CN205624474U - Electron smog spinning disk atomiser that pottery generates heat and atomizes core and use this atomizing core - Google Patents
Electron smog spinning disk atomiser that pottery generates heat and atomizes core and use this atomizing core Download PDFInfo
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- CN205624474U CN205624474U CN201620343783.8U CN201620343783U CN205624474U CN 205624474 U CN205624474 U CN 205624474U CN 201620343783 U CN201620343783 U CN 201620343783U CN 205624474 U CN205624474 U CN 205624474U
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Abstract
The utility model discloses an electron smog spinning disk atomiser that pottery generates heat and atomizes core and use this atomizing core, this pottery generate heat that the atomizing core includes ceramic heat -generating body and for this pottery heat -generating body provides the oil body of leading of tobacco tar, the pottery heat -generating body include ceramic base member and with this pottery base member integrated into one piece's heating element, the pottery base member has the first side and the second side of relative setting, heating element is on this first side, it contacts with this second side to lead the oil body, the pottery heat -generating body will the tobacco tar that it provided to lead the oil body heats in order to generate smog to offer a plurality of groove or holes of running through the confession smog release between first side and second side on this pottery base member. Compare prior art, the electron smog spinning disk atomiser atomization efficiency who uses this atomizing core is high, and easily the equipment is and the uniformity of product is good.
Description
Technical field
This utility model relates to electronic smoking set field, particularly relates to a kind of ceramic heating atomization core and applies the electronic smoke atomizer of this atomization core.
Background technology
Electronic cigarette as the succedaneum of medicated cigarette, because of its have use conveniently, safely, health, the advantage such as environmental protection, and increasingly by concern and the favor of people.In general the electronic cigarette on market includes nebulizer and battery component, nebulizer contains atomization core and for storing the liquid storage cylinder of tobacco juice, atomization core uses more scheme to be by tobacco juice atomization thus to produce smog by mode of heating at present, reaches the effect of mould simulation cigarette.
Such as in prior art, a kind of typical atomization core is to use heating wire and glass core to assemble to be formed, utilize glass core to draw ree-oil and to heat for heating wire, but the contact area of heating wire and glass core is little, it it not overall heating, nebulization efficiency is the highest, heating wire and glass core need man-made assembly simultaneously, it is difficult to realize automated production, and the concordance causing product is poor.
Utility model content
Technical problem to be solved in the utility model is to overcome the deficiencies in the prior art, it is provided that a kind of nebulization efficiency is high, be easily assembled to and ceramic heating atomization core that the concordance of product is good and apply the electronic smoke atomizer of this atomization core.
In order to solve above-mentioned technical problem, the technical solution adopted in the utility model is as follows: the ceramic heating atomization core that this utility model relates to, including ceramic heating element and for this ceramic heating element provide ree-oil Oil Guide body, described ceramic heating element includes ceramic matrix and heater element integrated with this ceramic matrix, described ceramic matrix has the first side and the second side being oppositely arranged, described heater element is formed on this first side, described Oil Guide body contacts with this second side, the ree-oil that described Oil Guide body is provided by described ceramic heating element heats to generate smog, and offer multiple through the groove for smog release between the first side and the second side or hole on this ceramic matrix.
Preferably, described ceramic matrix is cannula-like, and described groove or hole are opened on the tube wall of ceramic matrix, and described Oil Guide body is coated on the lateral surface of this ceramic matrix tube wall, and described heater element is formed on the medial surface of this ceramic matrix tube wall.
Further, described groove or hole along ceramic matrix tube wall axially or circumferencial direction extends.
Further, described heater element is the metal heating layer being printed on the first side of ceramic matrix, and this metal heating layer connects the first electrode for switching on power and the second electrode.
Further, first side of described ceramic matrix is also printed with the thermal resistor layer with positive temperature coefficient or negative temperature coefficient, this thermal resistor layer and metal heating layer are isolated setting, this thermal resistor layer connects to be had one for the temperature control electrode of feedback temperature information, and this thermal resistor layer is also connected with one of them of described first electrode or the second electrode using as common electrode.
As another replacement scheme, described metal heating layer is the metal variable resistance with positive temperature coefficient or negative temperature coefficient.
Further, this ceramic heating atomization core also includes, for carrying described ceramic heating element and the housing of Oil Guide body, offering at least one fuel feed hole on the housing.
Preferably, described Oil Guide body is to be enclosed in the cotton that ceramic heating element is peripheral, and this cotton is for drawing the ree-oil flowed into from described fuel feed hole.
This utility model additionally provides a kind of electronic smoke atomizer, including main body and the atomization core being arranged on this body interior, it is also formed with the shoe cream room for storing ree-oil in this body interior, the ceramic heating atomization core provided in each concrete scheme above described atomization core, described Oil Guide body is configured in shoe cream room draw ree-oil.
The beneficial effects of the utility model are: the atomization core in this utility model is to be sintered into one under high temperature by ceramic matrix and heater element, form ceramic heating element, such as cotton or other resistant to elevated temperatures Oil Guide bodies it is coated with outside ceramic heating element during application, smog release channel when the groove opened on ceramic matrix side or hole are ree-oil atomization, the smog discharged during smoking enters the oral cavity of people by gas channel.This pottery atomization core entirety is generated heat, and smog can discharge in time, and for comparing existing heating wire, nebulization efficiency is high, and it is structure as a whole, and decreases assembling procedure.
In addition, first side of described ceramic matrix is also printed with the thermal resistor layer with positive temperature coefficient or negative temperature coefficient, this thermal resistor layer and metal heating layer are isolated setting, this thermal resistor layer connects to be had one for the temperature control electrode of feedback temperature information, and this thermal resistor layer is also connected with one of them of described first electrode or the second electrode using as common electrode.Therefore this ceramic heating element forms 3pin structure, in this 3pin structure, the temperature control module that metal heating layer is formed with thermal resistor layer individually isolates existence, temperature control electrode energy feedback temperature information in time is to external power source controller, to control this ceramic heating element holding steady temperature or constant heat generation power, heating uniformity is good, and temperature controls precisely.
Accompanying drawing explanation
Fig. 1 is the internal structure schematic diagram of the ceramic heating atomization core provided in embodiment.
Fig. 2 is the structural representation of the ceramic heating element of ceramic heating atomization in-core in embodiment.
Fig. 3 is the structural representation at another visual angle of ceramic heating element in embodiment.
Fig. 4 is the structure sectional view of the electronic smoke atomizer provided in embodiment.
Detailed description of the invention
Below by with the specific embodiment ceramic heating atomization core to relating in this utility model with apply this pottery to be atomized the structure of electronic smoke atomizer of core and use principle is further elaborated.
Shown in Figure 1, present embodiments provide a kind of ceramic heating in electronic cigarette atomization core 10, this ceramic heating atomization core 10 includes ceramic heating element 20 and provides the Oil Guide body 103 of ree-oil and for carrying the housing 101 of described ceramic heating element 20 and Oil Guide body 103 for this ceramic heating element 20, ceramic heating element 20 and Oil Guide body 103 are positioned at the inside of housing 101, Oil Guide body 103 is between ceramic heating element 20 and housing 101, this housing 101 offers at least one fuel feed hole 102, fuel feed hole 102 is set as four in the present embodiment, equably along housing 101 circle distribution.
Above-mentioned housing 101 is tubulose, and two ends are respectively arranged with air inlet 104 and gas outlet 105, and ceramic heating element 20 is between air inlet 104 and gas outlet 105.Ree-oil can adsorb in fuel feed hole 102 flows in housing 101 and by Oil Guide body 103, then the ree-oil heating evaporation that Oil Guide body 103 is adsorbed by ceramic heating element 20 forms smog, the smog generated is taken away by the air-flow entered from air inlet 104, and discharges from gas outlet 105.
Preferably, Oil Guide body 103 is the cotton being enclosed in ceramic heating element 20 periphery, and this cotton is for drawing the ree-oil flowed into from described fuel feed hole 104, it is to be appreciated that, Oil Guide body 103 can with glass fiber material, micropore ceramics or other there is the material of micropore capillary osmosis.Being provided with a drainage screen 106 between cotton and ceramic heating element 20 and air inlet 104, drainage screen 106 can filter the drop of the not fully larger particles of heating atomization, and drainage screen 106 also presses against the top of cotton simultaneously, prevents its displacement.
See shown in Fig. 2 and Fig. 3, there is disclosed the concrete structure of ceramic heating element 20.nullThis ceramic heating element 20 include ceramic matrix 201 and with this integrated heater element of ceramic matrix 201 203,Described ceramic matrix 201 has the first side 2011 and the second side 2012 being oppositely arranged,Described heater element 203 is formed on this first side 2011,Described Oil Guide body 103 contacts with this second side 2012,Owing to ceramic is good,Ceramic matrix 201 and the overall heating of heater element 203,The ree-oil that described Oil Guide body 103 is provided by described ceramic heating element 20 heats to generate smog,And offer multiple through the groove for smog release between the first side 2011 and the second side 2012 or hole on this ceramic matrix 201,Offer in the way of groove in the present embodiment,The most multiple grooves 2021 and groove 2022.
In conjunction with shown in Fig. 1, preferred version as the present embodiment, described ceramic matrix 201 is in cannula-like, the gas channel that intermediate formation passes through for smog and air-flow, multiple grooves 2021 and groove 2022 are opened on the tube wall of ceramic matrix 201, described Oil Guide body 103 is coated on the lateral surface of this ceramic matrix 201 tube wall, the i.e. second side 2012.On the medial surface of the tube wall that described heater element 203 is formed at this ceramic matrix 201, on the i.e. first side 2011.The ree-oil come in is guided substantially to be evaporated on the lateral surface of ceramic matrix 201 tube wall from Oil Guide body 103, and then from groove 2021 and groove 2022 be discharged into inside gas channel finally discharge, owing to multiple grooves 2021 and groove 2022 are uniformly offered on ceramic matrix 201 tube wall, therefore can make smog release smoothness, add ree-oil nebulization efficiency.Oil Guide body 103 is flexible material, such as cotton etc. simultaneously, when cotton is wrapped in ceramic matrix 201 periphery, has part cotton and protrudes from groove 2021 and groove 2022, is equivalent to the contact area adding ree-oil with ceramic matrix 201.
The first side 2011 and the second side 2012 in the present embodiment are for two arc surfaces, it should be noted that, first side 2011 and the second side 2012 can also be plane, i.e. ceramic heating element be tabular, the first side 2011 and the second side 2012 lay respectively at both sides.
Preferably, above-mentioned groove or hole along ceramic matrix 201 tube wall axially or circumferencial direction extends, the most described groove 2021 is lower vertically extension, and groove 2022 is circumferentially to extend, and correspondingly increases smog Free up Memory.
As one of them specific embodiments in the present embodiment, described heater element 203 is the first side 2011(inwall being printed on ceramic matrix 201) on metal heating layer, this metal heating layer connect have the first electrode 206 and the second electrode 207 for switching on power.Ceramic heating element 20 is to use MCH ceramic metal technology, first slot on ceramic matrix 201 and ceramic paper according to different demands or difform hole (groove 2021 being i.e. subsequently formed and groove 2022), then metal heating layer is printed on ceramic paper according to certain pattern, form heater element 203, ceramic paper and ceramic matrix 201 stacking of heater element 203 will be printed with again, ceramic paper is positioned at inner side, is sintered into one under high temperature the most again.
Further preferred, first side 2011 of described ceramic matrix 201 is also printed with the thermal resistor layer 204 with positive temperature coefficient or negative temperature coefficient, this thermal resistor layer 204 is isolated setting with metal heating layer (heater element 203), this thermal resistor layer 204 connects to be had one for the temperature control electrode 205 of feedback temperature information, and temperature control electrode 205 passes from the internal gas flow passage of ceramic matrix 201.And this thermal resistor layer 204 is also connected with one of them of described first electrode 206 or the second electrode 207 using as common electrode.Such as, temperature control electrode 205 is positive pole, and shares one of them in the first electrode 206 or the second electrode 207 as negative pole.So ceramic heating element 20 forms the 3PIN structure with function of temperature control.Above-mentioned first electrode the 206, second electrode 207 and temperature control electrode 205 correspondence are connected to be atomized on the electrical connection section 107 of core.
Thermal resistor layer 204 can control to adjust output voltage or electric current along with variations in temperature, make ceramic heating element 20 constant temp. warming as a temperature control module, its resistance after the controller of external power source receives the temperature information of feedback.Owing to above-mentioned thermal resistor layer 204 is all located on inwall and the nearest with metal heating layer, therefore thermal resistor layer 204 energy accurate feedback ree-oil is heated the temperature of atomization, makes temperature control more accurate.
As another specific embodiments in the present embodiment, ceramic heating element 20 can also be 2PIN structure, the most only two electrodes, the first electrode 206 and the second electrode 207.The metal heating layer being wherein printed on ceramic matrix 201 inwall itself is the metal variable resistance with positive temperature coefficient or negative temperature coefficient, heating layer itself is utilized to realize Temperature Feedback, 3pin structure accuracy of temperature control relatively is much lower, because the resistance of heater element own is the least, during work, relative resistance change is the least, so relative accuracy is much lower.
Shown in Figure 4, the present embodiment additionally provides a kind of electronic smoke atomizer 30, including main body 301 and the ceramic heating atomization core 10 being arranged within this main body 301, the two ends of main body 301 are respectively arranged with suction nozzle 302 and electrode assemblie 303, electrode assemblie 303 is connected with the electrical connection section 107 in ceramic heating atomization core 10, being used for connecting external power source and controller, be internally provided with a breather 305 in this main body 301, breather 305 is used for connecting suction nozzle 302 and ceramic heating atomization core 10 is internal.Being formed with the shoe cream room 304 for storing ree-oil between breather 305 and main body 301, described Oil Guide body 103 is configured in shoe cream room 304 draw ree-oil.
Above example is only this specification for ease of understanding the some embodiments cited by utility model content; the any restriction not the technical solution of the utility model carried out; also not all can embodiment exhaustive; therefore every any slight improvements that structure of the present utility model, flow process or step are made or equivalent substitution, within should be included in its protection domain.
Claims (9)
1. a ceramic heating atomization core, including ceramic heating element and for this ceramic heating element provide ree-oil Oil Guide body, it is characterized in that: described ceramic heating element includes ceramic matrix and heater element integrated with this ceramic matrix, described ceramic matrix has the first side and the second side being oppositely arranged, described heater element is formed on this first side, described Oil Guide body contacts with this second side, the ree-oil that described Oil Guide body is provided by described ceramic heating element heats to generate smog, and offer multiple through the groove for smog release between the first side and the second side or hole on this ceramic matrix.
Ceramic heating the most according to claim 1 atomization core, it is characterized in that: described ceramic matrix is cannula-like, described groove or hole are opened on the tube wall of ceramic matrix, described Oil Guide body is coated on the lateral surface of this ceramic matrix tube wall, and described heater element is formed on the medial surface of this ceramic matrix tube wall.
Ceramic heating the most according to claim 2 atomization core, it is characterised in that: described groove or hole along ceramic matrix tube wall axially or circumferencial direction extends.
Ceramic heating the most according to claim 1 atomization core, it is characterised in that: described heater element is the metal heating layer being printed on the first side of ceramic matrix, and this metal heating layer connects the first electrode for switching on power and the second electrode.
Ceramic heating the most according to claim 4 atomization core, it is characterized in that: on the first side of described ceramic matrix, be also printed with the thermal resistor layer with positive temperature coefficient or negative temperature coefficient, this thermal resistor layer and metal heating layer are isolated setting, this thermal resistor layer connects to be had one for the temperature control electrode of feedback temperature information, and this thermal resistor layer is also connected with one of them of described first electrode or the second electrode using as common electrode.
Ceramic heating the most according to claim 4 atomization core, it is characterised in that: described metal heating layer is the metal variable resistance with positive temperature coefficient or negative temperature coefficient.
Ceramic heating the most according to claim 1 atomization core, it is characterised in that: this ceramic heating atomization core also includes, for carrying described ceramic heating element and the housing of Oil Guide body, offering at least one fuel feed hole on the housing.
Ceramic heating the most according to claim 7 atomization core, it is characterised in that: described Oil Guide body is to be enclosed in the cotton that ceramic heating element is peripheral, and this cotton is for drawing the ree-oil flowed into from described fuel feed hole.
9. an electronic smoke atomizer, it is characterized in that including main body and being arranged on the atomization core of this body interior, it is also formed with the shoe cream room for storing ree-oil in this body interior, described atomization core is the ceramic heating atomization core described in any one of claim 1 to 8, and described Oil Guide body is configured in shoe cream room draw ree-oil.
Priority Applications (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620343783.8U CN205624474U (en) | 2016-04-22 | 2016-04-22 | Electron smog spinning disk atomiser that pottery generates heat and atomizes core and use this atomizing core |
| EP17167626.5A EP3188570B1 (en) | 2016-04-22 | 2017-04-21 | Atomizer of electronic cigarette, ceramic heating atomizing core and ceramic heater therein |
| US15/494,513 US10136675B2 (en) | 2016-04-22 | 2017-04-23 | Atomizer of electronic cigarette, ceramic heating atomizing core and ceramic heater therein |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620343783.8U CN205624474U (en) | 2016-04-22 | 2016-04-22 | Electron smog spinning disk atomiser that pottery generates heat and atomizes core and use this atomizing core |
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| Publication Number | Publication Date |
|---|---|
| CN205624474U true CN205624474U (en) | 2016-10-12 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201620343783.8U Active CN205624474U (en) | 2016-04-22 | 2016-04-22 | Electron smog spinning disk atomiser that pottery generates heat and atomizes core and use this atomizing core |
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| CN (1) | CN205624474U (en) |
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- 2016-04-22 CN CN201620343783.8U patent/CN205624474U/en active Active
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| CN113754459A (en) * | 2021-09-03 | 2021-12-07 | 东江精创注塑(深圳)有限公司 | Method for preparing ceramic atomizing core through one-time high-temperature sintering |
| WO2024016472A1 (en) * | 2022-07-18 | 2024-01-25 | 深圳市久喜电子有限公司 | Electronic cigarette |
| WO2024066302A1 (en) * | 2022-09-30 | 2024-04-04 | 深圳市卓力能技术有限公司 | Atomization core, atomizer, and electronic atomization device |
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