Utility model content
The purpose of this utility model is the electronic smoke atomizer providing a kind of skin temperature lower.
In order to solve the problems of the technologies described above, the utility model provides a kind of electronic smoke atomizer, comprise shell, cover assembly, lower cover component and atomizing electrode assembly, described body seal is connected between described cover assembly and described lower cover component, described atomizing electrode assembly is placed in the inner chamber of described lower cover component, and described cover assembly offers air admission hole; Described electronic smoke atomizer also comprises interior pipe assembly, and described interior pipe assembly is arranged in described shell, and forms tobacco tar chamber with described shell; Described interior pipe assembly comprises in first manages and is sheathed on pipe in second in described first outside pipe, atomizing electrode assembly is provided with in pipe in described first, in described first, pipe has middle through hole, inlet channel is formed between pipe in pipe and described second, the lower end that one end is communicated with described air admission hole, the other end is communicated with described middle through hole of described inlet channel in described first; The upper end of described middle through hole is gas outlet, and described middle through hole forms outlet passageway.
Wherein, described electronic smoke atomizer also comprises suction nozzle pipe, and described suction nozzle pipe is plugged on described cover assembly, and forms with the gas outlet of described middle through hole that air-flow is through to be connected.
Wherein, the side face of described suction nozzle pipe offers cold air hole, the through described inlet channel of described cold air hole.
Wherein, described electronic smoke atomizer also comprises cold air adjustment cover, and described cold air adjustment cover to be sheathed on described suction nozzle pipe and to rotate relative to described suction nozzle pipe, and cold air adjustment hole offered by described cold air adjustment cover, and described cold air adjustment hole is corresponding with described air admission hole.
Wherein, described cover assembly is air inlet seat, and described air inlet seat has connecting portion that one connects and exposes portion, and described connecting portion is sealedly attached in described shell, described in expose portion side face offer air admission hole, described air admission hole is communicated with described inlet channel; Be plugged with suction nozzle pipe in described air inlet upper cover, inner chamber and the described air admission hole of described suction nozzle pipe are separate.
Wherein, described cover assembly also comprises air inlet adjustment cover, to expose described in described air inlet adjustment cover is sheathed in portion and relative to described in the portion of exposing rotate, air inlet adjustment hole offered by described air inlet adjustment cover, and described air inlet adjustment hole is corresponding with described air admission hole.
Wherein, the outer peripheral face of described air inlet adjustment cover is provided with the longitudinal stripe of multiple even arrangement.
Wherein, described atomizing electrode assembly comprises heat generating component and atomization negative pole assembly, and described heat generating component is embedded in the end of pipe in described second; Described heat generating component is embedded in described atomization cover; Described atomization negative pole component sealing is connected on the end of pipe in described second, and is electrically connected on described heat generating component.
Wherein, described heat generating component comprises oil-deflecting element and heating wire; The central shaft of described oil-deflecting element is parallel to the central shaft of pipe in described first, and described heating wire is arranged on described oil-deflecting element.
The electronic smoke atomizer that the utility model provides is by arranging air admission hole at cover assembly, and in shell, set up interior pipe assembly, make the inside of electronic smoke atomizer form three layers of channel isolation: be in outermost tobacco tar chamber, the layer that mediates inlet channel and be in the outlet passageway of innermost layer; Wherein, outlet passageway is positioned at innermost layer, and from shell farthest, and inlet channel surrounds outlet passageway, preferably heat and shell is completely cut off and opens, thus effectively reduce the temperature on shell.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described.
Refer to Fig. 1 to Fig. 3, the utility model embodiment provides a kind of electronic smoke atomizer 100, comprise shell 1, cover assembly 2, lower cover component 3 and atomizing electrode assembly 4, shell 1 is sealedly attached between cover assembly 2 and lower cover component 3, atomizing electrode assembly 4 is placed in the inner chamber of lower cover component 3, and cover assembly 2 offers air admission hole 212a.
In the present embodiment, shell 1 is the cylindrical shell of tubulose, and shell 1 has the upper link 11 and lower link 12 that are oppositely arranged.
Cover assembly 2 is sealedly attached on link 11.Cover assembly 2 offers air admission hole 212a, so that air-flow enters from the top of electronic smoke atomizer 100, then flow to the below of electronic smoke atomizer 100, avoids the phenomenon scalded one's hand in the bottom occurring electronic smoke atomizer 100.
The cross section of lower cover component 3 is U-shaped, and the upper end of lower cover component 3 is sealedly attached on lower link 12, and therefore, the syndeton of cover assembly 2, shell 1 and lower cover component 3 forms the inner chamber of electronic smoke atomizer 100.
Electronic smoke atomizer 100 also comprises interior pipe assembly 5, and interior pipe assembly 5 is arranged in shell 1, and forms tobacco tar chamber with shell 1.
In the present embodiment, interior pipe assembly 5 is arranged in the inner chamber of electronic smoke atomizer 100.
Interior pipe assembly 5 to comprise in first pipe 51 and is sheathed on pipe 52 in second in first outside pipe 51.
In first, pipe 51 is substantially in step axle sleeve, and in first, pipe 51 has middle through hole 511.In first, the diameter major part of pipe 51 arranges atomizing electrode assembly 4, can be understood as, and the part that in first, the diameter of pipe 51 is larger is atomization chamber 512.
In first, the end of the smaller-diameter portion of pipe 51 is embedded in cover assembly 2, for up until be sucked out for the smog produced in atomization chamber 512.
In second, pipe 52 is substantially in step axle sleeve.In second, pipe 52 is sheathed in first outside pipe 51, and and arranges gap in first between pipe 51 and form inlet channel X.In second, the upper end of pipe 52 is connected to cover assembly 2, with the air admission hole 212a making the upper end of inlet channel X be communicated with cover assembly 2.The lower end of through hole 511 in the lower end connection of inlet channel X.In second, the lower end of pipe 52 is tightly connected atomizing electrode assembly 4, and the inner chamber of pipe 52 in second is closed.In second, the step surface 521 of pipe 52 arranges oil guiding hole, import in the inner chamber of pipe 52 in second for the tobacco tar in tobacco tar chamber, make atomizing electrode assembly 4 can occur to be atomized to react with tobacco tar and then produce smog, therefrom flow out in through hole 511 i.e. outlet passageway Y, until the upper end of middle through hole 511 and gas outlet are sucked out.To sum up, outlet passageway Y is positioned at innermost layer, and from shell 1 farthest, and inlet channel X surrounds outlet passageway Y, preferably heat and shell 1 is completely cut off and opens, thus effectively reduce the temperature on shell 1.
The electronic smoke atomizer 100 that the utility model embodiment provides is by arranging air admission hole 212a at cover assembly 2, and in shell 1, set up interior pipe assembly 5, make the inside of electronic smoke atomizer 100 form three layers of channel isolation: be in outermost tobacco tar chamber, the layer that mediates inlet channel X and be in the outlet passageway Y of innermost layer; Wherein, outlet passageway Y is positioned at innermost layer, and from shell 1 farthest, and inlet channel X surrounds outlet passageway Y, preferably heat and shell 1 is completely cut off and opens, thus effectively reduce the temperature on shell 1.
In order to further improve, atomizing electrode assembly 4 comprises heat generating component 41 and atomization negative pole assembly 42, and heat generating component 41 is embedded in the end of pipe 51 in first; Heat generating component 41 is embedded in atomization cover; Atomization negative pole assembly 42 is sealedly attached on the end of pipe 52 in second, and is electrically connected on heat generating component 41.
Directly be embedded in the end of pipe 51 in first by just heat generating component 41, the smog that heat generating component 41 is produced can be sucked out in through hole 511 very first time from pipe 51 in first.
In the present embodiment, in order to more optimize the structure of heat generating component 41, heat generating component 41 comprises oil-deflecting element 411 and heating wire 412; The central shaft of oil-deflecting element 411 is parallel to the central shaft of pipe 51 in first, and heating wire 412 is arranged on oil-deflecting element 411.
Concrete, oil-deflecting element 411 is tubular structure, and oil-deflecting element 411 is embedded in the lower end of pipe 51 in first, and oil-deflecting element 411 can adsorb the tobacco tar in atomization chamber 512.
Concrete, heating wire 412 is wound on oil-deflecting element 411, and is electrically connected on atomization negative pole assembly 42.When heat generating component 41 is arranged at the lower end of pipe 51 in first, oil-deflecting element 411 is coaxial with middle through hole 511.
When heating wire 412 heating power, the tobacco tar on oil-deflecting element 411 is heated and atomization reaction generation smog occurs, and smog is sucked out along outlet passageway Y.Certainly, in other embodiments, the central shaft of oil-deflecting element 411 can also perpendicular to the central shaft of middle through hole 511.
Preferably, heat generating component 41 also comprises plum blossom condensate film, plum blossom condensate film be arranged at pipe 51 in first step place, prevent in the mouth of the tobacco tar splashing access customer in atomization chamber 512.
In the present embodiment, be atomized negative pole assembly 42 and comprise electrode tip holder 421 and electrode assemblie 422.One end of electrode tip holder 421 is provided with external screw thread, is threadedly connected on the lower end of lower cover component 3, and is sealedly attached to the lower end of pipe 52 in second, closes to make pipe 52 inner chamber in second.
Electrode assemblie 422 is arranged in the inner chamber of electrode tip holder 421, and is electrically connected on heating wire 412, to be electrically connected with heat generating component 41, makes its generation smog that generates heat.
During use, air-flow enters inlet channel X by air admission hole 212a, more up until the lower end of through hole 511 and gas outlet in arriving along outlet passageway Y, and wherein, the smog that atomization positive electrode produces can be flowed out by the upper end of middle through hole 511 and gas outlet.
In order to further improve, electronic smoke atomizer 100 also comprises suction nozzle pipe 6, and suction nozzle pipe 6 is plugged on cover assembly 2, and forms with the gas outlet of middle through hole 511 that air-flow is through to be connected.
By arranging suction nozzle pipe 6, be convenient to the smog that client sucks electronic smoke atomizer 100 generation.
In the present embodiment, suction nozzle pipe 6 is the cylindrical shell of tubulose, and suction nozzle pipe 6 is plugged on cover assembly 2, the inner chamber of suction nozzle pipe 6 and the inner space of middle through hole 511.Wherein, inner chamber and the inlet channel X of suction nozzle pipe 6 are mutually isolated, prevent the air inlet of electronic smoke atomizer 100 from affecting sucking of smog.Certainly, in other embodiments, suction nozzle pipe 6 can also be threaded or buckle is connected in cover assembly 2.
In order to further improve, the side face of suction nozzle pipe 6 offers cold air hole 6a, the through outlet passageway Y of cold air hole 6a.
By arranging cold air hole 6a, make outside air can flow in the inner chamber of suction nozzle pipe 6 by cold air hole 6a, air enters in the oral cavity of user simultaneously and carries out combination cooling together with reeky smog in suction nozzle pipe 6 inner chamber.
In the present embodiment, suction nozzle pipe 6 is evenly arranged near the side face of cover assembly 2 and is arranged four cold air hole 6a.The inner chamber of the through suction nozzle pipe 6 of cold air hole 6a.When user sucks smog, gas can enter from cold air hole 6a, carries out combination cooling, then enter in the mouth of user with smog reeky in suction nozzle pipe 6.Certainly, in other embodiments, the quantity of cold air hole 6a can be arranged according to actual conditions, can be one, two, three, etc.
In order to further improve, electronic smoke atomizer 100 also comprises cold air adjustment cover 7, and cold air adjustment cover 7 to be sheathed on suction nozzle pipe 6 and to rotate relative to suction nozzle pipe 6, and cold air adjustment overlaps 7 and offers cold air adjustment hole 7a, and cold air adjustment hole 7a is corresponding with air admission hole 212a.
By being sheathed on suction nozzle pipe 6 by cold air adjustment cover 7, control the air entered in cold air hole 6a, to regulate the temperature of the smog in outlet passageway Y further.
In the present embodiment, cold air adjustment cover 7 is sheathed on suction nozzle pipe 6, and can rotate relative to suction nozzle pipe 6.The cold air adjustment hole 7a corresponding with cold air hole 6a offered by cold air adjustment cover 7.Control the relative position between cold air adjustment hole 7a and cold air hole 6a, control the air entered in cold air hole 6a.Such as, when user needs the temperature of smog minimum, cold air adjustment hole 7a is aimed at completely with cold air hole 6a, be communicated with, ensure that can enter maximum air in cold air hole 6a to cool with the smog in outlet passageway Y.When user needs the temperature of smog the highest, cold air adjustment hole 7a and cold air hole 6a is staggered completely, avoided air to enter outlet passageway Y, thus ensure that the temperature of smog can reach the highest.
In order to further improve, cover assembly 2 comprises air inlet seat 21, and air inlet seat 21 has the connecting portion 211 of one connection and exposes portion 212, and connecting portion 211 is sealedly attached in shell 1, the side face exposing portion 212 offers air admission hole 212a, and air admission hole 212a is communicated with inlet channel X; Be plugged with suction nozzle pipe 6 in air inlet upper cover, inner chamber and the air admission hole 212a of suction nozzle pipe 6 are separate.
In the present embodiment, air inlet seat 21 is tubulose.The connecting portion 211 of air inlet seat 21 is sealedly attached on the upper link 11 of shell 1.The side face exposing portion 212 offers four air admission hole 212a, the inner chamber exposing portion 212 is embedded with the upper end of second the inner, be communicated with inlet channel X to make air admission hole 212a, in first, the upper end of pipe 51 extends towards the upper end away from pipe 52 in second, be embedded in the inner chamber of air inlet seat 21, to make inlet channel X and outlet passageway Y separate.Air intake duct is plugged in the inner chamber of air inlet seat 21, to be communicated with outlet passageway Y.
In order to further improve, cover assembly 2 also comprises air inlet adjustment cover 22, and air inlet adjustment cover 22 to be sheathed in the portion of exposing 212 and to rotate relative to the portion of exposing 212, and air inlet adjustment hole 22a offered by air inlet adjustment cover 22, and air inlet adjustment hole 22a is corresponding with air admission hole 212a.
In the present embodiment, air inlet adjustment cover 22 is sheathed in the portion of exposing 212, air inlet adjustment is overlapped 22 corresponding air admission hole 212a correspondences and is offered air inlet adjustment hole 22a, by the relative position between adjustment air inlet adjustment cover 22 and air admission hole 212a, to control the amount of smoke of outlet passageway Y.
In order to further improvement, the outer peripheral face of air inlet adjustment cover 22 is provided with the longitudinal stripe 22b of multiple even arrangement.
In the present embodiment, by arranging the longitudinal stripe 22b of multiple even arrangement at the outer peripheral face of air inlet adjustment cover 22, make user more convenient when rotating inlet regulating sleeve 22.Certainly, in other embodiments, longitudinal stripe 22b can also be replaced with wave stripe 22b.
When the electronic smoke atomizer 100 that the utility model embodiment provides is brought into use, gas enters from air admission hole 212a, descending along inlet channel X, enters in atomization chamber 512, more up until be sucked out in outlet passageway Y; Wherein, heat generating component 41 generates heat, and occurs to be atomized to react to produce smog with absorption tobacco tar thereon, and air-flow as above drives smog to be sucked out from suction nozzle pipe 6; User can by the temperature regulating cold air adjustment cover 7 regulate the smog into mouth, can also regulate amount of smoke into mouth by regulating air inlet adjustment cover 2224.To sum up, the outlet passageway Y that temperature is higher is positioned at innermost layer, and the lower inlet channel X of temperature surrounds outlet passageway Y, the effective heat reducing shell 1.
The electronic smoke atomizer 100 that the utility model embodiment provides is by arranging air admission hole 212a at cover assembly 2, and in shell 1, set up interior pipe assembly 5, make the inside of electronic smoke atomizer 100 form three layers of channel isolation: be in outermost tobacco tar chamber, the layer that mediates inlet channel X and be in the outlet passageway Y of innermost layer; Wherein, outlet passageway Y is positioned at innermost layer, and from shell 1 farthest, and inlet channel X surrounds outlet passageway Y, preferably heat and shell 1 is completely cut off and opens, thus effectively reduce the temperature on shell 1.
It is more than preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.