KR101698016B1 - Evaporating Module Having a Plural of Heaters for Atomizer - Google Patents

Abstract

The present invention relates to a vaporization module for multiple heaters for an atomiser, and more particularly to a vaporization module for multiple heaters for an atomiser which causes vaporization of the same or different inhalation solutions in at least two heaters. The vaporization module comprises: a first heater unit for generating a first vaporization component in the form of a particulate or gas from the first component; An induction unit (12) for inducing a first vaporization component generated in the first heater unit; And a second heater unit (13) for vaporizing the second component while adjusting the flow of the first vaporization component transmitted from the induction unit (12), wherein the first vaporization component generated in the first heater unit The second vaporized component generated in the second heater unit 13 is discharged through the same path.

Description

[0001] DESCRIPTION [0002] Evaporating Module Having a Plural of Heaters for Atomizer [

The present invention relates to a vaporization module for multiple heaters for an atomiser, and more particularly to a vaporization module for multiple heaters for an atomiser which causes vaporization of the same or different inhalation solutions in at least two heaters.

The liquid can be made into a gas or gas-like state by vaporization or by atomization and can be made inhaleable depending on the component. Vaporization can be caused by applying heat to the liquid and by atomizing the liquid through the nozzle or by applying ultrasonic waves. Appliances corresponding to devices that vaporize or atomize liquids can be applied to the inhalation of a drug solution, inhalation of a non-nicotine solution, or inhalation of a solution containing nicotine.

Patent Publication No. 2012-0012961 further comprises an auxiliary air inlet formed in a housing, a housing having the components, which is constituted by a power supply device, a sensor, a spray core and a liquid storage portion, and an air straw inlet is provided at one end of the housing An electronic cigarette is disclosed. In this document, the differentiation core comprises an electric heating element, the electric heating element atomizes the liquid in the liquid reservoir, the liquid reservoir has a channel through which the atomizing gas flows, an auxiliary air inlet, a sensor and a straw The nozzle will form an air flow loop.

Patent Publication No. 2009-0018039 includes a battery assembly, a sprayer assembly and a cigarette bottle assembly, the battery assembly including a MOSFET circuit board and an MCU, the cigarette bottle assembly including a nicotine liquid bottle, Discloses a cigarette or cigar type electronic cigarette which is inserted into one side of the sprayer assembly.

The atomizer disclosed in the prior art or a known atomizer uses a heater such as a nichrome wire for vaporization and an ultrasonic element is used for atomization, for example. And the liquid component may be supplied through a material that generates a capillary phenomenon, such as, for example, fibers, cotton or cotton. The atomized or vaporized component may be inhaled by a device such as, for example, a mouthpiece. In such a case, the liquid component becomes vaporized or atomized and sucked, so that some of the non-atomized liquid component may be sucked together. In addition, components that become vaporized or atomized are not completely sealed to the outside, and some liquid components may leak if they are not atomized or vaporized.

Prior art or publicly known techniques do not provide a solution to this problem.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Document 1: Korean Patent Publication No. 2012-0012961 (published on February 13, 2012) Document 2: Korean Patent Publication No. 2009-0018039 (published Feb. 19, 2009)

The present invention relates to a multi-heater module for an air conditioner which prevents leakage while improving the characteristics of vaporized components by controlling the flow of vaporized components while generating vaporization of the same or different suction solutions in at least two heaters will be.

According to a preferred embodiment of the present invention, a vaporization module of a multi-heater for a vaporizer comprises: a first heater unit for generating a first vaporization component in the form of particulate or gas from the first component; An induction unit for inducing a first vaporized component generated in the first heater unit; And a second heater unit for vaporizing the second component while adjusting the flow of the first vaporizing component transmitted from the induction unit, wherein the first vaporizing component generated in the first heater unit and the second vaporizing component generated in the second heater unit ) Is discharged through the same path.

According to another preferred embodiment of the present invention, the second heater unit includes an air inflow hole for introducing outside air.

According to another preferred embodiment of the present invention, the second heater unit includes a second heater and an ingredient storage medium.

According to another preferred embodiment of the present invention, the second heater unit includes a plurality of tube heaters.

According to another preferred embodiment of the present invention, the second heater unit includes a pair of plate type heaters and a component supply medium (36) connecting the inside and the outside of the plate type heater.

According to another preferred embodiment of the present invention, the second heater unit includes a vaporization induction furnace for induction of the first vaporization component and a capillary heater disposed inside the vaporization induction furnace.

According to another preferred embodiment of the present invention, the second heater unit includes a pair of opposing plate-shaped heaters, a flow-hole formed in at least one of the plate-like heater and the component supply medium and the outwardly extending component- .

According to another preferred embodiment of the present invention, the first component or the second component is liquid or solid.

The vaporization module according to the present invention has an advantage that vaporization efficiency is improved by vaporizing the same or different components through a plurality of heaters. And that the characteristics of the vaporized components are improved by causing the first component to be vaporized at least twice. In addition, by allowing the heater to be inserted into the storage medium, leakage is prevented.

1A shows an embodiment of a vaporization module according to the present invention.
FIG. 1B shows an embodiment of an induction unit applicable to the vaporization module according to the present invention.
2 shows an embodiment of a heater unit applied to the vaporization module according to the present invention.
3A, 3B and 3C show an embodiment of a heater unit applied to the vaporization module according to the present invention, respectively.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

FIG. 1A shows an embodiment of a vaporization module 10 according to the present invention, and FIG. 1B shows an embodiment of a guide unit 12 applicable to a vaporization module according to the present invention.

Referring to FIG. 1A, a vaporization module 10 according to the present invention includes a first heater unit for generating a first vaporized component in the form of particulate or gas from a first component; An induction unit (12) for inducing a first vaporization component generated in the first heater unit; And a second heater unit (13) for vaporizing the second component while adjusting the flow of the first vaporization component transmitted from the induction unit (12), wherein the first vaporization component generated in the first heater unit The second vaporized component generated in the second heater unit 13 is discharged through the same path.

The vaporization module 10 may be part of a radiator, an inhaler, or an electronic cigarette that produces an inhalable gas or particulate. Inhalable gases or particulates can be made from liquids or solids and can be produced, for example, by ultrasonic waves or heaters. The vaporization module 10 according to the present invention may include at least two heaters for gas generation and each heater may be disposed at a different position. For example, the first heater unit and the second heater unit 13 may each include a heater and be disposed at different positions. However, the first heater unit can generate the first vaporized component in the form of particles from the first component through the particulate generation unit. The first component and the second component can be solid or liquid and in this specification the vaporizing component comprises a particulate component. In this specification, the vaporization module 10 may comprise a first heater unit and a second heater unit 13, wherein the first heater unit generates a first vaporization component from the first component and the second heater unit 13 And the second vaporized component can be generated from the second component. The first heater unit and the second heater unit 13 may each include a supply means for supplying the first component and the second component to the first heater and the second heater.

The first component can be supplied from the supply unit 11 and the supply unit 11 can be provided with a storage container 111 for storing the first component, a sealing tube 112 formed inside the storage container 111, 112) formed in the upper portion of the main body. The base unit 14 can be coupled to the lower portion of the storage container 111. The base unit 14 may include a sealing body 141, a connection tab 142 formed below the sealing body 141, and a fixing tube 143 formed above the sealing body 141. The hermetically sealed body 141 may be coupled to the lower portion of the storage container 111 to seal the storage container 111. The connection tab 142 may have the function of being connected to a device such as, for example, a battery unit (not shown), and the securing tube 143 may fix the induction unit 12 inside the sealing tube 112 . And the induction unit 12 can be connected to the sealing tube 112.

The induction unit 12 includes a first vaporization body 121, a guide tube 122 formed above the first vaporization body 121 and an induction tab 123 connected to the lower side of the first vaporization body 121 . The first heater may be disposed inside the first vaporization body 121 and the induction tube 123 may be hollow hollow. The guide tab 123 may be connected to the fixing tab 142 and may have an internal structure capable of flowing air. For example, the external air introduced through the fixing tab 142 or the sealing body 141 may be supplied to the first heater via the induction tab 123. [ The guide tab 123 can be coupled to the interior of the securing tab 142 in a threaded engagement structure.

The induction tube 122 may have a function of guiding the first vaporized component vaporized in the first vaporization body 121 and delivering the vaporized component to the second heater unit 13. The first component may be stored in the storage container 111 and supplied to the interior of the first vaporization body 121 in a predetermined amount and may be supplied to the first vaporization body 121 by a first heater, . ≪ / RTI > The first vaporized component may be transferred to the second heater unit 13 via the induction tube 122 and the sealed tube 112. The inside of the sealing unit 112 can be formed into a structure capable of flowing the first vaporizing component while being coupled with the guide tube 122 at the same time. In this specification, the heater unit includes a first heater and a first component transferring means, for example, a plurality of fiber strands, for supplying a first component to the first heater. And the second heater unit 13 includes means for supplying the second component to the second heater and the second heater or means capable of supplying the second component to the second heater in a predetermined amount . In addition, the first heater unit or the second heater unit may comprise a component for inducing a flow of the first vaporizing component or the second vaporizing component.

The second heater unit 13 includes a discharge body 131, a second vaporization body 132 formed below the discharge body 131, a second vaporization body 132 extending downward from the second vaporization body 132, And a discharge tube 134 extending upwardly from the discharge body 131. The discharge tube 134 is connected to the discharge tube 134 through the connection tube 133,

The exhaust body 131 may have a function of mixing the second vaporization component generated in the second vaporization body 132 and the first vaporization component induced in the second vaporization body 132. However, the discharge body 131 is not necessarily formed. For example the vaporization body 132 is disposed within the discharge body 131 and the discharge tube 134 is connected to the upper side of the vaporization body 132 or the discharge tube 134 is connected directly to the vaporization body 132 Can be connected. The second vaporization body 132 may have a structure similar to the first vaporization body 121. However, the supply of the second component may be transferred from the storage means or storage medium formed in the second vaporization body 132 itself, or the second component storage means may be separately disposed around the second vaporization body 132. The second vaporization body 132 may be disposed within the fastening tube 113. However, various coupling structures can be applied between the supply unit 11 and the second heater unit 13, and the present invention is not limited to the embodiments shown.

According to the present invention, the first component may be vaporized in the first vaporization body 121 and transferred to the second vaporization body 132. The first vaporization component generated in the first vaporization body 121 may comprise a component or droplet not fully vaporized. Thus, the first vaporization component comprising the droplet can be heated in the second vaporization body 132 and the droplet can be vaporized. At the same time, the second component may be vaporized by the second vaporization body 132 to produce a second vaporization component. The first vaporization component and the second vaporization component may comprise the same or different components. Specifically, the first component and the second component may be the same or different components and may be in different forms. For example, both the first component and the second component may be liquids, or one of them may be a liquid or the other may be a gas. Separately vaporizing the same or different components at different locations thus vaporizes the components having different boiling points, allows the components to be vaporized in large amounts, or allows vaporization of components having different vaporization characteristics. Further, a large amount of vaporization can be performed at the same amount of power depending on the structure of the first vaporization body 121 and the second vaporization body 132 while preventing leakage of the first component while simultaneously allowing a large amount of vaporization. .

The first vaporization body 121 and the second vaporization body 132 may have the same or different structures.

Referring to FIG. 1B, the first heater 125 of the first vaporization body 121 may be fixed by the heater fixing element 124. And the component-mediated unit 126 may be disposed around the heater fixing element 124. [ The first heater 125 may be, for example, a nichrome wire, a carbon heater, a tungsten heater or a ceramic heater, and may be capable of supplying a first component stored in the interior of the storage vessel 111 by capillary action or other suitable method Can be combined with the feeding means. For example, the feeding means can be a fiber in which a plurality of strands are joined together. The first component may be delivered to the component mediating unit 126 via the supply hole 127 formed in the circumferential surface of the first vaporization body 121. [ The component mediated unit 126 may be, for example, but not limited to, a nonwoven, face, paper or fiber that may temporarily contain a liquid component, such as porous zeolite or elvan. The component mediation unit 126 may be connected to the first heater 125 via the supply means and may supply the first component again when the first component previously supplied to the first heater 125 is vaporized. And the vaporized first component may be delivered to the second vaporization body 132 via the induction tube 122.

The vaporization module 10 according to the present invention may include the vaporization unit 12 having various structures and is not limited to the illustrated embodiment. The first heater unit may include a first heater 125 and may further include a supply means, a component mediation unit 126, or a guide tube 122.

2 shows an embodiment of a heater unit applied to the vaporization module according to the present invention.

2, a heater fixing unit 21 in which a heater to which a second heater 22 and a second heater 22 are fixed is fixed inside a vaporizing body 132 of the second heater unit, a heater fixing unit 21 And a component storage medium (24) for supplying a second component to the second component. The second heater 22 may be a heater that is the same as or similar to the first heater, or may be a different kind of heater. For example, the second heater 22 may be a band-shaped strip heater and may be fixed to the heater fixing unit 21. FIG. 2 (B) shows the state of FIG. 2 (A) as viewed from above, and the second heater 22 may be composed of a pair of plate heaters. Through holes may be formed in the plate heater as necessary. And a component supply medium 221 such as, for example, a fiber or a face, may be fixed between the pair of plate heaters. And the component supply medium 221 may be connected to the component storage medium 24. [ The heater fixing unit 21 can be a hollow cylindrical structure and the component storage medium 24 can be disposed on the circumferential surface of the heater fixing unit 21. [ The component storage medium 24 can be a liquid or solid component and can be, for example, a nonwoven fabric embedded in a hermetically sealed container, or it can be in the form of a porous solid.

The second heater unit 132 having various structures can be applied to the vaporization module according to the present invention and the present invention is not limited to the embodiments shown.

3A, 3B and 3C show an embodiment of a heater unit applied to the vaporization module according to the present invention, respectively.

3A, the second heater unit 31 may be disposed inside the second vaporization body 132, and the component induction unit 33 may be formed inside the discharge body 131. [ The air inlet hole 32 may be formed on the circumferential surface of the second vaporization body 132 as needed.

The second heater unit 31 includes a second heater 311, a component supply medium 312 surrounding the second heater 311 and a component storage medium 313 for storing the second vaporized component, The second component may be stored in the medium 313. The component storage medium 313 may have a reservoir structure capable of storing a liquid component or may have a liquid-containing solid form capable of containing a liquid component and discharging in a certain amount. Alternatively, the component storage medium 313 may have a solid form containing a second component in a solid form. For example, the component storage media may be porous zeolites, porous ceramics, porous silicon, or mixtures thereof comprising a second component in liquid form or a second component in solid form. The second heater 311 may be a linear heater such as a nichrome wire, a plate heater or a hollow cap type conductive capillary heater. The second heater 311 may have a structure that is inserted into the interior of the component supply medium 312 and the second heater 311 is inserted into the interior of the component supply medium 312 and the component supply medium 312 And may be inserted into the interior of the component storage medium 313. Both ends of the second heater 311 may be connected to the external wiring through appropriate means. The second component vaporized in the second heater 311 may be transferred to the discharge body 131 through the connection tube 314 together with the first vaporized component. And may be discharged to the discharge tube 134 via the component induction unit 33. The component induction unit 33 may be disposed inside the discharge body 131 as needed. The component induction unit 33 may include a third heater while inducing a first vaporization component and a second component. The third heater may have the same or similar structure as the first or second heater, but does not include the supply means or the storage medium. For example, the third heater may be a plate heater or a tube heater.

3B, a second heater 35 may be disposed inside the component storage medium 313, and a component supply medium 36 may be disposed between the second heaters 35 . And the intermediate storage medium 37 may be disposed at the end of the component supply medium 36. [ The component of the component storage medium 313 may supply the temporarily stored second component to the intermediate storage medium 37. [ And the second component temporarily stored in the intermediate storage medium 37 may be supplied to the second heater 35 through the component supply medium 312. [ The second heater 35 may be in the shape of a hollow tube and may extend downward of the intermediate storage medium 37. And the first vaporization component can be supplied to the inside of the second heater 35. On the other hand, the component supply medium 36 may have a capillary structure and the second component stored in the intermediate storage medium 37 may be guided through the capillary phenomenon to the component supply medium 36. The second component, which is directed to the component supply medium 36, can be vaporized by the second heater 35 and discharged through the outlet tube 314.

3B, the heater 35 can be a plate heater, a heater 35 can be inserted into the intermediate storage medium 37, and the heater 35 and the intermediate storage medium 37 May be connected by the component supply medium 36 of the capillary structure. A plurality of holes may be formed in the connection tube 314 and a second vaporized component may be introduced into the exhaust tube 314 through the hole of the connection tube 314. [ A second heater unit having various structures can be applied to the vaporization module according to the present invention, and the present invention is not limited to the embodiments shown.

Referring to (a) of FIG. 3C, the second heaters 35a and 35b may be a pair of plate heaters having a bimetallic structure. The pair of plate heaters can be a metal plate having different thermal expansion coefficients and can be bent upward according to the power supply. The component supply medium 36 may be disposed between the pair of heaters. The flow holes 351 and 352 may be formed at different positions of the respective plate heaters. The pair of plate-shaped heaters are adhered to each other with the component supply medium 36 interposed therebetween, and the first vaporized component and the component supplied through the connection tabs 133 due to the flow holes 351, Leakage of the second component contained in the medium 36 is prevented. The second heaters 35a and 35b may be disposed inside the seal chamber 38 and the seal chamber 38 may have the contact wall 381. [ The sealing chamber 38 may be hollow cylindrical and the upper portion may be shielded by the shielding plate 39. [

The first vaporization component can be introduced into the connection tab 133 in the direction of arrow S. An appropriate component storage medium may be disposed within the enclosure 38 and connected to the component supply medium 36. [

Referring to (b) of FIG. 3 (c), when the plate heaters 35a and 35b are heated, the second components introduced into the component supply medium 36 are vaporized and the second heaters 35a and 35b can be bent upward . The first vaporized component introduced through the first arrow direction F1 may be discharged in the second arrow direction F2 through the connection tab 133 and flow into the flow hole 351. [ Then, it is heated again and can be discharged in the direction of the third arrow F3 through the flow hole 352 together with the second vaporized component. And can be discharged in the fourth arrow direction 39 through the side surface of the shield plate 39 raised upward by the plate heater. If necessary, the component supply medium 36 may be disposed on a part of the second heaters 35a and 35b. And the first vaporization component can be discharged to the side of the shielding plate 39 through the portion where the component supply medium 36 is not located. The sizes of the flow holes 351 and 352 may be adjusted according to the thermal expansion depending on the material of the second heaters 35a and 35b.

The sealing structure can be made in various shapes and the present invention is not limited to the embodiments shown.

The vaporization module according to the present invention has an advantage that vaporization efficiency is improved by vaporizing the same or different components through a plurality of heaters. And that the characteristics of the vaporized components are improved by causing the first component to be vaporized at least twice. In addition, by allowing the heater to be inserted into the storage medium, leakage is prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: vaporization module 11: supply unit
12: induction unit 13: second heater unit
14: base unit 21: heater fixing unit
22: second heater 23: air inflow hole
24: component storage medium 31: second heater unit
32: air inlet hole 33: component induction unit
35: Heaters 35a, 35b: Plate heater
36: component supply medium 37: intermediate storage medium
38: Enclosed room 39: Contact plate
111: storage container 112: sealed tube
113: fastening tube 121: first vaporization body
122: guide tube 123: guide tab
124: heater fixing element 125: first heater
126: Component mediation unit 127: Supply hole
131: exhaust body 132: second vaporization body
133: connection tab 134: extension tube
141: sealing body 142: connection tab
143: Fixing tube 221: Component supply medium
311: second heater 312: component supply medium
313: Component storage medium 314: Discharge tube
351, 352: flow hole 381: contact wall

Claims (8)

A first heater unit for generating a first vaporized component in the form of a particulate or gas from the first component;
An induction unit (12) for inducing a first vaporization component generated in the first heater unit; And
A second heater unit 13 composed of a vaporization induction furnace for guiding the first vaporization component delivered from the induction unit 12 and a capillary heater 35 disposed inside the vaporization induction furnace for vaporizing the second component Including,
Wherein the first vaporization component generated in the first heater unit and the second vaporization component generated in the second heater unit (13) are discharged through the same path. The vaporization module of claim 1, wherein the second heater unit (13) includes an air inlet hole (23) for introducing outside air. The vaporization module of claim 1, wherein the second heater unit (13) comprises a second heater (22) and a component storage medium (24). The vaporization module of claim 1, wherein the second heater unit (13) comprises a plurality of tube heaters (35). The apparatus according to claim 1, wherein the second heater unit (13) includes a pair of plate-shaped heaters (35) and a plurality of heater elements (35) module. delete The second heater unit 13 includes a pair of opposing plate heaters 35a and 35b, a component supply medium 36 extending inward and outward of the plate heaters 35a and 35b, (351, 352) formed in at least one of said at least one heat exchanger (35a, 35b). The vaporization module of claim 1, wherein the first component or the second component is a liquid or solid.

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