 214, and the air outlet hole 124 of the plug body 12 is communicated with the air outlet 217 of the oil guide ceramic 21 to realize the air flow direction and take out the smoke.

Lead the central zone of second cavity 212 alignment ultrasonic atomization piece of oily pottery 21 to avoid leading the central zone that supports of oily pottery 21 and press contact surface 219 to fall on ultrasonic atomization piece and make smog can not fully discharge, and then influence the atomization effect of tobacco tar (because ultrasonic atomization piece during operation, its central zone produces high frequency oscillation most fiercely, and the smog volume of production is the biggest), in addition, can make the tobacco tar atomizing of the central zone of ultrasonic atomization piece more abundant, smog is bigger.

The first cavity 211 and the second cavity 212 of the oil guiding ceramic 21 are sealed by the bottom surface of the plug 12, so that an S-shaped airflow channel formed by the air inlet 214, the first cavity 211, the second cavity 212 and the third cavity 213 is formed in the oil guiding ceramic 21. During smoking, the airflow enters the first cavity 211 through the air inlet 214, sequentially flows through the first adapter 215, the second cavity 212, the second adapter 216 and the third cavity 213, and finally flows out from the air outlet 217, and the airflow in the second cavity 212 flows downwards (in the direction opposite to the direction of atomized smoke) along the second cavity 212, so that the smoke flows more intensively and more greatly to the third cavity 213 and the air outlet channel 14, and the user experience is better.

The atomizing assembly 3 includes a bottom cap 31, and an atomizing head 32 disposed within the bottom cap 31.

The atomizing head 32 includes a hollow atomizing sleeve 321 with conductivity, and an ultrasonic atomizing sheet 322 and an insulating base 323 are sequentially arranged in an inner cavity of the atomizing sleeve 321 from top to bottom. An electrode assembly 324 is disposed at the middle of the insulating base 323. The upper end of the atomizing sleeve 321 is connected with the upper surface electrode of the ultrasonic atomizing sheet 322 in an abutting mode, the lower end of the atomizing sleeve 321 is coated at the bottom of the insulating base 323 to serve as a first electrode connecting end, the lower surface electrode of the ultrasonic atomizing sheet 322 is electrically connected with the electrode assembly 324, and the electrode assembly 324 serves as a second electrode end.

An air outlet channel 14 is arranged in the oil storage component 1, an air inlet channel 33 is arranged on the atomization component 3, the air inlet channel 33 is communicated with an S-shaped air flow channel of the oil guide ceramic 21 through an air inlet 214 of the oil guide ceramic 21, and an air outlet of the S-shaped air flow channel is communicated with the air outlet channel 14 through an air outlet hole 124 of the plug body 12.

When the ultrasonic atomization device is used in the embodiment, a user sucks the oil from the suction nozzle 111 of the air outlet channel 14 of the oil storage assembly 1, so that external air enters from the air inlet channel 33 and enters the air outlet channel 14 through the S-shaped air flow channel of the oil guide ceramic 21, tobacco tar is conducted to the ultrasonic atomization sheet 322 from the oil bin 13 through the oil guide assembly 2, the ultrasonic atomization sheet 322 is electrically connected with an external power supply through the atomization sleeve 321 and the electrode assembly 324 to realize ultrasonic atomization, and smoke generated after ultrasonic atomization on the ultrasonic atomization sheet 322 and the oil storage cotton 22 is taken out to the oral cavity of the user through the air flow of the air outlet channel 14 to be sucked.

The above description is only for the preferred embodiment of the present application and should not be taken as limiting the present application in any way, and although the present application has been disclosed in the preferred embodiment, it is not intended to limit the present application, and those skilled in the art should understand that they can make various changes and modifications within the technical scope of the present application without departing from the scope of the present application, and therefore all the changes and modifications can be made within the technical scope of the present application.

Claims (9)

1. The utility model provides a lead oily pottery, its characterized in that includes first cavity (211), second cavity (212), third cavity (213) of vertical setting, the second cavity sets up lead the central zone of oily pottery (21), the bottom of first cavity sets up air inlet (214), the top of first cavity with the top intercommunication of second cavity forms first switching mouth (215), the bottom of second cavity with the bottom intercommunication of third cavity forms second switching mouth (216), and the top of third cavity sets up gas outlet (217), when leading oily pottery and using, air inlet, first cavity, second cavity, third cavity communicate in proper order and constitute S type air current passageway.

2. The oil guide ceramic of claim 1, wherein an oil suction hole (218) is formed at an upper portion of the oil guide ceramic.

3. The oil guiding ceramic of claim 2, wherein two oil suction holes (218) are symmetrically formed at the upper portion of the oil guiding ceramic, and the two oil suction holes are respectively formed at both sides of the second cavity.

4. The oil-conducting ceramic of claim 1, wherein the first cavity (211) and the third cavity (213) are disposed on both sides of the second cavity (212).

5. The oil guide ceramic is characterized in that the bottom of the oil guide ceramic is provided with a pressing contact surface (219) for pressing the oil storage cotton (22), and the pressing contact surface comprises a peripheral bottom surface (2191) at the periphery and a beam bottom surface (2192) and a semi-arc bottom surface (2193) in the middle.

6. An ultrasonic atomizer, including oil storage subassembly (1), lead oily subassembly (2) and atomization component (3), lead oily subassembly and install the oil storage subassembly with between the atomization component, characterized in that, lead oily subassembly including any one of claim 1-5 lead oily pottery (21) and oil storage cotton (22), lead the top butt of oily pottery the oil storage subassembly, lead oily pottery's bottom will the oil storage cotton supports and holds on atomization component's ultrasonic atomization piece (322), just lead oily pottery's second cavity is just right the central zone of ultrasonic atomization piece makes the oil storage cotton that the central zone of ultrasonic atomization piece corresponds exposes in the second cavity.

7. An ultrasonic atomizer according to claim 6, characterized in that the bottom of the oil storage component is provided with a mounting groove (121), and one side of the mounting groove is provided with an air inlet groove (122), and the air inlet groove is communicated with the air inlet (214) of the oil guide ceramic.

8. An ultrasonic atomizer according to claim 6, wherein an oil inlet hole (123) is formed at the bottom of the oil storage assembly, an oil suction hole (218) is formed in the oil-guiding ceramic, and the oil inlet hole is aligned with the oil suction hole.

9. The ultrasonic atomizer of claim 6, wherein said oil-conducting ceramic is mounted opposite to said oil-storing cotton, and said oil-storing cotton is just covered by the bottom surface of said oil-conducting ceramic.

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