CN105795522A - Electronic cigarette atomizer - Google Patents
Electronic cigarette atomizer Download PDFInfo
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- CN105795522A CN105795522A CN201610218259.2A CN201610218259A CN105795522A CN 105795522 A CN105795522 A CN 105795522A CN 201610218259 A CN201610218259 A CN 201610218259A CN 105795522 A CN105795522 A CN 105795522A
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Abstract
The invention relates to an electronic cigarette atomizer.A tar bin air exchange hole is formed in an outer air guide pipe and communicated with a cigarette tar bin, and the cigarette tar bin is in air-flow communication with an air flow channel formed between the outer air guide pipe and an inner air guide pipe through the tar bin air exchange hole.An air exchange ring and an air exchange plug can effectively prevent cigarette tar leakage, and outside air can flow into the atomizer through an outer air inlet formed in an upper base to enter the air flow channel formed between the outer air guide pipe and the inner air guide pipe; one part of the air enters an atomization core to cool the inner air guide pipe and the atomization core to lower the temperature of smoke, the other part of the air penetrates through air exchange micropores formed in the air exchange ring and the air exchange plug and then enters the cigarette tar bin through the tar bin air exchange hole, and therefore the inner and outer pressure difference of the cigarette tar bin and the atomization core is balanced.Negative pressure cannot be formed in the cigarette tar bin while cigarette tar is gradually atomized, therefore, the cigarette tar can be sucked into the atomization core without needing the large sucking force, and smoking is easy.
Description
Technical field
The present invention relates to electronic cigarette technical field, particularly relate to a kind of electronic smoke atomizer.
Background technology
Modern humans has appreciated that the medicated cigarette harm to health, and the pollution that smoke from cigarette is to atmospheric environment especially indoor environment, and along with the raising of quality of the life, attention and the society attention to external environment especially indoor environmental pollution healthy to own bodies, give up smoking imperative.In order to solve " addict " depending on unduly conventional cigarette, electronic smoke atomizer then arises at the historic moment in recent years.Electronic cigarette is mainly used in substituting conventional cigarette, and it mainly realizes principle is by the heat generating member in nebulizer, and the ree-oil having no side effect is atomized into smog, makes smoker obtain a kind of excitement of medicated cigarette effect.
Traditional electronic smoke atomizer, ree-oil storehouse is in sealing state, and during use, ree-oil is absorbed atomization by Oil Guide body gradually, it is easy to forming negative pressure in ree-oil storehouse.After using a period of time, it is necessary to ree-oil could be sucked in atomization core by bigger suction, sucks relatively elaborate.
Summary of the invention
Based on this, it is necessary to provide one to suck and compare labour-saving electronic smoke atomizer.
A kind of electronic smoke atomizer, including upper bed-plate, atomizing component, outer cover of atomizer, lower bottom base and component suction nozzle, described atomizing component and described outer cover of atomizer are arranged between described upper bed-plate and described lower bottom base, forming a ree-oil storehouse between described upper bed-plate, described atomizing component, described outer cover of atomizer, described lower bottom base, described component suction nozzle is arranged on described upper bed-plate;Described upper bed-plate offers the external admission hole communicated with the external world;
Described atomizing component includes pipe in atomization core, inducing QI outer tube and inducing QI;In described inducing QI, pipe box is located in described inducing QI outer tube, and in described inducing QI, the lower end of pipe fits with the lower end of described inducing QI outer tube, spaced formation gas channel between upper end and the upper end of described inducing QI outer tube of pipe in described inducing QI;In described inducing QI, the lower end of pipe forms aerochamber, and described atomization core is fixed on described lower bottom base and installs in described aerochamber, forms air-flow through between described aerochamber, described gas channel and external admission hole;
Described atomizing component also includes ventilation ring and air exchanging plug, described inducing QI outer tube is provided with bunker air-vent, described bunker air-vent connects with described ree-oil storehouse, described air exchanging plug is the ventilating structure with micropore, it is set in described inducing QI on pipe after described ventilation ring and described air exchanging plug stacking overlapping, described ventilation ring is provided with ventilation micropore, and described ree-oil storehouse is through with described gas channel formation air-flow by described bunker air-vent, described air exchanging plug and described ventilation micropore.
In one embodiment, described inducing QI outer tube is divided into top outer tube, outer pipe jointing part and bottom outer tube, the caliber of described top outer tube is less than the caliber of described bottom outer tube, and described outer pipe jointing part one end connects described top outer tube, and the other end of described outer pipe jointing part connects described bottom outer tube;
In described inducing QI, pipe is divided in top managing, manages in interior pipe jointing part and bottom, in described top, the caliber of pipe is less than the caliber of pipe in described bottom, said inner tube connecting portion one end connects pipe in described top, and the other end of said inner tube connecting portion connects pipe in described bottom.
In one embodiment, the outer pipe jointing part at described inducing QI outer tube is provided with bunker air-vent, and described bunker air-vent is through with the described ventilation micropore phase air-flow on described ventilation ring.
In one embodiment, said inner tube connecting portion is provided with interior pipe air inlet, and said inner tube air inlet is by through to described aerochamber and gas channel.
In one embodiment, described bottom outer tube is provided with outer tube oil guiding hole, and in described bottom, pipe is provided with interior pipe oil guiding hole, and described bottom outer tube is rotationally connected with pipe in described bottom.
In one embodiment, described ventilation ring includes connecting cylinder and is located at the support sector of described connecting cylinder one end, the inwall of the outer wall of described connecting cylinder and described inducing QI outer tube fits, and described ventilation micropore is arranged in described support sector, and described air exchanging plug is fitted with described support sector.
In one embodiment, the sidewall of described inducing QI outer tube is provided with outer tube air-flow exchange hole, and described gas channel is through by described outer tube air-flow exchange hole and described external admission gas flow hole;In described inducing QI, the sidewall of pipe is provided with interior pipe air-flow exchange hole, and said inner tube air-flow exchange hole is through with described gas channel air-flow.
In one embodiment, described atomization core includes heater, the first heat insulation loop of hollow, the second heat insulation loop of hollow, atomization core shell body and electrode;
Described heater includes heater body and is arranged on the first conductive pin on described heater body and the second conductive pin, described heater body is the hollow structure of both ends open, described first heat insulation loop is set in one end of described heater body, and described second heat insulation loop is set in the other end of described heater body;
Described heater body is that lateral suspension formula is placed in described atomization core shell body, described atomization core shell body is provided with the first installing hole and the second installing hole, described heater body one end is arranged in described first installing hole, the other end of described heater body is arranged in described second installing hole, and described heater body is by described first heat insulation loop and described second heat insulation loop and the described atomization isolated installation of core shell body;
Described electrode is arranged on the lower end of described atomization core shell body, and described electrode insulate with described atomization core shell body, and described first conductive pin electrically connects with described atomization core shell body, and described second conductive pin electrically connects with described electrode.
In one embodiment, described atomization core shell body includes atomization upper cover and atomization lower cover, described atomization upper cover is connected the described atomization core shell body of formation with described atomization lower cover, described atomization covers and is provided with the first upper cover installation gap and the second upper cover installation gap, cover under described atomization and be provided with the first lower cover installation gap and the second lower cover dress breach, described first upper cover installation gap and described first lower cover installation gap combination form described first installing hole, and described second upper cover installation gap forms described second installing hole with described second lower cover dress breach combination.
In one embodiment, described heater body is pillar tubular structure.
Above-mentioned electronic smoke atomizer, by arranging bunker air-vent on inducing QI outer tube, bunker air-vent connects with ree-oil storehouse, ree-oil storehouse is through by gas channel air-flow between pipe in bunker air-vent and inducing QI outer tube and inducing QI, air-flow conducting and the ree-oil blocking action of recycling ventilation ring and air exchanging plug, reach the external admission hole that outside air can pass through on upper bed-plate to flow into, enter the gas channel between pipe in inducing QI outer tube and inducing QI, and can effectively block ree-oil and directly leak in gas channel.Portion of air enters in atomization core, and in cooling inducing QI, pipe and atomization core, reduce smog temperature;Another part air is entered in ree-oil storehouse from after the ventilation micropore taken a breath ring and air exchanging plug by bunker air-vent, makes the inside and outside differential pressure of ree-oil storehouse and atomization core balance.Along with ree-oil is atomized gradually, without forming negative pressure in ree-oil storehouse, ree-oil can be sucked in atomization core by suction that therefore need not be very big, sucks ratio relatively labor-saving.
Accompanying drawing explanation
Fig. 1 is the structural representation of an embodiment electronic smoke atomizer;
Fig. 2 is the sectional view in a direction of the atomizing component of electronic smoke atomizer as shown in Figure 1;
Fig. 3 is the sectional view in another direction of the atomizing component of electronic smoke atomizer as shown in Figure 1;
Fig. 4 is the explosive view of the atomizing component of electronic smoke atomizer as shown in Figure 1;
Fig. 5 is the structural representation of the inducing QI outer tube of electronic smoke atomizer as shown in Figure 1;
Fig. 6 is the structural representation of the ventilation ring of electronic smoke atomizer as shown in Figure 1;
Fig. 7 is the explosive view of the atomization core of electronic smoke atomizer as shown in Figure 1.
Detailed description of the invention
For the ease of understanding the present invention, mainly in combination with concrete drawings and the specific embodiments, electronic cigarette atomizing core and electronic smoke atomizer are described in further detail below.
Accompanying drawing gives the present invention preferably embodiment.But, the present invention can realize in many different forms, however it is not limited to embodiments described herein.On the contrary, provide the purpose of these embodiments be make the disclosure is understood more thorough comprehensively.
It should be noted that be referred to as " being fixed on " another element when element, it can directly on another element or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements.For illustrative purposes only, being not offered as is unique embodiment for term as used herein " vertical ", " level ", "left", "right" and similar statement.
Unless otherwise defined, all of technology used herein is identical with the implication that the those skilled in the art belonging to the present invention are generally understood that with scientific terminology.The term used in the description of the invention herein is intended merely to the purpose describing specific embodiment, it is not intended that in the restriction present invention.
Referring to Fig. 1, the electronic smoke atomizer 10 of an embodiment, including upper bed-plate 100, atomizing component 200, outer cover of atomizer 300, lower bottom base and component suction nozzle.
Atomizing component 200 and outer cover of atomizer 300 are arranged between upper bed-plate 100 and lower bottom base, upper bed-plate 100, atomizing component 200, formation ree-oil storehouse 600 between outer cover of atomizer 300 and lower bottom base, component suction nozzle is arranged on upper bed-plate 100, and upper bed-plate 100 offers the external admission hole 110 communicated with the external world.
Atomizing component includes pipe 230 in atomization core 210, inducing QI outer tube 220 and inducing QI.In inducing QI, pipe 230 is set in inducing QI outer tube 220, and in inducing QI, the lower end of pipe 230 fits with the lower end of inducing QI outer tube 220, spaced formation gas channel 201 between upper end and the upper end of inducing QI outer tube 220 of pipe 230 in inducing QI.In inducing QI, the lower end of pipe 230 forms aerochamber 240.Atomization core 210 is fixed on lower bottom base and installs in aerochamber 240, forms air-flow through between aerochamber 240, gas channel 201 and external admission hole 110.
Atomizing component also includes ventilation ring 700 and air exchanging plug 800, inducing QI outer tube 220 is provided with bunker air-vent 203, bunker air-vent 203 connects with ree-oil storehouse 600, electronic smoke atomizer 10 air exchanging plug 800 is the ventilating structure with micropore, being set in inducing QI on pipe 230 after ventilation ring 700 and air exchanging plug 800 stacking overlapping, ventilation ring 700 is provided with ventilation micropore 701.It is through that ree-oil storehouse 600 forms air-flow by bunker air-vent 203, air exchanging plug 800 and ventilation micropore 701 and gas channel 201.
Component suction nozzle is arranged on upper bed-plate 100, and upper bed-plate 100 is provided with external admission hole 110, and the external admission hole 110 that outside air can pass through on upper bed-plate 100 flows into, and enters the gas channel 201 between pipe 230 in inducing QI outer tube 220 and inducing QI.
Traditional electronic smoke atomizer is in atomization process, when being atomized the external electric energy work that core 210 obtains abundance, moment can consume substantial amounts of ree-oil, the lasting minimizing of ree-oil in ree-oil storehouse 600, the air capacity being penetrated into bunker by organic cotton and ceramic heating element is not enough, will produce certain negative pressure in bunker.This negative pressure can hinder the continuation supply of ree-oil, thus cigarette low on fuel needed for causing heater body 2111 moment, produces the generation of taste variation or burning.And the electronic smoke atomizer 10 of the present invention, on inducing QI outer tube 220, bunker air-vent 203 is set.Ambient atmos flows into from external admission hole 110, after entering in inducing QI outer tube 220 and inducing QI the gas channel 201 between pipe 230, two passages of air flow, one is enter aerochamber 240 from gas channel 201, enter back in atomization core 210, arrive component suction nozzle with smog pipe 230 in inducing QI.Another is the ventilation micropore 701 on ventilation ring 700, enters ree-oil storehouse 600 by air exchanging plug 800 and bunker air-vent 203.Air exchanging plug 800, under being saturated with cigarette oil condition, plays the effect sealing ree-oil, it is ensured that in ree-oil storehouse 600, ree-oil does not leak to gas channel 201.When ree-oil storehouse 600 produces certain negative pressure, air in gas channel 201 is due to the effect of air pressure, air exchanging plug 800 is entered by the ventilation micropore 701 of ring 700 of taking a breath and limit gap, bunker air-vent 203 again through inducing QI outer tube 220 penetrates into ree-oil storehouse 600, make the air pressure balance in ree-oil storehouse 600, reduce the negative pressure even eliminating in ree-oil storehouse 600, it is ensured that the ree-oil supply of atomization core 210 is smooth and easy.
Concrete, upper bed-plate 100 includes suction nozzle seat 111, air inlet seat 113 and air inlet adjustment ring 115.Suction nozzle seat 111 is used for installing component suction nozzle.External admission hole 110 is located on the sidewall in air inlet seat 113.Air inlet adjustment ring 115 and air inlet seat 113 are rotationally connected.Can rotating a certain angle between air inlet adjustment ring 115 and air inlet seat 113, user can pass through him and regulate the size of air inlet voluntarily, adjusts amount of smoke and mouthfeel.
In present embodiment, also include silica gel ring 117 and ree-oil sealing ring 119.Upper silica gel ring 117 is provided with four projections.During assembling, air inlet adjustment ring 115 being enclosed within the outside of air inlet seat 113, two feet keeping air inlet adjustment ring 115 are young on two fan-shaped heavy stands of air inlet seat 113.Being assembled in the cannelure of suction nozzle seat 111 by upper silica gel ring 117 again, in maintenance, four projections of silica gel ring 117 are outside.Again suction nozzle seat 111 is positioned on air inlet adjustment ring 115, with air inlet seat 113 riveted.Finally ree-oil sealing ring 119 is enclosed within the cannelure of air inlet seat 113, namely completes the installation of upper bed-plate 100.Silica gel ring 30 can play a damping action, to ensure to have good feel when rotating inlet regulates ring 115, to increase the comfort level of Consumer's Experience.Ree-oil sealing ring 119 can play increase sealing, it is prevented that ree-oil leaks.
Referring to Fig. 2, Fig. 3 and Fig. 4, inducing QI outer tube 220 is divided into top outer tube 221, outer pipe jointing part 223 and bottom outer tube 225.The caliber of top outer tube 221 is less than the caliber of bottom outer tube 225, connection top, outer pipe jointing part 223 one end outer tube 221, and the other end of outer pipe jointing part 12313 connects bottom outer tube 225.In inducing QI pipe 230 be divided in top pipe 231, pipe 235 in interior pipe jointing part 233 and bottom, in top, the caliber of pipe 231 is less than the caliber of pipe in bottom 235.Pipe 231 in connection top, interior pipe jointing part 233 one end, the other end of interior pipe jointing part 233 connects pipe 235 in bottom.In inducing QI, pipe 230 is contained in inducing QI outer tube 220, and spaced formation gas channel 201 between the outer wall of pipe 231 in the inwall of top outer tube 221 and top, the inwall of bottom outer tube 225 directly contacts with the outer wall of pipe in bottom 235.
Two parts and two-part junction that inducing QI outer tube 220 is arranged to small one and large one are stepped, in inducing QI, pipe 230 is also configured to small one and large one two parts and two-part junction is also stepped, spaced formation gas channel 201 between the outer wall of pipe 231 in the inwall of top outer tube 221 and top.Outside air can be introduced in atomization core 210 by gas channel 201, reduces temperature.The bottom inwall of outer tube 225 directly contacts with the outer wall of pipe in bottom 235, it is possible to forming the aerochamber 240 of cavity structure, atomization core 210 can be housed in aerochamber 240.
In present embodiment, the sidewall of inducing QI outer tube 220 is provided with outer tube air-flow exchange hole 205, and gas channel 201 is through by outer tube air-flow exchange hole 205 and external admission hole 110 air-flow.Certainly, in other embodiments, it would however also be possible to employ other modes make gas channel 201 and external admission hole 110 air-flow through, for instance in the length ratio inducing QI of inducing QI outer tube 220, pipe 230 is short, thus forming breach so that gas channel 201 is through with external admission hole 110 air-flow.
In present embodiment, atomizing component also includes screw rod 250 and connects ring 260, and in inducing QI, pipe 230 is contained in inducing QI outer tube 220.Preferably, inducing QI outer tube 220 is provided with the first sealing ring 101 with the junction of pipe 230 in inducing QI.In inducing QI, pipe 230 is connected with screw rod 250, and inducing QI outer tube 220 is connected with screw rod 250 by connecting ring 260.Inducing QI outer tube 220 and screw rod 250 junction are provided with the second sealing ring 102 and the 3rd sealing ring 103.In bottom, pipe 235 is connected formation aerochamber 240 with screw rod 250.Spaced formation gas channel 201 between inwall and the outer wall of inducing QI outer tube 220 of pipe 230 in inducing QI.Aerochamber 240 is through by gas channel 201 and external admission hole 110 air-flow.
Concrete, bottom outer tube 225 is provided with outer tube oil guiding hole 2251, and in bottom, pipe 235 is provided with interior pipe oil guiding hole 2351.Bottom outer tube 225 is rotationally connected with pipe 235 in bottom.During use, rotate inducing QI outer tube 220 so that the outer tube oil guiding hole 2251 on bottom outer tube 225 is connected with the interior pipe oil guiding hole 2351 on pipe in bottom 235, facilitate ree-oil to flow in atomization core 210.
Referring to Fig. 5, in present embodiment, bunker air-vent 203 is located on outer pipe jointing part 223.Facility bunker air-vent 203 on the junction of top outer tube 221 and bottom outer tube 225.On the one hand can so that ree-oil storehouse 600 be through with gas channel 201 air-flow.On the other hand, bunker air-vent 203 is arranged on outer pipe jointing part 223, is equivalent to bunker air-vent 203 and is arranged on the shoulder of inducing QI outer tube 220, it is possible to prevent the ree-oil in ree-oil storehouse 600 from revealing.
Concrete, interior pipe jointing part 233 is provided with interior pipe air inlet 2331, gas channel 201 is connected by this interior pipe air inlet 2331 with aerochamber 240, makes ambient atmosphere enter aerochamber 240, then through atomization core 210, ree-oil is atomized vapour by hollow pipe 21712 sucking-off of pipe 230 in inducing QI.
In present embodiment, ventilation ring 700 is arranged between outer pipe jointing part 223 and interior pipe jointing part 233, ventilation ring 700 is provided with ventilation micropore 701, and ventilation micropore 701 is through with bunker air-vent 203 air-flow, and air exchanging plug 800 is arranged between outer pipe jointing part 223 and ventilation ring 700.
Concrete, the material of air exchanging plug 800 can be Cotton Gossypii, fiber, sponge etc..By facility ventilation ring 700 and air exchanging plug 800 between pipe jointing part 223 and interior pipe jointing part 233 outside, and ventilation micropore 701 is set on ventilation ring 700 so that ventilation micropore 701 is through with bunker air-vent 203 air-flow.Ventilation ring 700 can play the effect supporting air exchanging plug 800, and air exchanging plug 800, ensureing on the basis that bunker air-vent 203 and gas channel 201 air-flow are through, can make again the ree-oil in ree-oil storehouse 600 not leak in gas channel 201.
During installation, first air exchanging plug 800 set is set in top pipe 231, then again ventilation ring 700 is set in top on pipe 231, make air exchanging plug 800 and ring 700 of taking a breath forms levels closed assembly shape;The purpose so arranged is, utilize air-flow conducting and the ree-oil blocking action of ventilation ring and air exchanging plug, reach the external admission hole that outside air can pass through on upper bed-plate to flow into, enter the gas channel between pipe in inducing QI outer tube and inducing QI, and can effectively block ree-oil and directly leak in gas channel.
Concrete, refer to Fig. 6, ventilation ring 700 includes connecting cylinder 710 and is located at the support sector 720 of connecting cylinder 710 one end, the inwall of the outer wall of connecting cylinder 710 and inducing QI outer tube 220 fits, ventilation micropore 701 is arranged in support sector 720, and air exchanging plug 800 is arranged between support sector 720 and outer pipe jointing part 223.Ventilation ring 700 support effect of this structure is good, convenient installation.Certainly in other embodiments, it is also possible to by direct for air exchanging plug 800 connector in bunker air-vent 203, it is not necessary to the support of ventilation ring 700, it is possible to the ree-oil in ree-oil storehouse 600 is not leaked in gas channel 201.
Preferably, the internal diameter of the support sector 720 of ventilation ring 700 is consistent with pipe 231 external diameter in the top of pipe in inducing QI 230, and the external diameter of the support sector 720 of ventilation ring 700 is consistent with bottom outer tube 225 internal diameter of inducing QI outer tube 220;The internal diameter of air exchanging plug 800 and external diameter are consistent with bottom outer tube 225 internal diameter of pipe 231 external diameter in the top of pipe in inducing QI 230 and inducing QI outer tube 220 respectively;Now, ambient atmosphere will split into two-way air-flow by after gas channel 201;One tunnel is: gas channel 201 take a breath ring 700 support sector 720 on ventilation micropore 701 air exchanging plug 800 aerochamber 240;Another road is: gas channel 201 take a breath ring 700 support sector 720 on ventilation micropore 701 air exchanging plug 800 ree-oil storehouse 600.
Referring to Fig. 7, atomization core 210 includes heater 211, the first heat insulation loop 213 of hollow, the second heat insulation loop 215 of hollow, atomization core shell body 217 and electrode 219.
Heater 211 includes heater body 2111 and the first conductive pin 2113 and the second conductive pin 2115 being arranged on heater body 2111, heater body 2111 is the hollow structure of both ends open, first heat insulation loop 213 is set in one end of heater body 2111, and the second heat insulation loop 215 is set in the other end of heater body 2111.
Heater body 2111 is the hollow structure of both ends open, and ree-oil can directly enter heater body 2111 from the two ends of heater body 2111, it is possible to not by Oil Guide body Oil Guide.Reduce suction further.
Concrete, the material of heater body 2111 can be metal or pottery etc..In present embodiment, heater body 2111 is porous ceramics.Porous ceramics caloric value is big, and resistance can reach 0.25 Europe, it is possible to the needs meeting user provide the amount of smoke of super large and mellow in taste.After the porous ceramics of hollow structure imports ree-oil by two ends, the micropore permeation on sidewall can be passed through, atomization core shell body 217 will be full of ree-oil so that heater body 2111 is immersed in ree-oil, it is to avoid dry combustion method phenomenon.
In present embodiment, heater body 2111 is pillar tubular structure.Pillar tubular structure both ends open, is conducive to Oil Guide, and pillar tubular structure surface area is big, is conducive to consistent heat generation.In other embodiments, the shape of heater body 2111 can also be cuboid or gengon etc..
The material of the first heat insulation loop 213 and the second heat insulation loop 215 can be silica gel, rubber or plastics etc..In present embodiment, the material of the first heat insulation loop 213 and the second heat insulation loop 215 is silica gel, and silica gel has elasticity and easily machine-shaping, good heat-insulation effect.
Atomization core shell body 217 is provided with the first installing hole 2101 and the second installing hole 2103.Heater body 2111 one end is arranged in the first installing hole 2101, and the other end of heater body 2111 is arranged in the second installing hole 2103, and heater body 2111 is isolated with atomization core shell body 217 by the first heat insulation loop 213 and the second heat insulation loop 215.By the first installing hole 2101 and the second installing hole 2103 by unsettled for heater body 2111, again through the first heat insulation loop 213 and the second heat insulation loop 215, heater body 2111 is not directly contacted with atomization core shell body 217.The heat produced when heater body 2111 is atomized is not easy conduction to atomization core shell body 217 so that whole atomization core 210 is not easy heating.And, first heat insulation loop 213 and the second heat insulation loop 215 are respectively sleeved at the two ends of heater body 2111, heater body 2111 is isolated with atomization core shell body 217, it is possible to prevent heater body 2111 from electrically connecting with atomization core shell body 217, it is to avoid to produce short circuit phenomenon.
In traditional electronic cigarette atomizing core, heater is usually and is vertically placed in atomization core shell body.Heater body 2111 of the present invention is placed across in atomization core shell body 217, is conducive to Oil Guide on the one hand so that ree-oil enters in the heater body 2111 of hollow structure, reduces suction.On the other hand, the bottom of heater body 2111 will not be atomized the bottom contact of core shell body 217, and the heat that heater body 2111 adstante febre produces will not be transmitted in other assemblies of electronic smoke atomizer 10, when using continuously, without hot.
In present embodiment, atomization core shell body 217 includes atomization upper cover 2171 and atomization lower cover 2173, and atomization upper cover 2171 is connected formation atomization core shell body 217 with atomization lower cover 2173.Atomization upper cover 2171 is provided with the first upper cover installation gap 21701 and the second upper cover installation gap 21703, atomization lower cover 2173 is provided with the first lower cover installation gap 21705 and the one the second lower cover installation gaps 21707, first upper cover installation gap 21701 and the combination of the first lower cover installation gap 21705 form the first installing hole 2101, the second upper cover installation gap 21703 and the one the second lower cover installation gap 21707 combination formation the second installing holes 2103.By forming installation gap respectively on atomization upper cover 2171 with atomization lower cover 2173, after combination, form installing hole.Atomization upper cover 2171 can be separated from each other or be connected with atomization lower cover 2173, convenient installation heater body 2111.Certainly, in other embodiments, atomization core shell body 217 can also be integrated shell structure.
Concrete, what be atomized upper cover 2171 is provided with fog hole 21709, and the smog that atomization core 210 produces when being atomized can pass through fog hole 21709 derive.The sidewall of atomization lower cover 2173 is provided with lower cover air inlet 21711, and outside air can pass through lower cover air inlet 21711 and enter in atomization core shell body 217.
Electrode 219 is arranged on the lower end of atomization core shell body 217, and electrode 219 insulate with atomization core shell body 217, and the first conductive pin 2113 electrically connects with atomization core shell body 217, and the second conductive pin 2115 electrically connects with electrode 219.During use, electrode 219 can be connected with the positive electrical of external power supply, and atomization core housing 140 can be connected with the negative electricity of external power supply.By arranging the first conductive pin 2113 and the second conductive pin 2115 on heater body 2111, and the first conductive pin 111 and the second conductive pin 2115 are electrically connected with atomization core shell body 217 and electrode 219 respectively, ensure that the electric energy supply of heater body 2111 reliably, the generation of short circuit phenomenon exempted from by wall, heater body 2111 is made to generate heat uniformly, it is to avoid to produce the situation of hot-spot.
Concrete, the lower end of atomization core shell body 217 is provided with electrode mounting hole 21713, is arranged in electrode mounting hole 21713 after the sheathed electrode insulation ring 2191 of electrode 219.Electrode 219 is insulated with atomization core shell body 217 by electrode insulation ring 2191.Electrode insulation ring 2191 is the hollow structure of both ends open, the inwall of the outer wall of electrode insulation ring 2191 and electrode mounting hole 21713 fits, first conductive pin 2113 is embedded between the outer wall of electrode insulation ring 2191 and the inwall of electrode mounting hole 21713, and the second conductive pin 2115 is embedded between the inwall of electrode insulation ring 2191 and the outer wall of electrode 219.During installation, first the first conductive pin 2113 is stretched out from electrode mounting hole 21713, it is inserted into electrode insulation ring 2191, now the first conductive pin 2113 is embedded between the inwall of the outer wall of electrode insulation ring 2191 and the electrode mounting hole 21713 of atomization core shell body 217, it is achieved the first conductive pin 2113 electrically connects with atomization core shell body 217.Then, second conductive pin 2115 is stretched out from the electrode insulation ring 2191 of hollow structure, again by electrode 219 electrode insertion dead ring 2191, now, second conductive pin 2115 is embedded between the inwall of electrode insulation ring 2191 and the outer wall of electrode 219, it is achieved the second conductive pin 2115 electrically connects with electrode 219.The first conductive pin 2113 can be realized by electrode insulation ring 2191 on the one hand and the second conductive pin 2115 electrically connects with atomization core shell body 217 and electrode 219 respectively, it is to avoid be short-circuited phenomenon;Electrode insulation ring 2191 can also fix the first conductive pin 2113 and the second conductive pin 2115 on the other hand.
Concrete, the bottom of atomization core shell body 217 is provided with pin installation gap 21715.Pin installation gap 21715 is arranged on the edge bottom atomization core shell body 217.During installation, after the first conductive pin 2113 is stretched out from electrode mounting hole 21713, it is possible to stretch to the first pin installation gap 21715 direction, and upwards strain.By pin installation gap 21715, in that context it may be convenient to strain the first conductive pin 2113, and cut unnecessary conductive pin.Further, the first conductive pin 2113 can be embedded in the first pin installation gap 21715, will not form projection in the bottom of atomization core shell body 217, it is simple to the installation of electrode insulation ring 2191 and electrode 219.
Concrete, atomization core 210 also includes collet 212, and collet 212 is set on the outer wall of atomization core shell body 217, and collet 212 offers collet oil guiding hole 2101, and collet oil guiding hole 2101 connects with heater body 2111.By sheathed collet 212 on atomization core shell body 217, the conduction of heat of atomization core 210 and other assembly of electronic smoke atomizer 10 can be slowed down so that whole electronic cigarette temperature is unlikely to too high.Collet oil guiding hole 2101 connects with heater body 2111, and ree-oil can be directly entered in heater body 2111, reduces suction.
The material of collet 212 can be silica gel, rubber, plastics etc..In present embodiment, the material of collet 212 is silica gel, and silica gel has elasticity and easily machine-shaping, good heat-insulation effect.
Concrete, collet 212 medial wall is provided with locating convex block 2103, and atomization core shell body 217 sidewall is provided with the hole 2105, housing location mated with locating convex block 2103.Collet 212 inwardly protruding forms locating convex block 2103.During installation, locating convex block 2103 is pressed in the hole 2105, housing location of atomization core shell body 217, convenient fixing collet 212, keep flat appearance.
Concrete, collet 212 sidewall offers collet fog hole 2107, collet fog hole 2107 is mated with the fog hole 21709 on atomization upper cover 2171.
In present embodiment, lower bottom base includes base body 410, interior retainer ring 420, extenal fixation ring 430, insulator 440, lower silica gel ring 450.During assembling, first lower silica gel ring 450 is assembled in extenal fixation ring 430, it is ensured that four projections of lower silica gel ring 450 and four holes of extenal fixation ring 430 align.Again interior retainer ring 420 is installed in lower silica gel ring 450, lower silica gel ring 450 is fixed between interior retainer ring 420 and extenal fixation ring 4300.Next the assembly of above assembling is enclosed within base body 410, interior retainer ring 420 is riveted tightly with base body 410.Finally insulator 440 is assembled in the through hole of base body 410 so that electrode 150 and base body 410 insulate.Four convex design of lower silica gel ring 450, facilitate user when opening base body 410 and changing electronic cigarette atomizing core 100, have enough frictional force and go to drive, greatly strengthen the feel of user.
In present embodiment, component suction nozzle includes suction nozzle 510, suction nozzle cover 520 and mouth collet 530.Suction nozzle cover 520 is contained in suction nozzle 510, and suction nozzle 510 is arranged on suction nozzle seat 111.Spaced formation clearance groove between outer wall and the inwall of suction nozzle 510 of suction nozzle cover 520, suction nozzle collet 530 is embedded in clearance groove.Due to the heat-blocking action of suction nozzle collet 530, the heat of smog is more difficult to be conducted to suction nozzle 510 from suction nozzle cover 520, it is ensured that the temperature of suction nozzle 510 will not be too high, and life-time service is without occurring scalding the phenomenon of mouth.
Concrete, component suction nozzle also includes suction nozzle lower cover 540 and suction nozzle heat insulation loop 550.During assembling, first suction nozzle collet 530 is filled in suction nozzle 510, allow the outer wall of suction nozzle collet 530 be close to the inwall of suction nozzle 510, it is ensured that the base of suction nozzle 510 is stuck in suction nozzle collet 530 cannelure.Again suction nozzle lower cover 540 is assembled in the lower stomidium of suction nozzle collet 530, then suction nozzle cover 520 is filled in from the upper end hole of suction nozzle collet 530 rivets together with suction nozzle lower cover 540.Such suction nozzle 510, suction nozzle collet 530 are secured between suction nozzle cover 520 and suction nozzle lower cover 540.Finally suction nozzle heat insulation loop 550 is enclosed within the lower end cannelure of suction nozzle lower cover 540, namely completes the installation of component suction nozzle.Suction nozzle heat insulation loop 550 can intercept the heat of smog further and conduct to suction nozzle 510 from suction nozzle seat 111, it is ensured that the temperature of suction nozzle 510 will not be too high, and life-time service is without occurring scalding the phenomenon of mouth.
Concrete, the bottom of suction nozzle cover 520 is provided with air-casing 521, air-casing 521 is convex surface near the surface of atomization core 210, air-casing 521 is concave curved surface away from the surface of atomization core 210, air-casing 521 is provided with the passage 5201 of inclined plane shape, and suction nozzle cover 520 is through with atomization core 210 air-flow by the passage 5201 of inclined plane shape.By by air-casing 521 near the surface of atomization core 210 for being set to convex surface, air-casing 521 is concave curved surface away from the surface configuration of atomization core 210, effectively prevents ree-oil from sputtering, it is to avoid scald.
Concrete, the passage 5201 of inclined plane shape refers to that the centrage of passage 5201 is different with the axis of component suction nozzle.Namely there is certain angle between centrage and the axis of component suction nozzle of passage 5201.In present embodiment, the angle between centrage and the axis of component suction nozzle of passage 5201 is 30 °~60 °.
Preferably, the inclined plane shape of passage 5201 is helical form, is namely arranged to screw type inclined plane shape between two surfaces up and down at air-casing 211, so can delay the sucking-off time of ree-oil atomization vapour further, increase the heat exchange of smog and suction nozzle cover 520, when using continuously, burning can be produced.Meanwhile, so that the atomization vapour of passage 5201 sucking-off forms helical form and rises around coiling, extend sucking-off time and sucking-off stroke, reduce the temperature of smog, promote the mouthfeel of smog.
When whole electronic smoke atomizer 10 assembles, component suction nozzle is arranged on suction nozzle seat 111, and outer cover of atomizer 300 one end connects air inlet seat 113, and the other end of outer cover of atomizer 300 connects base body 410, and screw rod 250 is arranged on base body 410.Upper bed-plate 100, airway 120, atomization core 210, formation ree-oil storehouse 600 between outer cover of atomizer 300 and lower bottom base.Outer cover of atomizer 300 is provided with ree-oil sealing ring 104 with upper bed-plate 100 and airway 120 junction.
Above-mentioned electronic smoke atomizer 10, by arranging bunker air-vent 203 on inducing QI outer tube 220, ree-oil storehouse 130 is through by gas channel 201 air-flow between pipe 230 in bunker air-vent 203 and inducing QI outer tube 220 and inducing QI.The external admission hole 110 that outside air can pass through on upper bed-plate 100 flows into, and enters gas channel 201.Portion of air enters in atomization core 210, and in cooling inducing QI, pipe 230 and atomization core 210, reduce smog temperature.Another part air enters ree-oil storehouse 600 from bunker air-vent 203, makes the inside and outside differential pressure balance in ree-oil storehouse 600 and atomization core 210.Along with ree-oil is atomized gradually, without forming negative pressure in ree-oil storehouse 600, ree-oil can be sucked in atomization core 210 by suction that therefore need not be very big, sucks ratio relatively labor-saving.
Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.
Claims (10)
1. an electronic smoke atomizer, including upper bed-plate, atomizing component, outer cover of atomizer, lower bottom base and component suction nozzle, described atomizing component and described outer cover of atomizer are arranged between described upper bed-plate and described lower bottom base, forming ree-oil storehouse between described upper bed-plate, described atomizing component, described outer cover of atomizer and described lower bottom base, described component suction nozzle is arranged on described upper bed-plate;Described upper bed-plate offers the external admission hole communicated with the external world;
Described atomizing component includes pipe in atomization core, inducing QI outer tube and inducing QI;In described inducing QI, pipe box is located in described inducing QI outer tube, and in described inducing QI, the lower end of pipe fits with the lower end of described inducing QI outer tube, spaced formation gas channel between upper end and the upper end of described inducing QI outer tube of pipe in described inducing QI;In described inducing QI, the lower end of pipe forms aerochamber, and described atomization core is fixed on described lower bottom base and installs in described aerochamber, forms air-flow through between described aerochamber, described gas channel and external admission hole;
It is characterized in that, described atomizing component also includes ventilation ring and air exchanging plug, described inducing QI outer tube is provided with bunker air-vent, described bunker air-vent connects with described ree-oil storehouse, described air exchanging plug is the ventilating structure with micropore, it is set in described inducing QI on pipe after described ventilation ring and described air exchanging plug stacking from the bottom to top overlapping, described ventilation ring is provided with ventilation micropore, and described ree-oil storehouse is through with described gas channel formation air-flow by described bunker air-vent, described air exchanging plug and described ventilation micropore.
2. electronic smoke atomizer according to claim 1, it is characterized in that, described inducing QI outer tube is divided into top outer tube, outer pipe jointing part and bottom outer tube, the caliber of described top outer tube is less than the caliber of described bottom outer tube, described outer pipe jointing part one end connects described top outer tube, and the other end of described outer pipe jointing part connects described bottom outer tube;
In described inducing QI, pipe is divided in top managing, manages in interior pipe jointing part and bottom, in described top, the caliber of pipe is less than the caliber of pipe in described bottom, said inner tube connecting portion one end connects pipe in described top, and the other end of said inner tube connecting portion connects pipe in described bottom.
3. electronic smoke atomizer according to claim 2, it is characterised in that the outer pipe jointing part at described inducing QI outer tube is provided with bunker air-vent, described bunker air-vent is through with the described ventilation micropore phase air-flow on described ventilation ring.
4. electronic smoke atomizer according to claim 2, it is characterised in that said inner tube connecting portion is provided with interior pipe air inlet, said inner tube air inlet is by through to described aerochamber and gas channel.
5. electronic smoke atomizer according to claim 2, it is characterised in that described bottom outer tube is provided with outer tube oil guiding hole, in described bottom, pipe is provided with interior pipe oil guiding hole, and described bottom outer tube is rotationally connected with pipe in described bottom.
6. electronic smoke atomizer according to claim 1, it is characterized in that, described ventilation ring includes connecting cylinder and is located at the support sector of described connecting cylinder one end, the inwall of the outer wall of described connecting cylinder and described inducing QI outer tube fits, described ventilation micropore is arranged in described support sector, and described air exchanging plug is fitted with described support sector.
7. electronic smoke atomizer according to claim 1, it is characterised in that the sidewall of described inducing QI outer tube is provided with outer tube air-flow exchange hole, described gas channel is through by described outer tube air-flow exchange hole and described external admission gas flow hole;In described inducing QI, the sidewall of pipe is provided with interior pipe air-flow exchange hole, and said inner tube air-flow exchange hole is through with described gas channel air-flow.
8. electronic smoke atomizer according to claim 1, it is characterised in that described atomization core includes heater, the first heat insulation loop of hollow, the second heat insulation loop of hollow, atomization core shell body and electrode;
Described heater includes heater body and is arranged on the first conductive pin on described heater body and the second conductive pin, described heater body is the hollow structure of both ends open, described first heat insulation loop is set in one end of described heater body, and described second heat insulation loop is set in the other end of described heater body;
Described heater body is that lateral suspension formula is placed in described atomization core shell body, described atomization core shell body is provided with the first installing hole and the second installing hole, described heater body one end is arranged in described first installing hole, the other end of described heater body is arranged in described second installing hole, and described heater body is by described first heat insulation loop and described second heat insulation loop and the described atomization isolated installation of core shell body;
Described electrode is arranged on the lower end of described atomization core shell body, and described electrode insulate with described atomization core shell body, and described first conductive pin electrically connects with described atomization core shell body, and described second conductive pin electrically connects with described electrode.
9. electronic smoke atomizer according to claim 8, it is characterized in that, described atomization core shell body includes atomization upper cover and atomization lower cover, described atomization upper cover is connected the described atomization core shell body of formation with described atomization lower cover, described atomization covers and is provided with the first upper cover installation gap and the second upper cover installation gap, cover under described atomization and be provided with the first lower cover installation gap and the second lower cover dress breach, described first upper cover installation gap forms described first installing hole with described first lower cover installation gap combination, described second upper cover installation gap forms described second installing hole with described second lower cover dress breach combination.
10. electronic smoke atomizer according to claim 8, it is characterised in that described heater body is pillar tubular structure.
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CN201610218259.2A CN105795522B (en) | 2016-04-08 | 2016-04-08 | Electronic smoke atomizer |
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