WO2010140841A2 - Appareil de vaporisation et d'inhalation de liquide - Google Patents

Appareil de vaporisation et d'inhalation de liquide Download PDF

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Publication number
WO2010140841A2
WO2010140841A2 PCT/KR2010/003548 KR2010003548W WO2010140841A2 WO 2010140841 A2 WO2010140841 A2 WO 2010140841A2 KR 2010003548 W KR2010003548 W KR 2010003548W WO 2010140841 A2 WO2010140841 A2 WO 2010140841A2
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WO
WIPO (PCT)
Prior art keywords
vaporization
suction device
liquid
vaporization suction
user
Prior art date
Application number
PCT/KR2010/003548
Other languages
English (en)
Korean (ko)
Other versions
WO2010140841A3 (fr
Inventor
조여찬
조여언
Original Assignee
주식회사 에바코
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR2020090006837U external-priority patent/KR20100012095U/ko
Priority claimed from KR2020090007917U external-priority patent/KR20100012901U/ko
Priority claimed from KR2020090012662U external-priority patent/KR20110003309U/ko
Priority claimed from KR2020090013681U external-priority patent/KR20110004156U/ko
Priority claimed from KR2020090013682U external-priority patent/KR20110004157U/ko
Priority claimed from KR2020090015127U external-priority patent/KR20110005304U/ko
Application filed by 주식회사 에바코 filed Critical 주식회사 에바코
Publication of WO2010140841A2 publication Critical patent/WO2010140841A2/fr
Publication of WO2010140841A3 publication Critical patent/WO2010140841A3/fr

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/06Inhaling appliances shaped like cigars, cigarettes or pipes

Definitions

  • the liquid vapor inhalation device is a device that incorporates a filter containing a predetermined liquid therein and vaporizes the liquid in the filter through a vaporizer so that a user can inhale it.
  • the exposed end of the e-cigarette When the user inhales the e-cigarette in his or her mouth as if the user smoked the cigarette, the exposed end of the e-cigarette generates a light similar to the flame generated by the actual cigarette, and the end of the e-cigarette in the user's mouth. Smoke similar to that produced by smoke is generated. Therefore, using such an electronic cigarette, the user can feel similar to the actual smoking.
  • the electronic cigarette does not contain tar, which is harmful to the body, and contains only nicotine, which is an active ingredient of the cigarette, it is possible to minimize harm to the user's body while giving the user satisfaction of using the cigarette.
  • the inhalation detection switch detects whether the user inhales the electronic cigarette by the change of the airflow.
  • the case in which the plurality of members are accommodated is generally circular in order to allow users to feel the use of the actual cigarette while using the electronic cigarette.
  • the electronic cigarette As the case of the electronic cigarette is circular, when the electronic cigarette is placed on a flat place such as a table, the electronic cigarette may roll. There is a disadvantage that can be broken by falling from the table.
  • a male screw and a female screw that can be coupled to each other are formed at a portion joining each of the members divided into a plurality of parts. In this case, a plurality of divided members were joined. However, the rotation of such a plurality of wheels is required for each division and coupling of each member, which may cause inconvenience.
  • the suction detection sensor when the suction detection sensor needs to be replaced due to failure or the like.
  • the partition member which is installed together with the battery and the circuit board, must be replaced as a whole, unnecessary replacement of the battery and the circuit board may occur.
  • the inhalation detection sensor does not operate if the user does not inhale, there is a disadvantage that can not satisfy the user's request to inhale nicotine gas without performing the inhalation.
  • the torn portion of the screening film formed while the screening film is pierced by the vaporizing member covers a portion of the screening film that penetrates the screening film of the vaporizing member.
  • the covering portion is limited in contact with the liquid inducing member so that nicotine liquid cannot be smoothly supplied from the liquid inducing member, and as a result, the vaporization performance of the vaporizing member may be degraded.
  • An object of the present invention is to provide a liquid vaporization suction device including a cloud prevention unit having a structure in which rolling thereof can be prevented.
  • Still another object of the present invention is to provide a vaporization suction device having a structure that may cause interest to a user.
  • Still another object of the present invention is to provide a vaporization suction device having a structure that can be utilized for various purposes.
  • Still another object of the present invention is to provide a vaporization suction device having a structure in which an operation switch member such as a suction detection sensor can be replaced separately from other members.
  • Still another object of the present invention is to provide a vaporization suction device having a structure capable of vaporizing a gas to be inhaled under operation of various types of input means.
  • Still another object of the present invention is to provide a liquid vaporization suction device having a structure capable of implementing various functions.
  • Liquid vaporization suction device is to be able to vaporize the liquid contained therein to the inhalation target gas for the user to inhale,
  • the vaporization suction device is to vaporize the vaporization object accommodated therein to the inhalation target gas for the user to inhale,
  • a plurality of partition members accommodating components for vaporizing the vaporized object into the inhalation target gas, formed into a plurality of parts, and detachable from each other with rotation within a range of 0 to 360 °; And a coupling member formed to be engaged with each other between the plurality of dividing members.
  • the coupling members respectively formed on the plurality of dividing members are engaged with each other to increase the coupling force of the plurality of dividing members.
  • the vaporization suction device is to vaporize the vaporization object accommodated therein to the inhalation target gas for the user to inhale,
  • a plurality of partition members accommodating components for vaporizing the vaporized object into the inhalation target gas, formed into a plurality of parts, and detachable from each other in a rotationless manner; An insert formed in one of the plurality of partition members engaged with each other; And an insertion groove formed in another one of the plurality of dividing members engaged with each other, and into which the insert can be inserted.
  • the insert is inserted into the insertion groove in a non-rotating manner, thereby increasing the coupling force of the plurality of dividing members.
  • the vaporization suction device is to vaporize the vaporization object accommodated therein to the inhalation target gas for the user to inhale,
  • a vaporization suction device body accommodating therein components for vaporizing the vaporization object with the inhalation gas; And a light emitting member formed in the body of the vaporization suction apparatus and configured to emit light independently from each other.
  • the vaporization suction device is to vaporize the vaporization object accommodated therein to the inhalation target gas for the user to inhale,
  • the vaporization suction device is to vaporize the vaporization object accommodated therein to the inhalation target gas for the user to inhale,
  • the vaporization suction device is to vaporize the vaporization object accommodated therein to the inhalation target gas for the user to inhale,
  • a vaporization suction device includes a vaporization object accommodation member for receiving a vaporization object, a vaporization member for vaporizing the vaporization object accommodated in the vaporization object accommodation member with an inhalation gas, and electrical energy to the vaporization member. It includes a battery for supplying, an operation switch member for selecting whether to operate the vaporizing member, and a control member for controlling the operation of the vaporizing member in accordance with the operation of the operation switch member,
  • the vaporization suction device to vaporize the vaporized object accommodated therein to be inhaled
  • control member may operate the vaporization member to vaporize the vaporization object with the inhalation target gas.
  • the control member is configured to lock the vaporization suction device not to operate until the operation switch member is operated to satisfy the preset unlocking condition when the operation switch member is operated to satisfy the preset locking condition. do.
  • a liquid vapor inhalation apparatus comprising: a wavelength generating member capable of vaporizing a liquid contained therein to be inhaled by a user to inhale into a gas to be inhaled, and generating a wavelength capable of causing a sense of stability to a user; It includes.
  • the liquid vaporization suction device is to vaporize the liquid contained therein for the user to inhale into the gas to be sucked, the sound generating member capable of generating sound; includes.
  • a liquid vapor inhalation apparatus includes a memory member capable of vaporizing a liquid contained therein to be a gas to be inhaled to be inhaled by a user, and storing information.
  • Liquid vaporization suction device is to vaporize the liquid contained therein to the user to inhale the gas to be inhaled, the image capturing member for capturing an image; includes.
  • the liquid vaporization suction device since the cloud prevention portion is formed on the outer surface of the case of the liquid vaporization suction device, the liquid vaporization suction device may not be rolled on a flat place, a drop that may occur according to the cloud There is an effect that can be prevented due to damage.
  • a plurality of partition members are joined to each other with a rotation in the range of 0 to 360 °, and in such a joining process, the engaging members formed on the plurality of partition members are engaged with each other, the plurality of partitions Increasing the coupling force of the member, it is possible to be firmly coupled without the need to rotate the plurality of dividing members a plurality of wheels, there is an effect that the removable can be convenient.
  • the electrodes that can be energized with each other are formed in the coupling portion of the plurality of partition members, at least some of the electrodes include an elastic portion having an elastic, a plurality of partition members
  • the electrodes formed on the plurality of partition members are engaged with each other and the elastic portions are pressed to provide elasticity, so that the electrodes formed on the plurality of partition members are in intimate contact with each other, thereby smoothly conducting electricity between the plurality of partition members. It works.
  • the variable engaging projection that can be changed in shape is formed, in the process of combining a plurality of partition members, the variable engaging projection is pushed while touching the surface of the negative pressure forming portion
  • the variable coupling protrusions are protruded into the coupling grooves so that the variable coupling protrusions do not interfere with the coupling of the plurality of dividing members. There is an effect that can increase the bonding force.
  • the vaporization suction device when the insert is inserted into the negative pressure forming portion, as the plurality of partition members slide in a non-rotating manner without rotation, the detachment is made between the plurality of partition members, While detachment is made easily, there is an effect that the bonding force between the plurality of dividing members can be increased.
  • the introduction member is formed in the engaging groove is formed in a shape recessed from the end of the negative pressure forming portion in the direction in which the plurality of partition members are coupled, that is, the longitudinal direction of the vaporization suction device,
  • a coupling groove consisting of a fixed groove formed in a shape bent at a predetermined angle in the direction in which the introduction groove is formed at the end of the groove, while the coupling of the plurality of divided members is made easily, the coupling force can be increased have.
  • the user is detected by the suction detection switch by the suction detection switch, the vibration of the vaporization suction device body by the vibration detection sensor, or the external sound by the acoustic member
  • the plurality of light emitting members or the display members are activated, for example, when the other vapor inhalation apparatus is detected by the radio wave transmitting / receiving member to be approached within a predetermined range with respect to the vaporization inhalation apparatus, the vaporization inhalation apparatus is operated.
  • the vaporization suction device is connected to the vaporization suction member and the vaporization suction member, the components for vaporizing the vaporization object to the inhalation target gas therein, and can be written
  • the vaporization object may be inhaled in a gaseous state, or can be written, there is an effect that the ease of use of the vaporization suction device can be improved.
  • a vaporization suction device comprising: a first dividing member including a battery and a control member; A second dividing member detachable from the first dividing member, the second dividing member comprising an actuation switch member; And a third dividing member detachable from the second dividing member, the third dividing member including at least one of the vaporizing member and the vaporizing object receiving member, wherein the second dividing member is replaced separately from the first dividing member and the third dividing member.
  • the vaporization member when the user of the vaporization suction device bites and inhales the vaporization suction device, the vaporization member is operated so that the vaporization object can be vaporized with the gas to be inhaled to the user of the vaporization suction device
  • a suction detection sensor for detecting inhalation and an operation switch that can be directly selected by the user of the vaporization suction device so that the user of the vaporization suction device can manually activate the vaporization member to vaporize the vaporized object into the gas to be inhaled.
  • the inhalation target gas can be vaporized according to the operation of various types of input means, the user can operate the vaporization inhalation device without any additional operation to conveniently vaporize and inhale the vaporization object, but also inhale at one time. If you want to increase the concentration of the subject, operate the operation switch By maintaining constant the time to increase the concentration of the drawn target object, and vaporized to increase the suction satisfaction, there is an effect that a user can inhale, while no target suction gas to the suction action.
  • a liquid vaporization suction device comprising: a liquid receiving member in which a liquid to be vaporized is accommodated therein; A vaporizing member capable of vaporizing a liquid supplied from the liquid receiving member; A liquid inducing member for inducing liquid in the liquid receiving member to be delivered to the vaporizing member; And a liquid inducing member fixing member which forms a flow space such that the liquid in the liquid receiving member can flow toward the liquid inducing member while the liquid inducing member is fixed to the liquid receiving member.
  • the wavelength generating member is provided with a wavelength that can give a sense of stability to the user, there is an effect that can cause a sense of stability to the user using the liquid vaporization suction device. .
  • the user using the liquid vaporization suction device can store and carry desired information without having to separately provide a USB type information storage device or the like. It can be effective.
  • FIG. 1 is a perspective view showing a liquid vaporization suction device including a cloud preventing unit according to a first embodiment of the present invention is separated.
  • Figure 5 is a front view showing a state of the liquid vaporization suction device including a cloud protection according to a second embodiment of the present invention.
  • Figure 6 is a perspective view showing a part of the liquid vaporization suction apparatus including a cloud protection according to a third embodiment of the present invention.
  • FIG. 9 is an enlarged view of a portion A shown in FIG. 8.
  • FIG. 9 is an enlarged view of a portion A shown in FIG. 8.
  • FIG. 10 is a perspective view showing a state in which the vaporization suction device according to the fourth embodiment of the present invention is coupled.
  • FIG. 11 is an enlarged view of a portion B shown in FIG. 10.
  • FIG. 11 is an enlarged view of a portion B shown in FIG. 10.
  • FIG. 12 is a cross-sectional view showing a partial state in which the first partition member and the second partition member which constitute the vaporization suction device according to the fifth embodiment of the present invention are separated.
  • FIG. 13 is a cross-sectional view showing a state in which the first and second partitioning members constituting the vaporization suction device according to the fifth embodiment of the present invention are combined.
  • FIG. 15 is a cross-sectional view showing a state in which the variable coupling protrusion constituting the vaporization suction device according to a sixth embodiment of the present invention is inserted.
  • FIG. 16 is a perspective view showing a separated state of the vaporization suction device according to a seventh embodiment of the present invention.
  • FIG. 18 is a perspective view showing a separated state of the coupling member of the vaporization suction device according to an eighth embodiment of the present invention.
  • FIG. 19 is a perspective view showing a state in which the vaporization suction device according to the ninth embodiment of the present invention is separated.
  • FIG. 20 is a perspective view showing a state in which the vaporization suction device according to the ninth embodiment of the present invention is coupled.
  • FIG. 24 is a perspective view showing a state in which the vaporization suction device according to a thirteenth embodiment of the present invention is separated.
  • 25 is a perspective view showing a state in which the vaporization suction device according to a fourteenth embodiment of the present invention is separated.
  • Figure 26 is a perspective view showing a state in which the vaporization suction device according to the fifteenth embodiment of the present invention is separated.
  • FIG. 27 is a perspective view showing a state in which the vaporization suction device according to a sixteenth embodiment of the present invention is separated.
  • FIG. 28 is a perspective view showing a state in which the vaporization suction device according to the seventeenth embodiment of the present invention is coupled.
  • 29 is a perspective view showing a state in which the vaporization suction device according to the eighteenth embodiment of the present invention is separated.
  • FIG. 30 is a perspective view showing a state in which the vaporization suction device according to the nineteenth embodiment of the present invention is separated.
  • FIG. 31 is a perspective view showing a state in which the vaporization suction device according to the twentieth embodiment of the present invention is separated.
  • FIG 32 is a perspective view showing a state in which the vaporization suction device according to the twenty-first embodiment of the present invention is separated.
  • 33 is a cross-sectional view showing that the vaporization suction apparatus according to the twenty-second embodiment of the present invention is separated;
  • 35 is a cross-sectional view showing the state that the pen nib protrudes from the pen member in the vaporization suction apparatus according to a twenty-third embodiment of the present invention.
  • FIG. 36 is a cross-sectional view showing the pen nib inserted into the pen member in the vaporization suction apparatus according to the twenty-third embodiment of the present invention.
  • FIG. 42 is a perspective view showing a state in which the vaporization suction device according to the twenty-eighth embodiment of the present invention is separated.
  • FIG. 43 is a perspective view of the vaporization inhalation device according to the twenty-ninth embodiment of the present invention separated;
  • FIG. 45 is a perspective view showing a state in which the vaporization suction device according to a thirtieth embodiment of the present invention is coupled.
  • FIG. 49 is a perspective view showing a combined state of the vaporization suction device according to a thirty-fourth embodiment of the present invention.
  • Fig. 53 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the 36th embodiment of the present invention.
  • Fig. 54 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the thirty seventh embodiment of the present invention.
  • Fig. 57 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the forty embodiment of the present invention.
  • 64 is a cross-sectional view showing that a memory member is applied and a stopper is coupled to a liquid vaporization suction device according to a 43rd embodiment of the present invention
  • FIG. 65 is a cross-sectional view illustrating a state in which an image capturing member is applied to a liquid vaporization suction device according to a forty-fourth embodiment of the present invention, and the stopper is separated;
  • FIG. 67 is a cross-sectional view illustrating that a wavelength generating member and an image capturing member are applied to a liquid vaporization suction apparatus according to a forty-seventh embodiment of the present invention, and the cap is detached
  • Fig. 68 is a sectional view showing the wavelength generating member and the acoustic generating member applied to the liquid vaporization suction apparatus according to the forty-seventh embodiment of the present invention.
  • an electronic cigarette type device in which nicotine liquid is received as a vaporization suction device, but this is exemplary. That is, as a receiving liquid or a vaporizing object accommodated in the vaporization inhalation apparatus described below, various flavors such as injection liquids, aromas, functional ingredient-containing substances, health supplement-containing substances, pharmaceutical ingredient-containing substances, etc. may be presented instead of nicotine liquid. And the form of such vaporized subject may be presented as a liquid or a solid. If the vaporized subject is a solid, the solid may be heated to liquefy and then vaporized. Such a vaporized object may be inhaled by a user by being vaporized in a vaporization inhalation device. In this case, components such as the light emitting diodes below may be omitted as necessary.
  • FIG. 1 is a perspective view showing a liquid vaporization suction device including a cloud protection unit according to a first embodiment of the present invention is separated
  • Figure 2 is a liquid vaporization suction including a cloud protection unit according to a first embodiment of the present invention
  • Figure 3 is a perspective view showing the combined state
  • Figure 3 is a front view showing the roll of the liquid vaporization suction device including a rolling protection according to a first embodiment of the present invention
  • Figure 4 is a liquid vapor inhalation shown in Figure 3 A front view showing the device in a cloud stop by the cloud guard.
  • the liquid vaporization suction apparatus 100 includes a first member 110, a second member 120, and is housed therein for the user to inhale
  • the liquid can be vaporized into the gas to be inhaled.
  • the configuration of the members 110 and 120 is exemplary, and the number of configurations of the members may be changed.
  • the light emitting diode 113 In the case 111 of the first member 110, the light emitting diode 113, the battery 115, the controller 114, and the suction detection switch 150 are sequentially disposed.
  • the heat generating member 125, the liquid receiving member 126, and the lid 124 are sequentially disposed in the case 121 of the second member 120.
  • the cloud prevention part is formed on the outer surface of the case, since the liquid vaporization suction device may not roll on a flat place, breakage due to a drop that may occur due to the cloud may be prevented.
  • the light emitting diode 113 is a part electrically connected to the battery 115 and capable of emitting red light under the control of the controller 114.
  • the light emitting diode 113 is formed on the front member 112 on the front surface of the case 111.
  • the battery 115 is a portion for applying power to the light emitting diode 113, the controller 114, the heat generating member 125, and the like, and a polymer lithium battery may be provided.
  • the outside air introduced into the negative pressure forming unit 116 through the outside air introduction hole 117 is inhaled by the user together with nicotine which is an inhalation target gas vaporized by the heat generating member 125.
  • the outside air flow hole 123 is formed at the center of the insert 122. Air in the negative pressure forming unit 116 may flow into the case 121 of the second member 120 through the outside air flow hole 123. Air introduced as described above is discharged to the user's mouth through the suction hole (not shown) formed in the lid 124 via the heat generating member 125.
  • the heat generating member 125 is a portion capable of generating heat by receiving power from the battery 115 according to the command of the controller 114.
  • nicotine liquid delivered from the liquid receiving member 126 may be vaporized by the heat. Nicotine vaporized by the heat generating member 125 is mixed with the air introduced through the outside air flow hole 123, and flows out of the user's mouth through the lid 124.
  • a sensor inside the suction detection switch 150 detects such a negative pressure, and the suction detection switch 150 detects whether the user inhales.
  • the user By the operation of the liquid vaporization inhalation device 100 as described above, the user obtains a feeling similar to the actual smoking.
  • the cloud preventing part 218 formed on the outer surface of the case 211 may be formed of a polyhedron.
  • the cloud prevention unit 218 is made of a polyhedron, the occurrence of cloud phenomenon of the liquid vaporization suction device 200 can be minimized.
  • FIG. 6 is a perspective view showing a part of the liquid vaporization suction device including a cloud protection unit according to a third embodiment of the present invention
  • Figure 7 is a liquid vaporization suction device including a cloud protection unit according to a third embodiment of the present invention It is the front view which looks like a.
  • the vaporization suction device 400 is presented as being composed of the first partition member 410 and the second partition member 420, but this is exemplary, the vaporization suction device 400 is a larger number
  • the components for vaporizing the vaporized object into the inhalation target gas may be divided and accommodated in the plurality of divided members.
  • the light emitting diode 413, the light emitting unit 430, the battery 415, the controller 414, and the suction detection switch 450 are disposed in the case 411 of the first dividing member 410.
  • the light emitting diode 413 is electrically connected to the battery 415 and emits red light.
  • the light emitting diode 413 is formed on the front member 412 on the front surface of the case 411.
  • the light emitting unit 430 is connected to the light emitting diode 413 to emit the light emitting diode 413 under the control of the controller 414.
  • the battery 415 is a portion for applying power to the light emitting diode 413, the controller 414, the heat generating member 425, and the like, and a polymer lithium battery may be provided.
  • the suction detection switch 450 is a part that detects the suction when the user inhales the distal end of the second dividing member 420 by mouth.
  • the controller 414 When the suction detection switch 450 detects a user's inhalation, the controller 414 operates the heating member 425 to vaporize the liquid in the liquid receiving member 426.
  • a recessed portion 428 is formed around the periphery 427 of the outside air flow hole 423, and an outer portion 429 of the insert 422 is formed around the recessed portion 428. do.
  • the heat generating member 425 is a portion capable of generating heat by receiving power from the battery 415 according to the command of the controller 414.
  • the nicotine liquid delivered from the liquid receiving member 426 may be vaporized by the heat. Nicotine vaporized by the heat generating member 425 is mixed with air introduced through the outside air flow hole 423 and flows out of the user's mouth through the lid 424.
  • the first dividing member 410 and the second dividing member 420 are formed to be detached from each other with a rotation within a range of 0 to 360 °, the first dividing member 410 and the In the second dividing member 420, coupling protrusions 445 and coupling grooves 440 may be formed to be engaged with each other.
  • the coupling protrusion 445 and the coupling groove 440 are formed of a convex portion and a concave-convex portion having a shape corresponding to each other so as to be engaged with each other, so that the first division member 410 and the second division member are formed.
  • the coupling protrusion 445 is forcibly fitted to the inner surface of the negative pressure forming unit 416 during the coupling process of 420, and when the coupling is completed, the coupling protrusion 445 is coupled to the coupling groove 440.
  • a coupling force between the first dividing member 410 and the second dividing member 420 may be increased.
  • the coupling protrusion 445 is separated from the coupling groove 440.
  • the coupling between the member 410 and the second dividing member 420 can be easily released.
  • the coupling protrusion 445 is formed in the second dividing member 420 and the coupling groove 440 is formed in the first dividing member 410 in the drawing, this is exemplary and various. It can be formed in each member.
  • the coupling protrusion 445 and the coupling groove 440 may be engaged with each other to increase the coupling force of the plurality of dividing members 410 and 120, and may be defined as a coupling member.
  • Various other forms besides the engaging protrusion 445 and the engaging groove 440 may be presented.
  • the coupling protrusion 445 may also be formed in a ring shape, and the coupling groove 440 may also be formed in a shape corresponding to the coupling protrusion 445 of the ring shape.
  • the coupling protrusion 445 and the coupling groove 440 may be provided in various forms.
  • the insert 422 of the second dividing member 420 is inserted into the negative pressure forming portion 416 at the end of the first dividing member 410 with rotation within a range of 0 to 360 °.
  • the first dividing member 410 and the second dividing member 420 may be coupled to each other.
  • the first dividing member 410 and the second dividing member 420 may be coupled to each other without rotation, that is, without rotation.
  • the plurality of dividing members 410 and 120 are coupled to each other with rotation within a range of 0 to 360 °, and the coupling members respectively formed on the plurality of dividing members 410 and 120 are combined with each other in such a joining process.
  • the engagement force of the plurality of dividing members 410 and 120 is increased while being engaged, the plurality of dividing members 410 and 120 can be firmly coupled without having to rotate a plurality of wheels, so that the detachable members can be conveniently removed. .
  • the suction detection switch 450 detects this and transmits the detected value to the controller 414.
  • the air inside the case 421 of the second dividing member 420 flows out into the user's mouth, and the air in the negative pressure forming unit 416 is sequentially flowed out, and the negative pressure A negative pressure is formed in the forming portion 416.
  • a small amount of air continuously flows through the outside air introduction hole 417, so that the negative pressure is continuously formed in the negative pressure forming unit 416 during the suction process of the user.
  • control unit 414 receiving the detection value transmits a driving command to the light emitting diode 413 and the heat generating member 425, and accordingly the light emitting diode 413 and the heat generating member 425
  • the battery 415 is supplied with power to emit light and generate heat, respectively.
  • the user obtains a feeling similar to the actual smoking.
  • FIG. 12 is a cross-sectional view showing a partial state in which the first and second partition members constituting the vaporization suction device according to the fifth embodiment of the present invention are separated
  • FIG. 13 is a vaporization according to the fifth embodiment of the present invention. It is sectional drawing which shows the state which the 1st dividing member and the 2nd dividing member which comprise a suction apparatus couple
  • Reference numeral 528 denotes an insulator that insulates the outer portion of the insert 522 and the peripheral portion 527.
  • the contact portions 554 and 557 may each have a donut shape.
  • the protruding variable groove 622a is formed on the outer side of the insert 622 of the second dividing member 620 and forms a shape recessed to a predetermined depth from the surface of the insert 622.
  • the vaporization suction apparatus 900 includes a first dividing member 910 and a second dividing member 920 and may be sucked by a user.
  • the received vaporization subject can be vaporized with the gas to be inhaled.
  • a plurality of light emitting members 940 are installed on the outer surface of the case 911 of the first dividing member 910.
  • the plurality of light emitting members 940 may emit light independently of each other, and may emit light in a predetermined order according to a control command of the controller 914.
  • a display member 1790 capable of displaying predetermined information is disposed on a body of the vaporization suction device 1700 according to the present embodiment.
  • the display member 1790 may display various types of information in a digital format.
  • the vaporization suction device 1800 is composed of the first partition member 1810 and the second partition member 1820, which is exemplary, and the vaporization suction device 1800 has a larger number.
  • the components for vaporizing the vaporized object into the inhalation target gas may be divided and accommodated in the plurality of divided members.
  • the acoustic member 1860 is disposed inside the case 1811 of the first division member 1810.
  • the acoustic member 1860 may generate a predetermined sound, and various sounds, such as a preset sound and a recorded sound, may be presented as a sound that may be generated by the acoustic member 1860.
  • the case 1811 of the first dividing member 1810 and the case 1821 of the second dividing member 1820 may contain components for vaporizing the vaporized object with the inhalation gas. It can be defined as the suction device body.
  • the suction detection switch 1850 detects that the user inhales
  • the acoustic member 1860 may generate sound according to the command of the controller 1814, and thus the power consumption may be reduced.
  • the user of the inhalation device 1800 may cause interest of the user.
  • the heat generating member 1825 When the heat generating member 1825 generates heat, the nicotine liquid delivered by the heat is vaporized to form smoke. The smoke formed as described above is discharged into the user's mouth through the lid 1824 of the second dividing member 1820.
  • the user By operation of the vaporization suction device 1800 as described above, the user obtains a feeling similar to the actual smoking.
  • the vibration of the vaporization suction device body is detected together with the acoustic member 1960.
  • Vibration sensing sensor 1970 is disposed.
  • FIG. 31 is a perspective view showing a state in which the vaporization suction device according to the twentieth embodiment of the present invention is separated.
  • a radio wave transmitting and receiving member 2080 is disposed that detects whether the device is within a certain distance range.
  • the radio wave transmission and reception member 2080 may transmit and receive radio waves with a radio wave transmission and reception member installed inside the other vaporization suction device.
  • the acoustic member 2060 may generate a sound, the user's suction is not detected If not, the user may be interested, and the user carrying the vaporization suction device 2000 may easily recognize another user having the other vaporization suction device.
  • the sound generation period of the acoustic member 2060 is changed by the control unit 2014 to the other vaporization suction device. It may vary depending on the degree of proximity. For example, as the other vaporization suction device approaches the vaporization suction device 2000, the sound generation period of the acoustic member 2060 may be shortened.
  • FIG. 32 is a perspective view illustrating a state in which the vaporization suction device according to the twenty-first embodiment of the present invention is separated.
  • an acoustic member 2160 is disposed inside the case 2111 of the first dividing member 2110 of the vaporization suction device 2100, and a user is disposed on an outer surface of the case 2111.
  • a selectable member 2161 which can be selected is formed.
  • the selection member 2161 may be indirectly connected to the acoustic member 2160 through the control unit 2114 or directly connected to the acoustic member 2160. When selected in such a manner as to lose, the acoustic member 2160 generates sound.
  • the selection member 2221 is shown to be installed on the outer surface of the case 2111 of the first dividing member 2110, but this is exemplary, and other parts such as the case 2121 of the second dividing member 2120. It can also be installed in.
  • the vaporization suction device 2200 includes a vaporization suction member 2201 and a pen member 2202, and a vaporization object accommodated therein for the user to inhale. Can be vaporized into the gas to be inhaled.
  • the vaporization suction member 2201 is configured to accommodate components for vaporizing the vaporization object with the inhalation target gas therein, and the pen member 2202 is connected to the vaporization suction member 2201 and capable of writing. To do that.
  • the vaporization suction member 2201 includes a first partition member 2210 and a second partition member 2220.
  • the vaporization suction member 2201 is composed of the first partition member 2210 and the second partition member 2220, which is exemplary, and the vaporization suction member 2201 has a larger number.
  • the components for vaporizing the vaporized object into the inhalation target gas may be divided and accommodated in the plurality of divided members.
  • the battery 2215, the controller 2214, and the suction detection switch 2218 are disposed in the case 2211 of the first division member 2210.
  • the heat generating member 2225, the liquid containing member 2226, and the lid 2224 are disposed in the case 2221 of the second dividing member 2220.
  • the case 2211 of the first dividing member 2210 may be defined as a front case, and the case 2221 of the second dividing member 2220 may be defined as a rear case.
  • the battery 2215 is a portion for applying power to the controller 2214, the heat generating member 2225, or the like, and a polymer lithium battery may be provided.
  • the controller 2214 is a part in which various circuits required for the operation of the vaporization suction device 2200 are formed.
  • the controller 2214 may control the operation of the heating member 2225 or the like according to the detection value transmitted from the suction detection switch 2218.
  • a negative pressure forming part 2216 is formed at the rear end of the case 2211.
  • An outside air introduction hole 2217 is formed in the negative pressure forming unit 2216.
  • the outside air introduction hole 2217 may be formed in plural.
  • the outside air introduction hole 2217 may be defined as an outside air introduction unit.
  • Reference numeral 2212 denotes a pen member connection portion formed at a front end of the case 2211 of the first dividing member 2210 and is a portion to which the pen member 2201 is connected.
  • the outside air introduced into the negative pressure forming unit 2216 through the outside air introduction hole 2217 is inhaled by the user together with nicotine which is an inhalation target gas vaporized by the heat generating member 2225.
  • the suction detection switch 2218 is a part that detects the suction when the user inhales the distal end of the second dividing member 2220 by mouth.
  • the control unit 2214 When the suction detection switch 2218 detects a user's suction, the control unit 2214 operates the heating member 2225 to vaporize the liquid in the liquid receiving member 2226.
  • An insert 2222 is formed at the front side of the second dividing member 2220.
  • the insert 2222 is inserted at the end of the negative pressure forming portion 2216. Even when the insert 2222 is inserted into the negative pressure forming portion 2216, the outside air introduction hole 2217 is not covered by the insert 2222.
  • the insert 2222 is electrically connected to the battery 2215 and the controller 2214.
  • an electrode contacting each other is formed on an outer surface of the insert 2222 and an inner surface of the negative pressure forming unit 2216, and an electrode formed on an outer surface of the insert 2222 is electrically connected to the heat generating member 2225.
  • the electrode formed on the inner surface of the negative pressure forming unit 2216 may be electrically connected to the controller 2214 and the battery 2215.
  • An outside air flow hole 2223 is formed at the center of the insert 2222. Air in the negative pressure forming unit 2216 may be introduced into the case 2221 of the second dividing member 2220 through the outside air flow hole 2223. The air introduced as described above is discharged to the mouth of the user through the suction hole (not shown) formed in the lid 2224 through the heat generating member 2225.
  • a depression 2228 having a recessed shape is formed around the periphery portion 2227 of the outside air flow hole 2223, and an outer portion 2229 of the insert 2222 is formed around the depression 2228. do.
  • the heat generating member 2225 is a portion capable of generating heat by receiving power from the battery 2215 according to the command of the controller 2214.
  • nicotine liquid delivered from the liquid receiving member 2226 may be vaporized by the heat.
  • Nicotine vaporized by the heat generating member 2225 is mixed with air introduced through the outside air flow hole 2223, and flows out of the user's mouth through the lid 2224.
  • the liquid accommodating member 2226 has a nicotine liquid contained therein as a liquid, and delivers the nicotine liquid contained therein to the heat generating member 2225.
  • the pen member 2202 includes a pen core receiving member 2230 and a pen cover 2240.
  • the nib receiving member 2230 includes a nib receiving member body 2234, a nib 2223, and a vaporization suction member connecting portion 2235.
  • the nib 2223 is inserted into the pen nib member 2234, ink is received therein, and the ink is written out from the distal end portion 2232 so as to be writable.
  • the vaporization suction member connection portion 2235 is formed at a distal end of the pen core receiving member body 2234, and the pen core receiving member 2230 is connected to the vaporization suction member 2201, in detail, to the first dividing member 2210. In more detail, the pen member connection part 2212 of the first dividing member 2210 is connected.
  • the pen cover 2240 includes a pen cover body 2241 and a pen nib accommodating member accommodating hole 2224 formed in the pen cover body 2241, and has a distal end portion at which the ink is discharged from the pen core 2231. At least a portion of the nib receiving member 2230, including a front end thereof, is inserted into the nib receiving member receiving hole 2242, including 2232, thereby covering the inserted portion of the nib receiving member 2230. As a result, the ink of the nib 2223 may not dry out.
  • the suction detection switch 2218 detects this and delivers the corresponding detection value to the controller 2214.
  • air in the second dividing member 2220 case 2221 flows into the user's mouth, and in turn, air in the negative pressure forming unit 2216 also flows out, thereby preventing the negative pressure.
  • a negative pressure is formed in the forming portion 2216.
  • a small amount of air continuously flows through the outside air introduction hole 2217, so that a negative pressure is continuously formed in the negative pressure forming unit 2216 during a user's suction process.
  • the suction detection switch 2218 detects whether the user inhales.
  • control unit 2214 which has received the detection value, transmits a driving command to the heat generating member 2225, and accordingly, the heat generating member 2225 receives the power of the battery 2215 to generate heat. .
  • the user obtains a feeling similar to the actual smoking.
  • the pen cover 2240 is detached from the nib receiving member 2230, and then the pen nib receiving member 2230 can be written. have.
  • the vaporization suction device 2200 is connected to the vaporization suction member 2201 and the vaporization suction member 2201 in which the components for vaporizing the vaporization object into the inhalation target gas are accommodated. Since the pen member 2202 enables writing, the vaporization suction device 2200 may be used to inhale the vaporized object in a gaseous state, or may write, so that the vaporization suction device 2200 may be used. Ease of use can be improved.
  • FIG. 35 is a cross-sectional view illustrating the pen core protruding from the pen member in the vaporization suction apparatus according to the twenty-third embodiment of the present invention
  • FIG. 36 is a pen core in the pen member in the vaporization suction apparatus according to the twenty-third embodiment of the present invention. This is a cross-sectional view showing the inserted state.
  • the vaporization suction device 2300 includes a vaporization suction member 2301 and a pen member 2302, and the pen member 2302 is a pen member body ( 2334, a vaporization suction member connecting portion 2335, a nib 2233, a pushing member 2350, and an elastic member 2336.
  • the pen core 2331 may contain ink in the pen core body 2333, and go out so that the accommodated ink may be written through the distal end 2332.
  • a nib guide portion 2333a having a small gap with an inner surface of the pen member body 2334 is formed along the outer circumferential surface of the pen core body 2333 so that the pen nib 2331 is large in the pen member body 2334. Can be moved without swinging.
  • the pen nib 2331 is inserted into the pen member body 2334 to be impossible to write, i.e., in a storage state, or to protrude out of the pen member body 2334 to enable writing. (2334) It is installed to be movable inside.
  • the pushing member 2350 includes a pushing member body 2351, a nib connecting portion 2352, an elastic portion 2353, an external force applying unit 2354, and a locking portion 2355. ) Protrudes out of the pen member body 2334 to push the pen nib 2331 to enable writing.
  • the pushing member body 2351 is inserted into the pen member body 2334 so as to be movable, and is connected to the nib 2233 through the nib connecting portion 2352.
  • the external force applying unit 2354 is connected to the pushing member body 2351, and an upper end thereof protrudes from the pen member body 2334, so that the user contacts the finger or the like to apply an external force.
  • the elastic part 2353 has elasticity, and provides elasticity to the external force applying part 2354, and connects the pushing member body 2351 to the external force applying part 2354.
  • the locking portion 2355 protrudes from the pushing member body 2351 to a predetermined height.
  • the pen member body 2334 has an external force applying unit moving slot 2334a which is formed to have a predetermined length so that the external force applying unit 2354 can be penetrated and moved, and as illustrated in FIG. 36, the pen core 2233 ) Is inserted into the pen member body 2334, the insertion fixing groove 2334c to which the locking portion 2355 is caught, and as shown in FIG. 35, the nib 2331 is connected to the pen member body 2334.
  • protruding fixing grooves 2334b to which the locking portion 2355 is caught are formed.
  • the insertion fixing groove 2334c may be formed at a rear side relative to the protruding fixing groove 2334b.
  • the elastic member 2336 is disposed inside the front end portion of the pen member body 2334, and the distal end thereof is caught by the nib guide portion 2333a so that the pen nib 2331 is pushed by the pushing member 2350.
  • the pen core 2331 is provided with an elastic force to be inserted into the pen member body 2334 to be stored.
  • a spring or the like may be provided as the elastic member 2336.
  • the pen nib 2331 can be inserted or protruded, so that the vaporization suction Usability of the pen member 2302 of the device 2300 may be improved.
  • FIG. 37 is a perspective view showing a separated state of the vaporization suction apparatus according to a twenty-fourth embodiment of the present invention.
  • the vaporization suction member 2401 and the pen member 2402 are formed to be detachable from each other.
  • An insertion groove 2411a is formed at the front end of the case 2411 of the first dividing member 2410 of the vaporization suction member 2401, and the pen accommodating member 230 of the pen member 2402 may be attached or detached.
  • a coupling protrusion 2435a that can be inserted into the insertion groove 2411a is formed.
  • the vaporization suction member 2401 and the pen member 2402 may be coupled to each other, and the coupling protrusion 2435a may be inserted into the insertion groove 2411a. ), The vaporization suction member 2401 and the pen member 2402 may be separated from each other.
  • the pen member 2402 can be easily separated from the vaporization suction member 2401, and the pen nib in the pen member 2402 can be easily replaced in such a detached state.
  • the coupling protrusion 2435a and the insertion groove 2411a are exemplary, and various structures capable of detachably coupling the vaporization suction member 2401 and the pen member 2402 may be provided. .
  • FIG. 38 is a cross-sectional view showing a combined state of the vaporization suction device according to a twenty-fifth embodiment of the present invention.
  • the vaporization suction device 2500 is connected to the vaporization suction member 2501 and the vaporization suction member 2501, and emits a laser beam that emits a laser. 2502).
  • the laser firing member 2502 includes a laser firing member body 2534, a vaporization suction member connecting portion 2535, a laser generating unit 2560, an operation unit 2561, and a transparent window 2537.
  • the laser generating unit 2560 is accommodated in the laser emitting member body 2534 to generate and fire a laser.
  • the operation unit 2561 may be pressed by a user to input a laser firing command. When the operation unit 2561 is pressed, a laser is emitted from the laser generation unit 2560 connected thereto.
  • the transparent window 2537 is formed to be formed of a transparent material on the front side of the laser firing body 2534, while the laser beam emitted from the laser generating unit 2560 transmits, the foreign matter is the laser generating unit 2560 Can be blocked from reaching.
  • the vaporization suction device 2500 is connected to the vaporization suction member 2501 in which the components for vaporizing the vaporization object into the inhalation target gas are accommodated, and the vaporization suction member 2501.
  • the laser firing member 2502 capable of firing a laser is included, the vaporization suction device 2500 may be used to inhale the vaporized object in a gaseous state, or may emit a laser to use as a pointer. As a result, the usability of the vaporization suction device 2500 may be improved.
  • 39 is a cross-sectional view showing a combined state of the vaporization suction device according to a twenty sixth embodiment of the present invention.
  • the vaporization suction device 2600 includes a vaporization suction member 2601 and a pen member 2602 connected to the vaporization suction member 2601 and capable of inputting information.
  • the pen member 2602 may include a stylus pen whose end portion 2661 is made of synthetic resin so that information can be input to a predetermined touchpad (not shown), the pen end portion 2611 is made of a permanent magnet or an electromagnet,
  • a capacitive touchpad In order to be used for a capacitive touchpad, light is emitted from the distal end portion 2631 by a method in which the distal end portion 2631 is connected in a line with a pen made of a conductor, a computer (not shown), or the like.
  • the corresponding information may be input or may be a light pen that may sensitively recognize the electron beam and read the electron beam emitted from the screen.
  • the touch pad, the capacitive touch pad, and the input screen, which are information input targets of the pen member 2602, may be defined as input means.
  • the vaporization suction device may be configured to include all of the vaporization suction member, the pen member and the laser firing member.
  • FIG. 40 is a perspective view showing the vaporization suction device according to the twenty-seventh embodiment of the present invention separated, and FIG. 41 is a perspective view showing the vaporization suction device according to the twenty-seventh embodiment of the present invention coupled.
  • the vaporization suction device 2700 includes a first partition member 2710, a second partition member 2720, a third partition member 2730, and a second partition member 2730.
  • the vaporizing object including the four dividing members 2740 and accommodated therein to be inhaled by the user may be vaporized with the inhalation target gas.
  • a light emitting diode 2713, a front member 2712, a battery 2715, and a control member 2714 are disposed in the case 2711 of the first dividing member 2710.
  • An inhalation detection sensor 2722 is disposed in the case 2721 of the second dividing member 2720.
  • the vaporization member 2732 is disposed in the case 2731 of the third dividing member 2730.
  • the vaporization object derivative 2742, the vaporization object receiving member 2744, and the lid 2745 are disposed in the case 2471 of the fourth partitioning member 2740.
  • the light emitting diode 2713 is electrically connected to the battery 2715 and may emit red light.
  • the light emitting diode 2713 is formed on the front member 2712 on the front of the case 2711.
  • the battery 2715 may be electrically connected to the light emitting diode 2713, the control member 2714, the vaporization member 2732, and the like to supply electrical energy, and a polymer lithium battery may be provided.
  • the control member 2714 is a part in which various circuits required for the operation of the vaporization suction device 2700 are formed.
  • the control member 2714 may control the operation of the light emitting diode 2713, the vaporization member 2732, or the like according to the detection value transmitted from the suction detection sensor 2722.
  • the front part of the second dividing member 2720 is fitted into the second dividing member insertion hole 2716, the first dividing member 2710 and the second dividing member 2720 may be connected to each other.
  • the suction detection sensor 2722 in the second dividing member 2720 is formed.
  • the battery 2715 and the control member 2714 in the first split member 2710 are electrically connected to each other.
  • an electrode contacting each other is formed on an outer surface of the suction detection sensor 2722 and an inner surface of the division member insertion hole 2716, and an electrode formed on an inner surface of the division member insertion hole 2716 is formed in the control member ( 2714 and the battery 2715 may be electrically connected to the battery 2715.
  • the suction detection sensor 2722 is formed on the front part of the case 2721 of the second dividing member 2720, and a negative pressure forming part 2724 is formed on the rear part of the case 2721 of the second dividing member 2720. do.
  • the suction sensor 2722 may be defined as an operation switch member for selecting whether the vaporization member 2732 is operated.
  • An outside air introduction hole 2724 is formed in the negative pressure forming part 2724.
  • a plurality of outside air introduction holes 2724 may be formed.
  • the outside air introduction hole 2724 may be defined as an outside air introduction unit.
  • the suction detection sensor 2722 detects whether the suction is performed when the user inhales the distal end of the fourth dividing member 2740 by mouth.
  • the suction detection sensor 2722 also performs a coupling protrusion function that is fitted to the rear portion of the case 2711 of the first dividing member 2710.
  • the air in the negative pressure forming unit 2724 sequentially enters the user through the second dividing member 2720, the third dividing member 2730, and the fourth dividing member 2740. Inflow to the negative pressure forming unit 2724 accordingly ) Is formed, and thus, outside air flows into the negative pressure forming unit 2724 through the outside air introduction hole 2724.
  • the outside air introduced into the negative pressure forming unit 2724 through the outside air introduction hole 2724 is inhaled by the user together with nicotine which is an inhalation target gas vaporized by the vaporizing member 2732.
  • the control member 2714 When the suction detection sensor 2722 detects a user's suction, the control member 2714 operates the vaporizing member 2732 to vaporize the liquid in the vaporizing object receiving member 2744.
  • the vaporization member 2732 formed on the front side of the third dividing member 2730 is fitted to the end of the negative pressure forming portion 2724.
  • the second dividing member 2720 and the third dividing member 2730 may be coupled to each other by the vaporization member 2732 being fitted to the negative pressure forming unit 2724.
  • the vaporizing member 2732 is electrically connected to the battery 2715 and the control member 2714.
  • an electrode is formed on an outer surface of the vaporizing member 2732 and an inner surface of the negative pressure forming unit 2724, and an electrode of the negative pressure forming unit 2724 is formed through the suction detection sensor 2722.
  • the battery 2715 is connected to the control member 2714.
  • the outside air flow hole 2731 is formed at the center of the vaporizing member 2732. Air in the negative pressure forming unit 2724 may be introduced into the third dividing member 2730 case 2731 through the outside air flow hole 2731. Air introduced as described above is discharged to the user's mouth through the suction hole (not shown) formed in the lid (2745).
  • the vaporization member 2732 is a portion capable of generating heat by receiving power from the battery 2715 according to the command of the control member 2714.
  • nicotine liquid delivered from the vaporizing object receiving member 2744 may be vaporized by the heat.
  • Nicotine vaporized by the vaporizing member 2732 is mixed with air introduced through the outside air flow hole (2733), and flows out of the user's mouth through the lid (2745).
  • the vaporization object accommodating member 2748 is a vaporization object such as nicotine liquid contained therein in a liquid state.
  • the vaporization object derivative 2742 has a suction body such as a cotton or a filter, and absorbs some of the vaporization objects in the vaporization object receiving member 2744 toward the vaporization member 2732 and the third division.
  • the third dividing member 2730 and the fourth dividing member 2740 are connected to each other by being fitted into a hole 2734 formed at an end of the case 2731 of the member 2730.
  • the vaporizing member 2732 is applied in the third partition member 2730, which is exemplary, and the vaporizing object receiving member 2744 may be applied, and the vaporizing member 2732 and the The vaporized object receiving member 2744 may be applied together.
  • the first split member 2710 including the battery (2715) and the control member (2714); A second dividing member 2720 that is detachable from the first dividing member 2710 and includes the operation switch member; And a third dividing member 2730 that is detachable from the second dividing member 2720, and includes at least one of the vaporizing member 2732 and the vaporizing object receiving member 2744.
  • the second dividing member 2720 can be replaced separately from the first dividing member 2710 and the third dividing member 2730, when the second dividing member 2720 needs to be replaced due to a failure of the actuating switch member, the actuating switch member Since only the second dividing member 2720 may be replaced, unnecessary replacement of the battery 2715, the control member 2714, or the like may not occur.
  • the suction detection sensor 2722 detects this, and transmits a corresponding detection value to the control member 2714.
  • the air inside the second dividing member 2720 case 2721 flows into the user's mouth, and the air in the negative pressure forming unit 2724 sequentially flows out, and the negative pressure A negative pressure is formed in the forming portion 2724.
  • a small amount of air continuously flows through the outside air introduction hole 2724, so that a negative pressure is continuously formed in the negative pressure forming unit 2724 during a user's suction process.
  • the suction detection sensor 2722 detects whether the user inhales.
  • control member 2714 receiving the detection value transmits a driving command to the light emitting diode 2713 and the vaporizing member 2732, and thus the light emitting diode 2713 and the vaporizing member 2732.
  • the battery 2715 receives power from the battery 2715 to emit light and generate heat, respectively.
  • the user obtains a feeling similar to the actual smoking.
  • FIG. 42 is a perspective view of the vaporization inhalation device according to the twenty-eighth embodiment of the present invention separated.
  • the suction switch sensor 2822 for detecting whether the user of the vaporization suction device 2800 is inhaled by the operation switch member and the user of the vaporization suction device 2800 may be directly selected. All actuating switches 2825 are applied.
  • the operation switch 2825 is electrically connected to the battery 2815 and the control member 2814, and the user may manually select the pressure switch 2800 to operate the vaporization suction device 2800.
  • the inhalation detection sensor 2822 since the inhalation detection sensor 2822 is provided, the user can operate the vaporization suction device 2800 without a separate operation to conveniently vaporize and inhale the vaporization object, while being inhaled at one time.
  • the operation switch 2825 can be operated to maintain a predetermined time to increase the concentration of the vaporized object to be inhaled, thereby increasing the satisfaction of inhalation.
  • the light emitting diode 3013 is electrically connected to the battery 3015 and emits red light.
  • the light emitting diode 3013 is formed on the front member 3012 on the front of the case 3011.
  • the vaporizing member 3032 formed on the front side of the second dividing member 3030 is fitted to the end of the negative pressure forming portion 3016. As the vaporization member 3032 is fitted to the negative pressure forming unit 3016, the first division member 3010 and the second division member 3030 may be coupled to each other.
  • the battery 3015 may be connected to any one of the plurality of partition members 3010, 130, and 140 that may be detached from each other while configuring the vaporization suction device 3000.
  • the operation switch member and the control member 3014 are disposed, and the division member 3030 of the other one of the plurality of division members 3010, 130, 140 that can be detached from each other while configuring the vaporization suction device 3000.
  • the vaporizing member 3032 is disposed in the.
  • control member 3014 that receives at least one of the suction detection of the suction detection sensor 3017 and the operation information of the operation switch 3020 is the light emitting diode 3013 and the vaporization member 3032.
  • the light emitting diode 3013 and the vaporizing member 3032 are supplied with power of the battery 3015 to emit light and generate heat, respectively.
  • FIG. 46 is a perspective view of the vaporization suction device according to the thirty-first embodiment of the present invention separated.
  • the vaporized object derivative 3314 and the vaporized object receiving member 3144 may be disposed in the fourth partitioning member 3140.
  • a battery 3315, a control member 3314, and a suction detection sensor 3317 are disposed in a case 3311 of the first partitioning member 3310, and the first partitioning member is disposed.
  • An operation switch 3320 is disposed on a surface of the case 3311 of the 3310, and the vaporization member 3332 is disposed in the case 3321 of the second division member 3320, which may be detached from the first division member 3310.
  • the vaporization object receiving member 3342 are disposed together.
  • the display 3420 is made of a touch method such as a resistive film type or an electrostatic type, and may also function as an operation switch. Then, the display 3420, together with the suction detection sensor 3417, constitutes an operation switch member for selecting whether to operate the vaporization member.
  • the display 3420 made of a touch method such as a resistive film type or an electrostatic type is applied as an operation switch constituting the operation switch member, it is not necessary to separately provide another operation switch.
  • FIG. 50 is a perspective view showing a liquid vaporization suction device according to a thirty-fifth embodiment of the present invention separated, and FIG. 51 is a perspective view showing a liquid vaporization suction device according to a thirty-fifth embodiment coupled thereto;
  • Fig. 52 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the 35th embodiment of the present invention.
  • the liquid vaporization suction apparatus 3500 includes a first member 3510 and a second member 3520, and is housed therein for inhalation by a user.
  • the liquid can be vaporized into the gas to be inhaled.
  • the configuration of the members 3510 and 120 is exemplary, and the number of configurations of the members may be changed.
  • a light emitting diode 3513 In the case 3511 of the first member 3510, a light emitting diode 3513, a battery 3515, a controller 3514, and a suction detection switch 3518 are sequentially disposed.
  • the vaporizing member 3525, the liquid receiving member 3530, and the lid 3524 are sequentially disposed in the case 3251 of the second member 3520.
  • the light emitting diode 3513 is electrically connected to the battery 3515 and may emit red light under the control of the controller 3514.
  • the light emitting diode 3513 is formed on the front member 3512 on the front surface of the case 3511.
  • the battery 3515 is shown to be applied, but this is exemplary, and in addition to the battery 3515, a power supply unit (not shown) that is directly connected to an external power source (not shown) and a wire may be provided. It may be.
  • the controller 3514 is a portion in which various circuits required for the operation of the liquid vaporization suction device 3500 are formed.
  • the controller 3514 may control operations of the light emitting diode 3513, the vaporization member 3525, and the like according to the detection value transmitted from the suction detection switch 3518.
  • a negative pressure forming part 3516 is formed at the rear end of the case 3511.
  • the negative pressure forming part 3516 is formed with an outside air introduction hole 3517.
  • the outside air introduction hole 3517 may be formed in plural.
  • the outside air introduction hole 3517 may be defined as an outside air introduction unit.
  • the suction detection switch 3518 is a part that detects the suction when the user inhales the distal end of the second member 3520 by mouth.
  • An outside air flow hole 3323 is formed at the center of the insert 3352. Air in the negative pressure forming unit 3516 may be introduced into the case 3151 of the second member 3520 through the outside air flow hole 3523. Air introduced as described above is discharged to the user's mouth through the suction member (not shown) formed in the lid 3524 through the vaporizing member (3525).
  • the vaporizing member 3525 is a portion capable of generating heat by receiving power from the battery 3515 according to the command of the controller 3514.
  • the nicotine liquid supplied from the liquid receiving member 3530 may be vaporized by the heat. Nicotine vaporized by the vaporizing member 3525 is mixed with the air introduced through the outside air flow hole 3523, and flows out of the user's mouth through the lid 3524.
  • the liquid accommodating member 3530 is a liquid containing nicotine liquid to be vaporized therein, and delivers the nicotine liquid contained therein to the vaporizing member 3525.
  • the liquid vaporization suction device 3500 causes the liquid inducing member 3540 to be fixed to the liquid receiving member 3530, while the liquid in the liquid receiving member 3530 is connected to the liquid inducing member ( And a liquid guide member fixing member 3550 which forms a flow space to be flowed toward 3540.
  • the liquid guide member fixing member 3550 has a liquid guide member fixing member body 3551 inserted into the open front side portion of the liquid receiving member 3530 and a side surface of the liquid guide member fixing member body 3551. Extends to the front end of the liquid receiving member 3530, and a liquid guide hole 3553 formed in the liquid guide member fixing member body 3551.
  • the liquid inducing hole 3553 is formed in the liquid receiving member 3530 in the liquid guide member fixing member body 3551 so that the liquid in the liquid receiving member 3530 can flow toward the vaporizing member 3525.
  • the liquid guide member fixing member body 3551 is formed to penetrate a portion facing the liquid, such that a space in which the liquid is accommodated in the liquid receiving member 3530 and the liquid guide member 3540 are installed. It is to communicate space.
  • the liquid induction hole 3553 may be formed in plural.
  • the liquid induction hole 3553 is formed in a through hole shape in the liquid induction member fixing member body 3551, or a portion in the form of a mesh is formed in the liquid induction member fixing member body 3551 in the portion of the mesh shape. It can be formed as a mesh.
  • the liquid guide hole 3553 becomes a flow space through which the liquid in the liquid receiving member 3530 can flow toward the liquid guide member 3540.
  • the liquid containing member (3530) is the liquid vaporization suction device 3500 is the liquid to be vaporized is accommodated therein;
  • a vaporizing member 3525 capable of vaporizing the liquid supplied from the liquid receiving member 3530;
  • a liquid inducing member 3540 for inducing the liquid in the liquid receiving member 3530 to be delivered to the vaporizing member 3525;
  • a liquid which forms a flow space such that the liquid in the liquid receiving member 3530 can flow toward the liquid guide member 3540, while the liquid guide member 3540 is fixed to the liquid receiving member 3530.
  • the suction detection switch 3518 detects whether the user is suctioned.
  • control unit 3514 receiving the sensed value transmits an operation command to the light emitting diode 3513 and the vaporizing member 3525, and thus the light emitting diode 3513 and the vaporizing member 3525 are
  • the battery 3515 receives power to emit light and generate heat, respectively.
  • the user obtains a feeling similar to the actual smoking.
  • Fig. 53 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the 36th embodiment of the present invention.
  • the liquid guide member fixing member 3650 includes a connecting portion 3652, a first end portion 3701, and a second end portion 3653.
  • connection part 3652 is inserted into the liquid receiving member 3630 and is formed to cross the inside of the liquid receiving member 3630.
  • the connection part 3652 may form a bar shape having a predetermined length.
  • the first end portion 3701 is formed at one end of the connecting portion 3652 and is in contact with one side of an inner wall of the liquid receiving member 3630.
  • the first end portion 3701 extends from the end of the connecting portion 3652 to a predetermined length in both sides thereof, so that one end of the connecting portion 3652 is stable on one side of the inner wall of the liquid receiving member 3630. Contact with.
  • the second end portion 3653 is formed at the other end of the connecting portion 3652 and is in contact with the other side of the inner wall of the liquid receiving member 3630.
  • the second end portion 3653 is formed in a fan shape with a predetermined area from both ends of the connecting portion 3652 to a predetermined area, and the inside of the fan form a hollow shape, and thus the liquid container member ( While forming a flow space through which the liquid in 3630 can flow, the other end of the connection part 362 is in contact with the other side of the inner wall of the liquid receiving member 3630.
  • the engaging projection 3611 On the inner wall of the front side portion of the liquid receiving member 3630, the engaging projection 3611, which the first end portion 3701 and the second end portion 3653 are engaged with, is formed, respectively.
  • the first end portion 3701 and the second end portion 3653 are engaged with the catching projection 3631 so that the liquid guide member fixing member 3650 is required in the liquid receiving member 3630 (depth). Can be fixed stably.
  • the liquid guide member fixing member 3650 is inserted through the open front end of the liquid receiving member 3630, and the first end portion 3651 and the second end portion 3653 are caught by the locking projection 3632.
  • the liquid guide member fixing member 3650 is fixed in the liquid receiving member 3630.
  • the connecting portions 3652 may allow the liquid in the liquid receiving member 3630 to flow toward the vaporizing member.
  • a liquid guide hole for communicating the space in which the liquid is accommodated and the space in which the liquid guide member is accommodated.
  • the liquid induction hole may be formed in the empty spaces on both sides of the connection bar 3652 in the form of a bar shape and cross the liquid receiving member 3630 while forming a bar shape, the second end portion (3653) can be formed inside the hollow of such a fan in the form of a hollow fan.
  • Fig. 54 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the thirty seventh embodiment of the present invention.
  • the liquid guide member fixing member 3750 includes a liquid guide member fixing member body 3701 and a liquid guide hole 3702.
  • the liquid guide member fixing member body 3701 divides the space in the liquid receiving member 3730 into two parts at the front side of the liquid receiving member 3730 and is integrally formed with the liquid receiving member 3730. .
  • the liquid induction hole 3702 is a portion of the liquid induction member fixing member body 371 that faces the liquid in the liquid receiving member 3730 so that the liquid in the liquid receiving member 3730 can flow toward the vaporization member.
  • the liquid inducing member fixing member body 3701 is formed to penetrate, and the liquid receiving member 3730 communicates the space in which the liquid is accommodated with the space in which the liquid inducing member 3740 is accommodated.
  • the liquid guide member fixing member body 3701 is molded integrally with the liquid receiving member 3730, the liquid guide member fixing member 3750 may be easily formed on the liquid receiving member 3730. .
  • Fig. 55 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the thirty eighth embodiment of the present invention.
  • the liquid receiving members 3830 are combined after the plurality of liquid receiving dividing members 3831 and 3832 are respectively formed to form a space for accommodating liquid therein.
  • the liquid container member 3830 can be manufactured more simply.
  • liquid receiving partition members 3831 and 3832 are shown to be joined after being molded into two pieces, which are exemplary, and may be combined after being divided into a larger number.
  • Fig. 56 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the 39th embodiment of the present invention.
  • the distal end of the liquid accommodating member 3930 is opened, and the open distal end of the liquid accommodating member 3930 can open and close the open distal end of the liquid accommodating member 3930.
  • Liquid receiving member stopper 3960 is engaged.
  • the liquid receiving member stopper 3960 is a liquid insertion member stopper body 3937 and a stopper insert which protrudes from the liquid receiving member stopper body 3937 and can be inserted into an open distal end of the liquid receiving member 3930. 3962.
  • Fig. 57 is a perspective view showing the separated state of the liquid guide member, the liquid guide member fixing member, and the liquid receiving member applied to the liquid vaporization suction apparatus according to the forty embodiment of the present invention.
  • a refill hole 4031 capable of refilling liquid is formed in the liquid container member 4030.
  • the refill hole 4031 is blocked by a separate refill hole stopper (not shown), and when the liquid in the liquid container 4040 is exhausted, the liquid is accommodated in the state where the refill hole stopper is removed. To be refilled into the member 4030.
  • FIG. 58 is a perspective view showing the liquid vaporization suction device according to the forty-first embodiment of the present invention separated
  • FIG. 59 is a perspective view showing the liquid vaporization suction device according to the forty-first embodiment of the present invention combined
  • 60 is a view showing the configuration of the wavelength generating member of the liquid vaporization suction apparatus according to the forty-first embodiment of the present invention.
  • the liquid vaporization suction apparatus 4100 includes a first member 4110 and a second member 4120 and is housed therein for a user to inhale.
  • the liquid can be vaporized into the gas to be inhaled.
  • the configuration of the members 4110 and 120 is exemplary, and the number of configurations of the members may be changed.
  • the light emitting diode 4113 In the case 4111 of the first member 4110, the light emitting diode 4113, the wavelength generating member 4130, the battery 4115, the controller 4114, and the suction detection switch 4150 are sequentially disposed.
  • the heat generating member 4125, the liquid accommodating member 4126, and the lid 4124 are sequentially disposed.
  • the case 4111 of the first member 4110 may be defined as a front case
  • the case 4121 of the second member 4120 may be defined as a rear case.
  • the light emitting diode 4113 is electrically connected to the battery 4115 and may emit red light under the control of the controller 4114.
  • the light emitting diode 4113 is formed on the front member 4112 on the front of the case 4111.
  • the wavelength generating member 4130 generates a wavelength that can cause a sense of stability to the user.
  • the wavelength generated by the wavelength generating member 4130 may be variously presented as a sound that may cause a sense of stability to the user.
  • the wavelength generation member 4130 may include a command receiver 4131, a driver 4132, and a wavelength generator 4133.
  • the command receiving unit 4131 is a portion that receives a driving command from the control unit 4114 or the like, the wavelength generating unit 4133 is a portion which actually generates a wavelength, and the driving unit 4132 is the command receiving unit 4131.
  • the wavelength generator 4133 drives the wavelength generator 4133 to generate the wavelength according to the received driving command.
  • the battery 4115 is a portion for applying power to the light emitting diode 4113, the wavelength generating member 4130, the controller 4114, the heat generating member 4125, and the like, and a polymer lithium battery may be provided. .
  • the controller 4114 is a portion in which various circuits required for the operation of the liquid vaporization suction device 4100 are formed.
  • the controller 4114 may control operations of the light emitting diode 4113, the heating member 4125, and the like according to the detection value transmitted from the suction detection switch 4150.
  • the controller 4114 may control the driving of the wavelength generating member 4130.
  • the controller 4114 may drive the wavelength generating member 4130 to generate a wavelength that gives a sense of stability to the user.
  • the wavelength generating member 4130 may be driven by the user pressing the switch member indicated by reference numeral 4131 without using the control unit 4114.
  • the switch member 4131 may be formed on a surface of the case 4111 of the first member 4110, and may be formed at a position that is easily pressed by a user.
  • a negative pressure forming portion 4116 is formed at the rear end of the case 4111.
  • An outside air introduction hole 4117 is formed in the negative pressure forming unit 4116.
  • a plurality of outside air introduction holes 4117 may be formed.
  • the outside air introduction hole 4117 may be defined as an outside air introduction unit.
  • the outside air introduced into the negative pressure forming unit 4116 through the outside air introduction hole 4117 is inhaled by the user together with nicotine, which is an inhalation target gas vaporized by the heat generating member 4125.
  • the suction detection switch 4150 detects the suction when the user inhales the distal end of the second member 4120 by mouth.
  • the control unit 4114 When the suction detection switch 4150 detects a user's suction, the control unit 4114 operates the heating member 4125 to vaporize the liquid in the liquid receiving member 4126.
  • An insert 4122 is formed at the front side of the second member 4120.
  • the insert 4122 is inserted at the end of the negative pressure forming portion 4116. Even if the insert 4122 is inserted into the negative pressure forming portion 4116, the outside air introduction hole 4117 is not covered by the insert 4122.
  • the insert 4122 is electrically connected to the battery 4115 and the controller 4114.
  • an electrode is formed on an outer surface of the insert 4122 and an inner surface of the negative pressure forming unit 4116, and an electrode formed on the outer surface of the insert 4122 is electrically connected to the heat generating member 4125.
  • the electrode formed on the inner surface of the negative pressure forming unit 4116 may be electrically connected to the controller 4114 and the battery 4115.
  • An outside air flow hole 4123 is formed at the center of the insert 4122. Air in the negative pressure forming unit 4116 may be introduced into the case 4121 of the second member 4120 through the outside air flow hole 4123. The air introduced as described above is discharged to the user's mouth through the suction member (not shown) formed in the lid 4124 via the heat generating member 4125.
  • the heat generating member 4125 is a portion capable of generating heat by receiving power from the battery 4115 according to the command of the controller 4114.
  • nicotine liquid delivered from the liquid receiving member 4126 may be vaporized by the heat.
  • Nicotine vaporized by the heat generating member 4125 is mixed with air introduced through the outside air flow hole 4123 and flows out of the user's mouth through the lid 4124.
  • the liquid accommodating member 4126 has a nicotine liquid contained therein as a liquid, and delivers the nicotine liquid contained therein to the heat generating member 4125.
  • the suction detection switch 4150 detects this and delivers the corresponding detection value to the controller 4114.
  • the suction detection switch 4150 detects whether the user inhales.
  • control unit 4114 received the detection value transmits a driving command to the light emitting diode 4113 and the heat generating member 4125, and thus the light emitting diode 4113 and the heat generating member 4125
  • the battery 4115 is supplied with power to emit light and generate heat, respectively.
  • control unit 4114 transmits a driving command to the wavelength generating member 4130, and accordingly, the wavelength generating member 4130 is driven to generate a wavelength that can give stability to the user.
  • the user obtains a feeling similar to the actual smoking.
  • the wavelength generation member 4130 is provided to generate a wavelength to give a sense of stability to the user, the user may use the liquid vaporization suction device 4100 to induce a sense of stability.
  • FIG. 61 is a cross-sectional view showing the inside of a front portion of a liquid vaporization suction device according to a forty-second embodiment of the present invention
  • FIG. 62 shows a configuration of an acoustic generating member of the liquid vaporization suction device according to a forty-second embodiment of the present invention.
  • the first member 4210 of the liquid vaporization suction apparatus includes a sound generating member 4260 capable of generating sound.
  • the sound generating member 4260 may be accommodated in the case 4211 of the first member 4210.
  • Reference numeral 4265 denotes a switch member formed on a surface of the case 4211, and various buttons for operating the sound generating member 4260 may be formed.
  • the sound generating member 4260 may include a command receiving unit 4421, a storage unit 4426, a driving unit 4403, and a sound generating unit 4264.
  • the command receiving unit 4421 is a portion for receiving a command transmitted from the switch member 4265
  • the sound generating unit 4264 is a portion for generating various sounds
  • the driving unit 4403 is the command receiving unit 4421.
  • the sound generating unit 4264 is driven according to a command received in FIG. 2, and the storage unit 4426 is a part storing information on the sound generated by the sound generating unit 4264.
  • a user using the liquid vaporization suction apparatus may hear a desired music or the like without having to separately provide a music player.
  • FIG. 63 is a cross-sectional view illustrating that a memory member is applied to a liquid vaporization suction device according to a 43rd embodiment of the present invention and the plug is removed
  • FIG. 64 is a memory in the liquid vaporization suction device according to a 43rd embodiment of the present invention; It is a cross-sectional view showing the member is applied and the stopper is coupled.
  • the first member 4310 of the liquid vaporization suction device includes a memory member 4370 capable of storing information, and a cover (not shown) on the first member 4310. 4375) can be removed.
  • the memory member 4370 may be configured of an information storage unit 4171 and a connection unit 4272.
  • the information storage unit 4171 is disposed in the case 4311 of the first member 4310, and is a portion for storing various kinds of information.
  • connection part 4372 is electrically connected to the information storage part 4171, and a terminal thereof protrudes out of the case 4311.
  • the connection part 4172 is formed by a universal serial bus (USB) method, and can easily exchange information with a computer.
  • USB universal serial bus
  • a locking jaw 4311a is formed at a portion of the case 4311 of the first member 4310 that is around the connection part 4372.
  • the cover 4375 is formed with an empty hole 4374 in the inside thereof, and is coupled to the case 4311 of the first member 4310 to cover the connection part 4372 so as not to be exposed to the outside.
  • the locking jaw 4311a may be firmly fitted to the inner surface of the cover 4375.
  • a user who uses the liquid vaporization suction apparatus may store and carry desired information without having to separately provide an information storage device using a USB method.
  • 65 is a cross-sectional view illustrating a state in which an image capturing member is applied to a liquid vaporization suction apparatus according to a forty-fourth embodiment of the present invention, and a stopper is separated.
  • the first member 4410 of the liquid vaporization suction apparatus includes an image capturing member 4480 capable of capturing an image, and the cover 4485 is attached to the first member 4410. It can be detached.
  • the image capturing member 4480 may include a main body 4481 and a photographing unit 4482.
  • the photographing unit 4482 is a portion in which a lens or the like is disposed to photograph an image, and the main body 4481 is a portion storing an image photographed by the photographing unit 4482.
  • the photographing unit 4482 may be configured to capture a picture as well as a video.
  • an operation unit for manipulating the image capturing member 4480 may be further formed.
  • a locking jaw 4411a is formed at a portion of the case 4411 of the first member 4410 that is close to the photographing unit 4482.
  • the cover 4485 has an empty hole 4486 formed therein, and is coupled to the case 4411 of the first member 4410 to cover the photographing unit 4482 so as not to be exposed to the outside.
  • the locking jaw 4411a may be firmly fitted to the inner surface of the cover 4485.
  • a user using the liquid vaporization suction apparatus may capture a desired image without having to separately provide an image capturing apparatus such as a camera.
  • FIG. 66 is a cross-sectional view illustrating a state in which a wavelength generating member and a memory member are applied to a liquid vaporization suction device according to a forty-fifth embodiment of the present invention, and the stopper is separated.
  • the wavelength generating member 4530 and the memory member 4570 may be disposed together in the first member 4510 of the liquid vaporization suction apparatus.
  • FIG. 67 is a cross-sectional view illustrating that a wavelength generating member and an image capturing member are applied to a liquid vaporization suction apparatus according to a forty-seventh embodiment of the present invention, and the stopper is separated.
  • the wavelength generating member 4630 and the image capturing member 4680 may be disposed together in the first member 4610 of the liquid vaporization suction apparatus.
  • FIG. 68 is a cross-sectional view showing a wavelength generating member and a sound generating member applied to a liquid vaporization suction apparatus according to a forty-seventh embodiment of the present invention.
  • the wavelength generating member 4730 and the sound generating member 4760 may be disposed together in the first member 4710 of the liquid vaporization suction apparatus.
  • FIGS. 66-68 various combinations may be presented.
  • an example may be further provided in which a sound generating member and a memory member are applied in the first member of the liquid vaporization suction device.
  • liquid vaporization suction device since the cloud can be prevented, the industrial applicability is high.

Abstract

L'invention concerne un appareil de vaporisation et d'inhalation de liquide. Cet appareil vaporise un liquide qui est déposé à l'intérieur de l'appareil pour former un gaz d'inhalation à inhaler par un utilisateur, et comprend un boîtier de stockage pour des élément liquides qui sont vaporisés sous forme de gaz d'inhalation, et une partie anti-roulement formée sur le boîtier pour empêcher ce dernier de rouler. Selon l'appareil de l'invention, la partie anti-roulement est formée sur la surface extérieure du boîtier, de sorte que ledit appareil ne puisse rouler sur une surface plate, ce qui permet de le protéger contre des dommages produits par une chute due à un roulement.
PCT/KR2010/003548 2009-06-02 2010-06-02 Appareil de vaporisation et d'inhalation de liquide WO2010140841A2 (fr)

Applications Claiming Priority (18)

Application Number Priority Date Filing Date Title
KR2020090006837U KR20100012095U (ko) 2009-06-02 2009-06-02 구름 방지부를 포함하는 액체 기화 흡입 장치
KR20-2009-0006837 2009-06-02
KR20-2009-0007917 2009-06-19
KR2020090007917U KR20100012901U (ko) 2009-06-19 2009-06-19 액체 기화 흡입 장치
KR2020090012662U KR20110003309U (ko) 2009-09-25 2009-09-25 기화 흡입 장치
KR20-2009-0012662 2009-09-25
KR2020090013681U KR20110004156U (ko) 2009-10-20 2009-10-20 기화 흡입 장치
KR2020090013682U KR20110004157U (ko) 2009-10-20 2009-10-20 기화 흡입 장치
KR20-2009-0013681 2009-10-20
KR20-2009-0013682 2009-10-20
KR2020090015127U KR20110005304U (ko) 2009-11-23 2009-11-23 기화 흡입 장치
KR20-2009-0015127 2009-11-23
KR20-2010-0004819 2010-05-07
KR2020100004819 2010-05-07
KR2020100005617 2010-05-29
KR20-2010-0005617 2010-05-29
KR2020100005686 2010-05-31
KR20-2010-0005686 2010-05-31

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