Rotating electrical atomizer to reduce stress

The present disclosure relates to the technical field of atomizers, more particularly, to a rotating electrical atomizer to reduce stress.

The electrical atomizer is a kind of electrical product that replaces traditional cigarettes. Atomizing cigarette oil to simulate the taste of cigarettes helps consumers reduce their dependence on conventional cigarettes and achieve the goal of reducing smoking frequency. Compared to traditional cigarettes, atomized cigarette oil produces fewer harmful substances and is more friendly to the environment and people. The structure of an electronic atomizer mainly consists of an atomizer and some cigarette oil. The atomizer heats and atomizes the cigarette oil into atomized oil by electricity for the user to inhale. The output of the atomized oil depends on the efficiency of the cigarette oil transferring to the atomizer and the working efficiency of the atomizer.

The existing electronic atomizers mainly atomize oil for users to inhale to reduce their anxiety, and the means of reducing stress is single. When users need to reduce stress in public, they can not inhale atomized oil, which results in limited applicability of the existing electronic atomizers.

The object of the disclosure is to solve the technical problem that the means of reducing stress of the existing electronic atomizers is single and the user can not use the existing electronic atomizers to relieve anxiety in public, therefore, the disclosure provides a rotating electrical atomizer to reduce stress.

According to some embodiments in the disclosure, the rotating electrical atomizer to reduce stress includes a controlling mechanism, a reducing-stress mechanism, an atomizing mechanism, and an inhaling part. The controlling mechanism includes a supply assembly and a controlling assembly electrically connected to each other. The reducing-stress mechanism is connected to the controlling mechanism and includes a decompression ring and at least one bearing. The decompression ring rotates around the bearing as a center. The atomizing mechanism is connected to the reducing-stress mechanism and provided with an atomizing core and an oil storage room enclosing the atomizing core, the oil storage room is used to store cigarette oil, and the atomizing core is electrically connected to the controlling assembly and heats the cigarette oil into atomized oil. The inhaling part is connected to the atomizing mechanism, and the atomized oil is sprayed from the inhaling part.

According to some embodiments in the disclosure, the reducing-stress mechanism includes a base. The middle part of the base is hollow, and the two ends of the base are connected to the controlling mechanism and the atomizing mechanism respectively. The base is provided with a rotating tube, the inner ring of the bearing is sheathed out of the rotating tube, and the outer ring of the bearing is connected to the decompression ring.

According to some embodiments of the disclosure, an absorbing oil cotton is disposed in the base.

According to some embodiments of the disclosure, the reducing-stress mechanism includes two bearings, the inner wall of the decompression ring is provided with a position-limiting base with a top surface and a bottom surface. The decompression ring is sheathed out of the rotating tube, and the top surface and the bottom surface of the position-limiting base respectively abut against the two bearings.

According to some embodiments of the disclosure, the outer wall of the decompression ring is provided with a convex texture.

According to some embodiments of the disclosure, the controlling mechanism also includes a shell connected to the base and a bracket arranged inside the shell, the controlling assembly is fixed in the bracket, and a button of the controlling assembly extends to the opening of the side wall of the shell.

According to some embodiments of the disclosure, the atomizing mechanism includes an oil cup and a fixing base connected to the bottom of the oil cup, the fixing base is connected to the base, and the top of the oil cup is provided with an oil-injected silica gel base; the oil cup is internally provided with an atomizing passage passing through the oil-injected silica gel base and the bottom of the oil cup, and the atomizing core is arranged in the atomizing passage.

According to some embodiments of the disclosure, the atomizing passage is provided with a guiding hole, and the cigarette oil in the oil storage room enters the atomizing core through the guiding hole.

According to some embodiments of the disclosure, the inhaling part is connected to the oil cup and includes a nozzle in communication with the atomizing passage, the inhaling part is provided with a block at a position corresponding to the opening of the oil-injected silica gel base, and the block is used for blocking the opening of the oil-injected silica gel base.

According to some embodiments of the disclosure, the controlling mechanism, the reducing-stress mechanism, the atomizing mechanism, and the inhale part have equal maximum diameters and are sequentially connected to form a columnar structure.

According to some embodiments of the disclosure, the rotating electrical atomizer at least has the following advantages:

The users can inhale the atomized oil through the atomizing mechanism to relieve anxiety. The decompression ring of the reducing-stress mechanism can cooperate with the bearing to achieve rotation. When in public, it is inconvenient for the users to inhale atomized oil, they also can rotate the decompression ring to obtain a reducing stress effect.

Additional aspects and advantages of the disclosure will be given in the following descriptions, which will become apparent in part from the following descriptions, or be learned from the practice of the disclosure.

Reference will be made in detail to embodiments of the disclosure, examples of which are illustrated in the accompanying drawings, wherein same or similar reference numerals represent same or similar elements or elements with same or similar functions. The embodiments described herein with reference to drawings are explanatory, illustrative, and used to generally understand the disclosure, and shall not be construed to limit the disclosure.

In the description of the disclosure, it should be understood that the orientation description is involved, for example, the orientation or position relations indicated by up, down, front, back, left, right, top, bottom, etc. are based on the orientation or position relations shown in the figures, It is only for the convenience of describing the disclosure and simplifying the description, rather than indicating or implying that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, Therefore, it cannot be understood that the disclosure is limited thereto.

In the description of the disclosure, the meaning of several is one or more, the meaning of a plurality is two or more, greater than, less than, greater than, etc. are understood as not including the present number, and the above, below, within, etc. are understood as including the present number. If it is described that the first and second are only for the purpose of distinguishing technical features, it cannot be understood as indicating or implying relative importance, or implicitly indicating the number of the indicated technical features or implicitly indicating the precedence relationship of the indicated technical features.

In the description of the disclosure, unless specified otherwise, words such as setting, installing and connecting should be understood broadly, and a person skilled in the art can reasonably determine the specific meaning of the described words in the disclosure in conjunction with the specific content of the technical solution.

Referring to, the rotating electrical atomizer to reduce stress includes a controlling mechanism, a reducing-stress mechanism, an atomizing mechanism, and an inhaling part. The four structures respectively have a corresponding function.

Specifically, the controlling mechanismincludes a controlling assemblyand a supply assemblyelectrically connected to each other. The controlling assemblycan control the working state of the rotating electrical atomizer and drive the atomizing mechanismto work.

The reducing-stress mechanismis connected to the controlling mechanismand includes a decompression ringand at least one bearing. The decompression ringrotates around the bearing as a center. When the user is not convenient to use the atomizing mechanismon special occasions, he can rotate the decompression ringto reduce stress.

The reducing-stress principle of the decompression ringis similar to that of decompression products such as fingertip gyroscopes. When people feel anxious, nervous, or stressed, it is often difficult to concentrate. By rotating the decompression ring, people can shift their attention from the pressure source to the rotating decompression ring, temporarily forgetting their worries and achieving a decompression effect. The decompression ring, when rotating, produces a visual dynamic effect, which can stimulate the visual treatment area of the brain, so that the person feels relaxed, and helps relieve pressure.

The atomizing mechanismis connected to the reducing-stress mechanismand provided with an atomizing coreand an oil storage roomenclosing the atomizing core. The oil storage roomis used to store cigarette oil. The atomizing coreis electrically connected to the controlling assemblyand heats the cigarette oil into the atomized oil for the user to take in. The atomizing principle of the cigarette oil is well known to a person skilled in the art and is not described in detail in this embodiment.

The inhaling partis connected to the atomizing mechanism, and the atomized oil is sprayed from the inhaling part.

In some embodiment in the disclosure, referring to, the reducing-stress mechanismincludes a base. The middle part of the base is hollow, and the two ends thereof are respectively connected to the controlling mechanismand the atomizing mechanism, the baseis provided with a rotating tube, the inner ring of the bearingis sheathed out of the rotating tube, and the outer ring of the bearingis connected to the decompression ring.

Specifically, the inner ring of the bearingis sheathed out of the rotating tube, and the outer ring of the bearingis sheathed in the decompression ring. The decompression ringis pulled to rotate rapidly, thereby achieving a reduced stress effect. The cable of the controlling assemblycan be electrically connected to the atomizing coreof the atomizing mechanismvia the hollow middle part of the base.

In some embodiments, referring to, the reducing-stress mechanismincludes two bearings. The inner wall of the decompression ringis provided with a limiting basewith a top surface and a bottom surface, when the decompression ringis sheathed with the rotating tube, the top surface and the bottom surface of the limiting baserespectively abut against the two bearings. Specifically, the two bearingsare arranged to enable the decompression ringto be subjected to a more balanced force when rotating and to rotate more smoothly. The two bearingsabut against the limiting base, thereby preventing the decompression ringfrom axially displacing and affecting the rotation thereof.

It should be understood that the two bearingsare arranged and the decompression ringis provided with the limiting base, which is not the only implementation; in other embodiments, a position-limiting groove may be arranged in the middle of the inner wall of the decompression ring, and the position-limiting groove is fitted with the outer ring of the bearingsso that the force applied to the decompression ringis balanced by the position-limiting groove, which applies to a situation in which the length of the decompression ringis relatively short. The connection structure between the decompression ringand the bearingis not described in detail in the disclosure. It should be understood that, without departing from the basic concept of the disclosure, the connection structure between the decompressionand the bearingcan be flexibly changed, which should be considered to belong to the scope of protection defined by the disclosure.

In some embodiments, referring to, the outer wall of the decompression ringis provided with a convex texture. Specifically, the decompression ringmay be made of a metal material with a better texture. The convex textureis used to improve the decoration of the decompression ring. The convex texturegenerates a unique visual effect along with the rotation of the decompression ring, which can further improve the stress-reducing effect of the decompression ring. In the embodiments, the convex texturecan be a stripe texture, a diamond texture, a wave point texture, or the like,

In some embodiments, referring to, an absorbing oil cottonis disposed in the base. Specifically, the baseis a middle part connecting the controlling mechanismand the atomizing mechanism, the cable of the controlling assemblypasses through the hollow middle part of the baseto electrically connect to the atomizing core. When the atomized oil generated by the atomizing mechanismis liquidated and enters the interior of the base, the absorbing oil cottoncan absorb it in time, so as to prevent the cigarette oil from entering the control mechanismand damaging the control assemblyor the power supply assembly.

In some embodiments, referring to, the controlling mechanismincludes a shellconnected to the baseand a bracketarranged inside the shell. The controlling assemblyis fixed in the bracket. A buttonof the controlling assemblyextends to an openingon a side wall of the shell.

Specifically, the supply assemblyis mounted inside one end of the shell, the bracketis fixed inside the shell, and the controlling assemblyis mounted inside the bracketto avoid shaking. The controlling assemblyalso includes an indicator light. The indicator lightand the buttonextend out of the shellfrom the printed circuit board of the controlling assembly. The user controls the atomizing mechanismto operate by pressing the buttonand identifies the current working status of the rotary electronic atomizer by observing the status of indicator light.

In some embodiments, referring to, the atomizing mechanismincludes an oil cupand a fixing baseconnected to the bottom of the oil cup, the fixing baseis connected to the base, and the top of the oil cupis provided with an oil-injected silica gel base; the oil cupis internally provided with an atomizing passagepenetrating through the oil-injected silica gel baseand the bottom of the oil cup, the atomizing coreis arranged in the atomizing passage.

Specifically, the space between the side wall of the oil cupand the side wall of the atomizing passageforms the oil storage room. The bottom of the oil cupis provided with a mounting groovefor mounting the atomizing passage, the atomizing passagecan fix the position of the atomizing passage. The middle of the oil-injected silica gel baseis provided with a through hole corresponding to the position of the atomizing passage. When the oil-injected silica gel baseis connected to the oil cup, the atomizing passageextends from the middle part of the oil-injected silica gel baseto the inhaling part, such that the inhaling partis in communication with the atomizing corethrough the atomizing passage.

The fixing baseserves as a connector for connecting the baseand the oil cup. In addition to connecting the baseand the oil cup, a side wall of the fixing seatcan also abut against a side wall of the bearing, thereby reducing an axial offset between the bearingand the decompression ring.

In some embodiments, referring to, the atomizing passageis provided with a guiding hole, the cigarette oil in the oil storage roompasses through the guiding holeand enters the atomizing core. Specifically, the atomizing passageis provided with the guiding holeat a position close to the bottom of the oil storage room, the outer wall of the atomizing corefits the guiding hole. The cigarette oil in the oil storage roomenters the atomizing corethrough the guiding holeand then is heated by the atomizing coreto form the atomized oil, and the atomized oil is sprayed out of the inhaling partalong with the atomizing passage.

In some embodiments, referring to, the inhaling partis connected to the oil cupand includes a nozzlein communication with the atomizing passage, the inhaling partis provided with a block at a position corresponding to the opening of the oil-injected silica gel base, and the block is used for blocking the opening of the oil-injected silica gel base.

Specifically, the inhaling partis made of integrally formed food-grade silica gel, and a user can detach the inhaling partfor cleaning. After the inhaling partis detached, the block moves out from the opening of the oil-injected silica gel baseso that the cigarette oil can be added into the oil storage roomthrough the opening. The nozzleand the atomizing passageare coaxially arranged, and the atomized oil in the atomizing passageis sprayed out by the nozzle.

In some embodiments, referring to, the controlling mechanism, the reducing-stress mechanism, the atomizing mechanism, and the inhaling parthave the same maximum diameters and are sequentially connected to form a columnar structure. Specifically, the diameters of the shell of the controlling mechanism, the reducing-stress mechanism, and the atomizing mechanismare all equal, and form a columnar structure as a whole, thereby improving the grip feel of the user. The user can hold the controlling mechanismand use a thumb to rotate the decompression ring. The operation is convenient, and the decompression ringcan be used on any occasion to relieve pressure.

In the description of this specification, the descriptions referring to the terms “one embodiment”, “some embodiments”, “schematic embodiment”, “examples”, “specific examples”, or “the specific features”, means structure, material, or features described in combination with the embodiment or example, which are included in at least one embodiment or example of the present invention. In this specification, a schematic representation of the above terms does not necessarily refer to the same embodiments or examples. Moreover, the specific features, structures, or materials described may be combined in a suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, one of ordinary skill in the art may understand that the multiple changes, modifications, replacement, and variations of these embodiments may be made without departing from the principles and purposes of the present invention, and the scope of the present invention is defined by the claims and the equivalent thereof.