WO2012134117A2 - Dispositif d'aspiration, élément de détection de contamination appliqué au dispositif d'aspiration, capteur d'aspiration, élément de sélection, élément d'évaporation, boîtier externe pour le dispositif d'aspiration, unité pour apporter de l'électricité au dispositif d'aspiration, unité recourbe-cils connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration, et unité de connexion de téléphone portable connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration - Google Patents

Dispositif d'aspiration, élément de détection de contamination appliqué au dispositif d'aspiration, capteur d'aspiration, élément de sélection, élément d'évaporation, boîtier externe pour le dispositif d'aspiration, unité pour apporter de l'électricité au dispositif d'aspiration, unité recourbe-cils connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration, et unité de connexion de téléphone portable connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration Download PDF

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Publication number
WO2012134117A2
WO2012134117A2 PCT/KR2012/002138 KR2012002138W WO2012134117A2 WO 2012134117 A2 WO2012134117 A2 WO 2012134117A2 KR 2012002138 W KR2012002138 W KR 2012002138W WO 2012134117 A2 WO2012134117 A2 WO 2012134117A2
Authority
WO
WIPO (PCT)
Prior art keywords
suction device
suction
user
heat
hot wire
Prior art date
Application number
PCT/KR2012/002138
Other languages
English (en)
Korean (ko)
Other versions
WO2012134117A3 (fr
Inventor
조여찬
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 KR1020110027232A external-priority patent/KR101296158B1/ko
Priority claimed from KR1020110045974A external-priority patent/KR20120128060A/ko
Priority claimed from KR2020110004479U external-priority patent/KR200469318Y1/ko
Priority claimed from KR2020110004478U external-priority patent/KR20120008252U/ko
Priority claimed from KR2020110007339U external-priority patent/KR20130001202U/ko
Priority claimed from KR1020110093132A external-priority patent/KR20130029697A/ko
Priority claimed from KR2020110008988U external-priority patent/KR20130002328U/ko
Application filed by 주식회사 에바코 filed Critical 주식회사 에바코
Publication of WO2012134117A2 publication Critical patent/WO2012134117A2/fr
Publication of WO2012134117A3 publication Critical patent/WO2012134117A3/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
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/46Shape or structure of electric heating means
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/51Arrangement of sensors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/60Devices with integrated user interfaces
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/90Arrangements or methods specially adapted for charging batteries thereof
    • 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
    • A61M2205/00General characteristics of the apparatus
    • A61M2205/82Internal energy supply devices
    • A61M2205/8262Internal energy supply devices connectable to external power source, e.g. connecting to automobile battery through the cigarette lighter

Definitions

  • the present invention is an inhalation device and a contamination detection sensor member, a suction detection sensor, a selection member, a vaporization member, an outer cover for the suction device, an electric supply unit for the suction device, and eyelashes connected to the electric supply unit for the suction device applied to the suction device.
  • a mobile phone connection unit is connected to a Gode unit and an electrical supply unit for the suction device.
  • a suction device is a device used for suctioning a suction object contained therein into a human body.
  • inhalation objects in the form of solids and liquids may be inhaled in the form of solids and liquids themselves, or may be inhaled after being converted to gaseous form through gasification or the like.
  • the inhalation object in gaseous form can be inhaled in various ways, such as being contained in the inhalation device in a compressed form and then inhaled after expansion.
  • Such inhalation objects may be presented with nicotine liquid, liquids containing health supplements, and the like.
  • Representative inhalation devices include electronic cigarettes containing nicotine liquid therein.
  • 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.
  • an electronic cigarette is divided into a plurality of dividing members, in which the light emitting diode, the electric supply member and the circuit board are accommodated in the foremost dividing member, and then the smoke manufacturing apparatus is contained in the dividing member, and then the dividing.
  • a filter containing nicotine liquid is contained in the member.
  • the smoke production apparatus is composed of a liquid derivative in contact with the filter and seeping into the nicotine liquid from the filter, and a vaporizing member for heating and vaporizing the nicotine liquid permeating into the liquid derivative.
  • the inhalation device in such a contaminated state is operated so that the pollutant is inhaled by the user together with the inhalation object, which may be harmful to the user's health.
  • the pollutant is inhaled by the user together with the inhalation object, which may be harmful to the user's health.
  • a selection member through hole is formed in the dividing member provided with the circuit board, and a selection member such as an operation button that can be raised and lowered through the selection member through hole and pressed by the user is provided.
  • a liquid inhalation object such as nicotine liquid is directly supplied from a vaporizing member to a heating wire such as nichrome wire, and the inhalation object is supplied by vaporization on the surface of the heating wire.
  • a heating wire such as nichrome wire
  • the inhalation object is supplied by vaporization on the surface of the heating wire.
  • the structure for connecting the electrode has a disadvantage.
  • the heating wire that generates heat for vaporization is fixed in the vaporizing member by soldering. According to this method, the durability of the soldered part may be reduced, which may cause a failure of the suction device, and the assembly is difficult. , Lead can cause problems of human and environmental pollution, and the current flow is not constant.
  • the negative pressure sensor is detected by the negative pressure sensor, which is formed inside the suction device when the user inhales, or when the user presses a manual selection button to select the suction device. It is operated by using the suction pressure of the user, the accuracy is lowered, the failure of the negative pressure sensor is frequent, it may cause inconvenience due to the use of a button.
  • Inhalation devices including electronic cigarettes are inherent in various members for generating electromagnetic waves, and electromagnetic waves are emitted to the outside. Such electromagnetic waves have a detrimental effect on a user who uses an inhalation device, and require blocking.
  • the structure for blocking the electromagnetic waves generated when the suction device is operated as described above is not properly equipped, there is a problem that the user's human body is exposed to the electromagnetic waves as it is.
  • the suction device including the conventional electronic cigarette
  • the suction device can be damaged by external factors such as when the suction device falls and an external impact is applied, such a suction device cannot be protected from the outside, This may cause breakdown or damage of the suction device.
  • the eyelash curler curling the user's eyelashes (curling)
  • the conventional eyelash curler was inconvenient, such as directly connected to the power outlet, or to carry a battery separately.
  • An object of the present invention is to provide a suction device having a structure capable of detecting the degree of contamination inside and outside the suction device and a pollution sensor member applied to the suction device.
  • Another object of the present invention is to provide a suction device which can be replaced for each component such as a suction sensor, a vaporization member, and an suction detection sensor, a selection member, and a vaporization member applied to the suction device.
  • Another object of the present invention is applied to the inhalation device and the inhalation device which can prevent the generation of harmful components to the human body during vaporization of the inhalation object in the vaporization member, the inhalation object can be vaporized while maintaining the intrinsic taste of the inhalation object. It is to provide a vaporization member.
  • Still another object of the present invention is to provide a vaporization member and a suction device including the vaporization member to which the heating wire is coupled so as to be solid, simple, eco-friendly, and constant in current flow, without soldering or the like.
  • Yet another object of the present invention is to provide an inhalation device having a structure in which an accurate and simple selection can be made.
  • Still another object of the present invention is to provide an inhalation device shell that can block electromagnetic waves generated in the inhalation device.
  • the suction device is an electrical supply unit for the suction device, which can implement an additional function in addition to the original function of the suction of the suction object, the electrical supply unit for the suction device It is to provide a mobile phone connection unit connected to the eyelash Godde unit to be connected and the electrical supply unit for the suction device.
  • Inhalation device to allow a user to inhale the suction object contained therein
  • Suction device case And a pollution degree detecting member for detecting a degree of contamination inside the suction device case.
  • Inhalation device as to allow a user to inhale the suction object contained therein
  • Suction device case And a pollution degree detecting member for sensing a degree of contamination outside the suction device case.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • Suction device case And a pollution degree detecting member for detecting a degree of pollution of the air flowing into the suction device case.
  • Contamination degree detecting member comprises a suction device having a suction device case and configured to allow the user to suck the suction object contained therein, characterized in that for detecting the contamination level inside the suction device case. .
  • Contamination degree detecting member comprises a suction device having a suction device case and configured to allow a user to suck the suction object contained therein, characterized in that for detecting the contamination level outside the suction device case .
  • Contamination degree detecting member comprises a suction device having a suction device case and allows the user to suck the suction object contained therein, and detects the pollution of the air flowing into the suction device case Characterized in that.
  • Suction device case Suction device case; And a suction detection sensor disposed in the suction device case and detecting whether the user sucks.
  • the suction sensor may be installed to be detachable to the suction device case.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • Suction device case Suction device case; And a selection member disposed in the suction device case and configured to be selected by a user.
  • the selection member is installed to be detachable to the suction device case.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • Suction device case Suction device case; And a vaporization member disposed in the suction device case to vaporize the suction object.
  • the vaporizing member is detachably installed to the suction device case.
  • Inhalation detection sensor comprises a suction device for allowing a user to suck the suction object accommodated therein, detects the user's suction, it is installed to be detachable to the suction device case It is done.
  • the selection member constitutes a suction device that allows a user to suck a suction object contained therein, is selected by the user, and is installed to be detachably attached to the suction device case. It is done.
  • the vaporizing member according to another aspect of the present invention is configured to constitute a suction device that allows a user to suck the suction object accommodated therein, vaporize the suction object, and is installed to be detachable to the suction device case. .
  • the vaporizing member according to another aspect of the present invention is applied to a suction device that allows a user to suck the suction object received therein,
  • a heat generating member for generating heat; And a heat receiving member for receiving heat generated by the heat generating member.
  • the heat receiving member is a platform on which the heat generating member is mounted
  • the heat generating member heats the heat receiving member so that the suction object provided to the heat receiving member can be generated by the heat generating member and vaporized by the heat contained in the heat receiving member.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • a vaporization member including a heat generating member for generating heat and a heat receiving member for receiving heat generated by the heat generating member.
  • the heat receiving member is a platform on which the heat generating member is mounted
  • the heat generating member heats the heat receiving member so that the suction object provided to the heat receiving member can be generated by the heat generating member and vaporized by the heat contained in the heat receiving member.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • a vaporizing member including a heat generating member for generating heat and a heat receiving member for receiving heat generated by the heat generating member; And a liquid receiving member in which the suction object is accommodated.
  • the vaporizing member forms a shape surrounding the liquid receiving member such that heat generated in the heat generating member is supplied to the heat receiving member and then transferred to the suction object received inside the liquid receiving member through the liquid receiving member.
  • the suction object is characterized in that the vaporization.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • a heat generating member for generating heat for generating heat; And a heat accommodating member accommodating heat generated by the heat generating member and accommodating the suction object therein.
  • the heat generated by the heat generating member is supplied to the heat receiving member and then transferred to the suction object accommodated in the heat receiving member, characterized in that the suction object is vaporized.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • a heat generating member for generating heat for generating heat
  • a heat receiving member for receiving heat generated by the heat generating member for receiving heat generated by the heat generating member
  • a wireless charging member that is wirelessly charged through at least one of an electricity supply member constituting the suction device and an external power source, and supplies electricity to the heat generating member.
  • the vaporizing member according to another aspect of the present invention is applied to an inhalation device including an electric supply member for supplying electrical energy, and the user can inhale the suction object contained in the inhalation device so that the user It is possible to vaporize the inhalation object by receiving energy,
  • a heating wire capable of generating heat by electric energy transmitted from the electricity supply member;
  • a hot wire supporting member having a recessed hole having a recessed shape, a hot wire through hole communicating with the recessed hole, and supporting the hot wire in the vaporizing member;
  • a recessed hole coupling member coupled to the recessed hole while the end of the heating wire penetrates the hot wire through hole and is inserted into the recessed hole so that the hot wire is fixed to the hot wire support member.
  • the vaporizing member according to another aspect of the present invention is applied to an inhalation device including an electric supply member for supplying electrical energy, and the user can inhale the suction object contained in the inhalation device so that the user It is possible to vaporize the inhalation object by receiving energy,
  • a heating wire capable of generating heat by electric energy transmitted from the electricity supply member;
  • a hot wire support member having a recessed hole having a recessed shape and supporting the hot wire in the vaporizing member; And a recessed hole coupling member coupled to the recessed hole in a state where the end of the heating wire is fixed so that the heating wire is fixed to the heating wire supporting member.
  • the vaporizing member according to another aspect of the present invention is applied to an inhalation device including an electric supply member for supplying electrical energy, and the user can inhale the suction object contained in the inhalation device so that the user It is possible to vaporize the inhalation object by receiving energy,
  • a heating wire capable of generating heat by electric energy transmitted from the electricity supply member; And a hot wire inserting groove which can be fixed while the hot wire is inserted, and supports the hot wire in the vaporizing member.
  • the vaporizing member according to another aspect of the present invention is applied to an inhalation device including an electric supply member for supplying electrical energy, and the user can inhale the suction object contained in the inhalation device so that the user It is possible to vaporize the inhalation object by receiving energy,
  • a heating wire capable of generating heat by electric energy transmitted from the electricity supply member;
  • a hot wire support member having a hot wire insertion groove formed therein to be fixed while the hot wire is inserted, and supporting the hot wire in the vaporizing member;
  • a fastening member capable of tightening the hot wire insertion groove into which the hot wire is inserted so that the hot wire inserted into the hot wire insertion groove is not separated.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • the vaporizing member has a hot wire capable of generating heat by electric energy transmitted from the electric supply member, a recessed hole having a recessed shape is formed, and a hot wire through hole communicating with the recessed hole is formed, and within the vaporizing member A hot wire supporting member for supporting the hot wire and a recess in which the end of the hot wire is coupled to the recessed hole in the state where the end of the hot wire penetrates the hot wire through hole and is inserted into the recess hole so that the hot wire can be fixed to the hot wire supporting member. And a hole engagement member.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • the vaporizing member is a heating wire that can generate heat by the electrical energy transmitted from the electrical supply member, a recessed hole of the recessed form is formed, the heating wire support member for supporting the heating wire in the vaporizing member, and the heating wire A recess hole coupling member coupled to the recessed hole in a state where the end of the heating wire is fixed to be fixed to the heating wire support member.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • the vaporizing member is provided with a heating wire that can generate heat by the electric energy transmitted from the electricity supply member, and a heating wire insertion groove that can be fixed while the heating wire is inserted, thereby supporting the heating wire in the vaporizing member. Member.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • the vaporizing member is provided with a heating wire that can generate heat by the electric energy transmitted from the electricity supply member, and a heating wire insertion groove that can be fixed while the heating wire is inserted, thereby supporting the heating wire in the vaporizing member. And a fastening member capable of tightening the hot wire insertion groove into which the hot wire is inserted so that the hot wire inserted into the hot wire insertion groove is not separated.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • An electrostatic transfer unit constituting at least a portion of the suction device case; A control member disposed inside the suction device case and controlling operation of the suction device; An electrostatic detection sensor disposed on the control member and capable of sensing static electricity transmitted or induced to the electrostatic transfer unit; And a sensor connection member connecting the static electricity transmitting unit and the static electricity sensing sensor so that the static electricity transmitted or induced to the static electricity transmitting unit is transferred to the static electricity sensing sensor.
  • Inhalation apparatus is to allow a user to inhale the suction object contained therein,
  • Suction device case Proximity sensor for sensing the proximity of the user's body and the distal end of the suction device case that the user bites into the mouth; And a control member for driving each component of the suction device to allow the user to suck the suction object when the proximity sensor detects that the user's human body is approaching.
  • the outer cover for the suction device is characterized by surrounding the suction device to allow the user to suck the suction object received therein, to block the external emission of electromagnetic waves generated in the suction device.
  • the outer shell for the suction device is characterized by surrounding the suction device for allowing a user to suck the suction object received therein, thereby protecting the suction device from the outside.
  • an inhalation device shell includes: an outer member forming an outer surface while surrounding an inhalation device allowing a user to inhale a suction object received therein; And an inner member inserted into the outer member and interposed between the outer member and the suction device.
  • the electrical supply unit for the suction device is applied to a suction device that allows a user to suck the suction object accommodated therein to supply electricity to the components of the suction device,
  • the eyelash curler unit connected to the electrical supply unit for the suction device is applied to the suction device that allows the user to suck the suction object received therein to supply electricity to the components of the suction device. It is connected to the electrical supply unit for the suction device, which is characterized in that the eyelash is received from the electrical supply unit for the suction device to curl the user's eyelashes.
  • a mobile phone connection unit connected to an electrical supply unit for a suction device is applied to a suction device that allows a user to suck a suction object stored therein to supply electricity to the components of the suction device.
  • the electrical supply unit for the suction device is applied to a suction device that allows a user to suck the suction object accommodated therein to supply electricity to the components of the suction device,
  • An electrical supply unit case for the suction device A suction device battery disposed inside the electrical supply unit case for the suction device and configured to store electricity; And an eyelash curling member disposed in the electrical supply unit case for the suction device and electrically connected to the suction device battery, the eyelash curling member being able to curl the eyelashes of the user.
  • the pollution degree detection member As the pollution degree detection member is provided, the contamination level of the inside and outside of the suction device is detected, and the detected contamination level value is displayed and / or Alternatively, as a warning, the user may recognize that the inside and outside of the suction device is contaminated, and may stop using the suction device, and contaminants inside and outside the suction device may enter the user's body and harm the user's health. There is an effect that can be prevented.
  • each of the modular suction detection sensor, the selection member and the vaporization member is detachably coupled to the suction device case If there is a need for replacement, such as failure of the suction detection sensor, the selection member and the vaporization member, there is no need to replace the suction device case itself including the suction detection sensor, the selection member and the vaporization member, and the suction detection sensor and the selection member. And only each of the vaporization members can be easily replaced, so that unnecessary replacement of the suction detection sensor, the selection member and the vaporization member together with other components included in the suction device case can be prevented. The cost of replacing each of the parts can be reduced, and the resource savings in such replacement There is an effect that can be achieved.
  • the suction device and the vaporizing member applied to the suction device As the suction object provided as the heat receiving member is generated in the heat generating member and vaporized by the heat received in the heat receiving member, The heat receiving member is heated, the suction object is vaporized by the heated heat, and the suction object is not directly vaporized by the high heat of the heat generating member, and the suction object can not be burned by the high heat of the heat generating member, Since it can be stably evaporated without burning by the heat of the heat receiving member heated by the transferred heat, it is possible to prevent the generation of harmful components such as carbon monoxide and soot, which may be generated when the inhalation object is burned in the vaporizing member. However, the taste inherent to the inhalation object may be evaporated in a preserved state without alteration. Is effective.
  • the vaporizing member can be compact, the handling of the heat generating member and the heat receiving member can be facilitated, and the liquid induction member It can be configured to surround the modular heat generating member and the heat receiving member has the effect that even delivery and vaporization of the suction object can be made.
  • the vaporizing member can be supplied with electricity wirelessly, for supplying electricity to the vaporizing member There is an effect that the structure can be improved.
  • the hot wire can be electrically connected to the hot wire supporting member without soldering, etc., the hot wire is firmly and easily coupled to the hot wire supporting member It can be, harmless to the human body and the environment, there is an effect that the current flow to the heating wire can be constant.
  • the static electricity of the user's body is directly transmitted or induced in the form of the inhalation device case which forms all or part of the inhalation device case, through the sensor connection member inside the suction device case
  • the sensor connection member By being transmitted to and sensed by an electrostatic sensing sensor disposed in the body, a touch of a specific part of the user's body, such as a hand and a mouth, may be sensed, and accordingly, the control member may operate each component of the suction device to inhale a substance to be sucked. You can do it.
  • the suction device can be automatically operated when the user grabs or bites the suction device case, the suction device can be operated accurately and easily, and the structure of the means for detecting the user's selection is simplified, thereby reducing the failure rate. There is an effect that can be.
  • the intake device sheath is configured to allow electromagnetic shielding so that electromagnetic waves generated by the intake device inserted into the intake device sheath can be blocked so as not to affect the user.
  • the suction device shell is configured to meet the user's needs, such as personality, taste of the user has an effect that the appearance of the suction device can be beautifully formed.
  • an electrical supply unit for a suction device an eyelash goth unit connected to the electrical supply unit for the suction device, and a mobile phone connection unit connected to the electrical supply unit for the suction device.
  • the eyelash Gode unit and the mobile phone connection unit can be selectively connected to the supply unit, so that the suction device is based on its portability, in addition to the inherent function of suction of the suction object, It is effective to implement additional functions.
  • the eyelash Godde unit also can be operated by connecting to the electricity supply unit for the suction device is easy to carry, without the inconvenience, such as carrying a separate battery to connect, there is an effect that can be conveniently used.
  • FIG. 1 is a cross-sectional view schematically showing the configuration of a suction device according to a first embodiment of the present invention.
  • FIG. 2 is a cross-sectional view schematically showing the configuration of a suction device according to a second embodiment of the present invention.
  • FIG 3 is a cross-sectional view schematically showing the configuration of a suction device according to a third embodiment of the present invention.
  • FIG. 4 is a cross-sectional view schematically showing the configuration of a suction device according to a fourth embodiment of the present invention.
  • FIG. 5 is a cross-sectional view schematically showing the configuration of a suction device according to a fifth embodiment of the present invention.
  • FIG. 6 is a cross-sectional view schematically showing the configuration of a suction device according to a sixth embodiment of the present invention.
  • FIG. 7 is a perspective view showing a state in which the suction detection sensor according to the sixth embodiment of the present invention is separated from the case.
  • FIG 8 is a perspective view showing a state in which the suction sensor according to the sixth embodiment of the present invention is coupled to the case.
  • FIG. 9 is a perspective view showing a state in which the selection member according to the seventh embodiment of the present invention is separated from the case.
  • FIG. 10 is a perspective view showing a state in which the selection member according to the seventh embodiment of the present invention is coupled to the case.
  • FIG 11 is a cross-sectional view showing a state in which the insert is combined with the vaporization member according to the eighth embodiment of the present invention is coupled to the case.
  • FIG. 12 is a cross-sectional view showing a state in which the insert from which the vaporizing member is separated according to the eighth embodiment of the present invention is separated from the case.
  • FIG. 13 is a cross-sectional view showing a state in which the insert and the vaporizing member according to the eighth embodiment of the present invention are separated.
  • Fig. 14 is a sectional view schematically showing the configuration of a suction device according to a ninth embodiment of the present invention.
  • FIG. 15 is an enlarged view of a portion A shown in FIG. 14.
  • Fig. 16 is a perspective view showing a state before the heat receiving member and the heat generating member that constitute the vaporizing member applied to the suction device according to the ninth embodiment of the present invention are combined;
  • FIG. 17 is a perspective view showing a state in which a heat receiving member constituting a vaporizing member applied to a suction device according to a ninth embodiment of the present invention is combined with a heat generating member, and a liquid inducing member is covered.
  • FIG. 18 is a perspective view showing a state before the heat receiving member and the heat generating member that constitute the vaporizing member applied to the suction device according to the tenth embodiment of the present invention are combined;
  • FIG. 19 is a perspective view showing a state in which a heat receiving member and a heat generating member are combined to constitute a vaporizing member applied to a suction device according to an eleventh embodiment of the present invention.
  • FIG. 20 is a sectional view schematically showing a configuration of a suction device according to a twelfth embodiment of the present invention.
  • Fig. 21 is a sectional view schematically showing the construction of a suction device according to a thirteenth embodiment of the present invention.
  • Fig. 22 is a cross-sectional view showing a state in which a vaporizing member and a liquid receiving member are applied to an inhalation device according to a fourteenth embodiment of the present invention.
  • FIG. 23 is a cross-sectional view showing a state in which a vaporization member and a liquid receiving member are applied to an inhalation device according to a fifteenth embodiment of the present invention.
  • FIG. 24 is a cross-sectional view showing a state of the vaporizing member applied to the suction device according to a sixteenth embodiment of the present invention.
  • FIG. 25 is a cross-sectional view showing a vaporization member and a liquid jet member applied to a suction device according to a seventeenth embodiment of the present invention.
  • FIG. 26 is a cross-sectional view showing a state in which a vaporization member and a liquid inducing member applied to an inhalation device according to an eighteenth embodiment of the present invention are combined; FIG.
  • FIG. 27 is a cross-sectional view showing a state in which a vaporization member and a liquid inducing member applied to an inhalation device according to a nineteenth embodiment of the present invention are combined;
  • FIG. 28 is a perspective view showing a state in which a heat receiving member and a heat generating member that constitute a vaporizing member applied to a suction device according to a twentieth embodiment of the present invention are combined;
  • FIG. 29 is a perspective view showing a state in which a heat receiving member and a heat generating member are combined to constitute a vaporizing member applied to a suction device according to a twenty-first embodiment of the present invention
  • FIG. 30 is a sectional view schematically showing a configuration of a suction device according to a twenty-second embodiment of the present invention.
  • Fig. 31 is a sectional view showing a vaporizing member according to a twenty-second embodiment of the present invention.
  • FIG. 32 is a cross-sectional view showing air flow in the vaporizing member according to the twenty-second embodiment of the present invention.
  • 33 is a cross-sectional view showing that the hot wire coupling member is separated from the hot wire support member constituting the vaporization member according to the twenty-second embodiment of the present invention.
  • FIG. 34 is a cross-sectional view showing a state in which a hot wire coupling member is coupled to a hot wire support member constituting a vaporization member according to a twenty-second embodiment of the present invention.
  • 35 is a cross-sectional view showing that the hot wire coupling member is separated from the hot wire support member constituting the vaporization member according to the twenty-third embodiment of the present invention.
  • FIG. 36 is a perspective view showing a state before a hot wire is fitted into a hot wire support member constituting a vaporization member according to a twenty-fourth embodiment of the present invention.
  • FIG. 37 is a perspective view showing a state in which a hot wire is fitted to a hot wire support member constituting a vaporization member according to a twenty-fourth embodiment of the present invention.
  • FIG 38 is a perspective view showing a state before the hot wire and the hot wire cover are coupled to the hot wire support member constituting the vaporization member according to the 25th embodiment of the present invention.
  • 39 is a perspective view of a hot wire and a hot wire cover coupled to a hot wire support member constituting a vaporization member according to a twenty-fifth embodiment of the present invention.
  • FIG. 40 is a cross-sectional view showing a hot wire insertion groove of a hot wire support member constituting a vaporization member according to a twenty sixth embodiment of the present invention.
  • FIG. 41 is a cross-sectional view showing a state in which a hot wire is inserted into and retracted from a hot wire insertion groove of a hot wire support member constituting a vaporization member according to a twenty sixth embodiment of the present invention.
  • Fig. 42 is a sectional view schematically showing the construction of a suction device according to a twenty-seventh embodiment of the present invention.
  • FIG. 43 is an enlarged view of a portion B shown in FIG. 42;
  • FIG. 44 is a sectional view schematically showing the construction of a suction device according to a twenty-eighth embodiment of the present invention.
  • 45 is a sectional view showing a sensor connection member applied to a suction device according to a twenty-ninth embodiment of the present invention.
  • FIG. 46 is a schematic cross-sectional view of a configuration of a suction device according to a thirtieth embodiment of the present invention.
  • Fig. 47 is a sectional view schematically showing the construction of a suction device according to a thirty-first embodiment of the present invention.
  • FIG. 48 is a perspective view illustrating a state in which the outer skin for the suction device according to the thirty-second embodiment of the present invention is separated from the suction device;
  • 49 is a cross sectional view of a sheath for a suction device according to a thirty-second embodiment of the invention.
  • FIG. 50 is an enlarged view of a portion A shown in FIG. 49;
  • FIG 51 is a cross-sectional view showing a state in which the suction device is coupled to the outer skin for the suction device according to a thirty-second embodiment of the present invention.
  • FIG. 52 is an enlarged view of a portion C shown in FIG. 51;
  • FIG. 53 is a cross-sectional view showing the inner member protruding to the outside in the outer cover for the suction device according to a thirty-second embodiment of the present invention.
  • FIG. 54 is an enlarged cross-sectional view of a portion of a sheath for a suction device according to a thirty-third embodiment of the present invention.
  • FIG. 55 is a perspective view showing the appearance of the outer shell for the suction device according to a thirty-fourth embodiment of the present invention.
  • FIG 56 is a perspective view showing a state in which the inhalation device skin and the suction device according to the 35th embodiment of the present invention are connected.
  • Fig. 57 is a perspective view showing the outer shell for the suction device according to the 36th embodiment of the present invention.
  • FIG. 58 is a perspective view showing a state in which the suction device to which the electric supply unit for the suction device according to the thirty-seventh embodiment of the present invention is applied;
  • FIG. 59 is a perspective view showing a state in which the suction device to which the electric supply unit for the suction device according to the thirty-seventh embodiment of the present invention is applied;
  • 60 is a perspective view showing a state in which the eyelash goth unit and the suction device electric supply unit connected to the suction device electric supply unit according to the thirty-seventh embodiment of the present invention are separated;
  • 61 is a perspective view showing a state in which the eyelash goth unit and the suction device electric supply unit connected to the suction device electric supply unit according to the thirty-seventh embodiment of the present invention are combined;
  • FIG. 62 is a cross sectional view of an inner portion of an eyelash goth unit connected to an electrical supply unit for a suction device according to a thirty-seventh embodiment of the present invention.
  • FIG. 63 is a perspective view showing a state in which the cellular phone connection unit and the suction device electric supply unit connected to the suction device electric supply unit according to the thirty-seventh embodiment of the present invention are separated;
  • FIG. 64 is a sectional view of an electricity supply unit for a suction device according to a thirty eighth embodiment of the present invention.
  • suction device according to the embodiments of the present invention and the contamination detection sensor member, suction detection sensor, selection member, vaporization member applied to the suction device, the shell for the suction device, the electrical supply unit for the suction device, The eyelash Gode unit connected to the electricity supply unit for the suction device and the cellular phone connection unit connected to the electricity supply unit for the suction device will be described.
  • an electronic cigarette type device in which nicotine liquid is received as an inhalation device is presented, but this is exemplary. That is, as the receiving liquid contained in the inhalation device described below, an injection liquid, a liquid containing a health supplement component, etc. may be presented instead of nicotine liquid. Such a receiving liquid may be inhaled by the user by vaporizing in the inhalation device. In this case, components such as the light emitting diodes below may be omitted as necessary.
  • inhalation objects contained in the inhalation device described below are presented in liquid form, which is exemplary, and such inhalation objects may be presented in various forms such as solid form, gas form, etc. in addition to the liquid form.
  • FIG. 1 is a cross-sectional view schematically showing the configuration of a suction device according to a first embodiment of the present invention.
  • the suction device 100 includes a suction device case and a pollution degree detecting member 170, and is a device that allows a user to suck a suction object contained therein.
  • the suction device 100 includes a first dividing member 110 and a second dividing member 120, and may vaporize liquid contained therein to be sucked by a user into a gas to be sucked.
  • the configuration of the members 110 and 120 is exemplary, and the number of configurations of the partition members may be changed.
  • the light emitting diode 113, the electricity supply member 115, the control member 114, and the suction detection switch 118 are sequentially disposed in the case 111 of the first division member 110.
  • the vaporization member 150, the suction object receiving member 122, and the lid 125 are sequentially disposed in the case 121 of the second division member 120.
  • case 111 of the first dividing member 110 and the case 121 of the second dividing member 120 may be defined as a suction device case.
  • the light emitting diode 113 is electrically connected to the electricity supply member 115, so that the control member is operated when the suction device 100 is operated, for example, when the user inhales the suction device 100. According to the control of 114, the portion can emit red light.
  • the light emitting diode 113 is formed on the front member 112 on the front surface of the case 111.
  • the electricity supply member 115 may be configured to provide electricity to the light emitting diode 113, the control member 114, the vaporization member 150, and the like, which are the components of the suction apparatus 100, so that the suction object is sucked by the user.
  • a polymer lithium battery or the like can be presented.
  • the control member 114 is a part in which various circuits required for the operation of the suction device 100 are formed.
  • the control member 114 is selected by the selection member 116a, or according to the detection value transmitted from the suction detection switch 118, the light emitting diode 113, the vaporization member 150 and the like of the suction device. Operational commands can be issued to control the operation of each component.
  • the suction detection switch 118 senses the air flow in the suction detection case, so that when the user inhales the end portion of the second partition member 120 by mouth, the suction device 100 by such a user This is the part to detect the inhalation through.
  • the control member 114 When the suction detection switch 118 detects a user's suction, the control member 114 operates the vaporization member 150 to vaporize the liquid in the suction object receiving member 122.
  • the selection member 116a may be selected by the user so that the vaporization member 150 may be operated to perform the operation of allowing the suction device 100 to suck the suction object.
  • Various information such as various command values and setting values may be input through the selection member 116a.
  • the selection member 116a and the suction detection switch 118 may be applied together, or only the selection member 116a may be applied without the suction detection switch 118.
  • the pollution degree detecting member 170 detects the degree of contamination inside the suction device case. In this embodiment, the pollution degree detecting member 170 detects the degree of contamination of the vaporization member 150.
  • the pollutant detected by the pollution degree detecting member 170 may be configured to detect various pollutants such as microorganisms such as heavy metals and other harmful substances, viruses, molds, and the like.
  • the control member 114 stops the operation of the suction device 100 in such a manner as to stop the operation of the vaporization member 150. You can stop it.
  • the contamination level detecting member 170 detects the pollution level of the vaporization member 150, and in order to detect the pollution level inside the suction device 100, the internal contamination level of another component or the suction device case itself is measured. Of course, it can be detected.
  • Reference numeral 160 denotes a display member, wherein the display member 160 displays an indication of the pollution value detected by the pollution detection member 170, and generates a warning sound, lights a warning light, and vibrates when the detected pollution value is greater than or equal to a preset reference value. At least one of the can.
  • the pollution degree detecting member 170 may also display at least one of the detected pollution degree value and at least one of generating a warning sound, lighting a warning light, and generating vibration.
  • Reference numeral 116b denotes an outside air introduction hole, wherein air in the negative pressure forming portion 116 constituting the case 111 end of the first division member 110 passes through the second air separation hole 116b. It may flow into the case 121 of the 120.
  • the air introduced as described above is mixed with the suction object vaporized while passing through the vaporizing member 150, and the lid through the air flow path 124 formed inside the case 121 of the second dividing member 120. It flows out into the user's mouth through the suction hole formed in the 125.
  • the suction detection sensor 118 may detect the negative pressure formed in the negative pressure forming unit 116.
  • the outside air introduced into the negative pressure forming unit 116 through the outside air introduction hole 116b is inhaled by the user together with nicotine which is an inhalation target gas vaporized by the vaporizing member 150.
  • the vaporization member 150 may vaporize a vaporization object such as nicotine solution supplied from the suction object receiving member 122 by receiving power from the electricity supply member 115 according to the command of the control member 114. will be.
  • the vaporization member 150 may include a vaporization member case 151, an outlet hole 152 through which the vaporized suction object is discharged, a derivative 153 for inducing the suction object in the suction object receiving member 122, and And a heating wire 154 such as a nichrome wire that vaporizes the suction object induced by the derivative 153 while generating heat by receiving electrical energy from the electricity supply member 115.
  • the vaporizing member 150 may be a method of vaporizing the vaporized object using ultrasonic waves, high frequency, or the like.
  • nicotine liquid delivered from the suction object receiving member 122 may be vaporized. Nicotine vaporized by the vaporizing member 150 is mixed with the air introduced through the outside air introduction hole 116b and flows out of the user's mouth through the lid 125.
  • the suction object receiving member 122 has a nicotine liquid contained therein as a liquid, etc., and transfers the nicotine liquid contained therein to the vaporizing member 150.
  • Reference numeral 130 is an additional function implementing member, and may implement at least one of an audio input / output function, an image input / output function, a display function, a communication function, a storage function, and an internet connection function.
  • the additional function implementing member 130 is connected to an external device (not shown) by wired or wireless, and a sound input / output function for inputting / outputting sound such as music, a video input / output function for inputting / outputting a video, a photo, etc.
  • Display function to display various information through part exposed to the outside and communication function to exchange information with external devices through various wired / wireless communication networks such as local area network such as Bluetooth, Wi-Fi communication network, mobile phone radio network, etc.
  • a storage function for storing various information and an internet connection function for accessing the Internet web can be implemented.
  • Reference numeral 140 is a charging member, which can be generated by itself or can be charged by a wireless charging method.
  • the charging member 140 When the charging member 140 generates power by itself, it may take various methods such as a light charging method that may be generated by external light such as artificial light such as sunlight or a lamp, and a vibration generation method that may be generated by vibration. Can be.
  • the charging member 140 When the charging member 140 is charged by a wireless charging method, it may take various methods such as a method using an electromagnetic induction phenomenon. Electrical energy generated by the generation of the charging member 140 may be used to charge the electricity supply member 115 or may be supplied to the outside of the vaporization suction device 100.
  • the suction detection switch 118 detects this and transmits the detected value to the control member 114. Or when the selection member 116a is selected in such a way as to sense that the user is biting the suction device 100 by mouth, information about the selection is communicated to the control member 114.
  • the suction detection switch 118 detects whether the user is suctioned.
  • control member 114 received the detection value transmits an operation command to the light emitting diode 113 and the vaporizing member 150, accordingly the light emitting diode 113 and the vaporizing member 150 Receives power from the electricity supply member 115 to emit light and heat, respectively.
  • the user obtains a feeling similar to the actual smoking.
  • the contamination detection member 170 As described above, as the contamination detection member 170 is provided, the pollution degree of the inside of the suction device 100, in particular, the vaporization member 150 is sensed, and the detected contamination value is displayed and / or alerted.
  • the user may recognize a case in which the inside of the suction device 100 is contaminated and stop using the suction device 100, whereby the contaminants inside the suction device 100 may cause damage to the human body of the user. It may be prevented that the phenomenon is introduced to harm the health of the user.
  • suction device according to other embodiments of the present invention and the contamination detection sensor member, suction detection sensor, selection member, vaporization member applied to the suction device, the shell for the suction device, the electrical supply unit for the suction device
  • a description will be given of an eyelash Gode unit connected to the electricity supply unit for the suction device, and a cellular phone connection unit connected to the electricity supply unit for the suction device.
  • the description overlapping with the contents already described in the above-described first embodiment of the present invention will be replaced with the description thereof, and will be omitted herein.
  • FIG. 2 is a cross-sectional view schematically showing the configuration of a suction device according to a second embodiment of the present invention.
  • the pollution degree detecting member 270 detects the contamination level of the suction object receiving member 222 in the suction device case.
  • the contamination level value of the suction object receiving member 222 sensed by the pollution degree detecting member 270 may be displayed on the display member 260, or compared with a reference value preset by the control member 214. 200) may be a shutdown condition.
  • the contamination detection member 270 meets a contaminant such as litmus and is visually discolored, a transparent window (not shown) is formed in the suction device case, and the contamination detection member 270 is provided through the transparent window.
  • the degree of discoloration of can be easily observed from the outside.
  • FIG 3 is a cross-sectional view schematically showing the configuration of a suction device according to a third embodiment of the present invention.
  • the pollution degree detecting member 370 detects the pollution level of the electricity supply member 315 in the suction device case.
  • the contamination value of the electricity supply member 315 sensed by the contamination detection member 370 may be displayed on the display member 360, or compared with a reference value preset by the control member 314 to inhale the apparatus 300. May be a stop condition.
  • FIG. 4 is a cross-sectional view schematically showing the configuration of a suction device according to a fourth embodiment of the present invention.
  • the pollution degree detecting member 470 detects a pollution degree of air outside the suction device case, for example, outside the suction device case.
  • the contamination detecting member 470 may be disposed outside the suction device case.
  • the external pollution degree detected by the pollution degree detecting member 470 may be displayed on the display member 460, and the operation stop condition of the suction device 400 is compared with a reference value preset by the control member 414. May be
  • FIG. 5 is a cross-sectional view schematically showing the configuration of a suction device according to a fifth embodiment of the present invention.
  • the pollution degree detecting member 570 detects a pollution degree of air introduced into the suction device case.
  • the pollution detection member 570 may be disposed under the outside air introduction hole 516b.
  • the contamination value in the introduced air detected by the pollution detection member 570 may be displayed on the display member 560, and the operation stop condition of the suction device 500 is compared with a reference value preset by the control member 514. It could be
  • Reference numeral 575 denotes an air purifying member such as a filter for purifying the air flowing into the suction device case.
  • the pollution degree detecting member 570 As the pollution degree detecting member 570 is applied, when the introduced outdoor air is contaminated, such contaminated outdoor air may not be inhaled by the user.
  • FIG. 6 is a cross-sectional view schematically showing the configuration of a suction device according to a sixth embodiment of the present invention
  • Figure 7 is a perspective view showing a state in which the suction detection sensor according to the sixth embodiment of the present invention is separated from the case
  • FIG. 8 is a perspective view showing a state in which the suction sensor according to the sixth embodiment of the present invention is coupled to the case.
  • the suction device 600 includes a suction device case and a selection member 650, and is a device that allows a user to suck a suction object contained therein. .
  • the suction device 600 includes a first dividing member 610 and a second dividing member 620 and vaporizes the liquid contained therein to be inhaled by the user to be sucked by the user.
  • the configuration of the members 610 and 620 is exemplary, and the number of configurations of the partition members may be changed.
  • the light emitting diode 613, the electricity supply member 615, the control member 614, and the suction detection sensor 670 are sequentially disposed in the case 611 of the first partitioning member 610.
  • the vaporization member 623, the liquid receiving member 622, and the lid 625 are sequentially disposed in the case 621 of the second dividing member 620.
  • the case 611 of the first dividing member 610 and the case 621 of the second dividing member 620 may be defined as a suction device case.
  • the suction device case may be divided into a plurality of forms or may be formed as a single single case.
  • the light emitting diode 613 is electrically connected to the electricity supply member 615, so that the control member is operated when the suction device 600 is operated, for example, when a user bites the suction device 600. According to the control of 614, the portion can emit red light.
  • the light emitting diode 613 is formed on the front member 612 on the front of the case 611.
  • the electricity supply member 615 is configured to supply the light emitting diode 613, the control member 614, the vaporization member 623, and the like, which are the components of the suction device 600, to allow the suction object to be sucked by the user.
  • a polymer lithium battery or the like can be presented.
  • the control member 614 is a part in which various circuits required for the operation of the suction device 600 are formed.
  • the control member 614 is selected by the selection member 650 or according to the detection value transmitted from the suction detection sensor 670, the light emitting diode 613, the vaporization member 623, and the like of the suction device. Operational commands can be issued to control the operation of each component.
  • the suction detection sensor 670 detects the air flow in the suction detection case, and when the user inhales the end portion of the second dividing member 620 by mouth, the suction device 600 by the user. This is the part to detect the inhalation through.
  • the suction sensor 670 may detect the suction of the user by any one of the following various methods.
  • the schemes presented below are exemplary and various other schemes may be applied.
  • a movement contact that is moved by the pressure formed inside the suction device case by the suction of the user, and a fixed contact fixed to the inside of the suction device case, the mobile contact can be detected whether the user inhales There is a way.
  • the negative pressure formed in the negative pressure forming unit 616 may be presented as the pressure formed in the suction device case, and in addition to such negative pressure, various types of pressure such as positive pressure may be used.
  • the control member 614 When the suction detection sensor 670 detects a user's suction, the control member 614 operates the vaporizing member 623 to vaporize the liquid in the liquid receiving member 622.
  • the suction detection sensor 670 is installed to be detachable to the suction device case.
  • the suction detection sensor 670 may be modularized, replaceable and handled by itself, and the case 611 of the first dividing member 610 constituting the suction device case. ) Is provided with a sensor installation hole 617 in which the suction detection sensor 670 is installed.
  • the suction detection sensor 670 modularized into the sensor installation hole 617 is inserted and coupled, and the suction detection sensor 670 is coupled with the suction detection sensor 670. It becomes the state which can be energized with the other component of the said suction device.
  • control member 614 is installed in front of the sensor mounting hole 617 in the case 611 of the first partitioning member 610, and the sensor mounting hole of the control member 614 is installed.
  • the connection electrode 614a is formed at the side of 617.
  • a connection electrode is formed at a position corresponding to the connection electrode 614a in the suction detection sensor 670 so that the suction detection sensor 670 is inserted into the sensor installation hole 617.
  • the connecting electrodes come in contact with each other to be in a state where electricity can be supplied.
  • the guide groove 618 recessed in the insertion direction of the suction detection sensor 670 is formed on the inner circumferential surface of the case 611, that is, around the sensor installation hole 617 so that the connection electrodes can be connected accurately.
  • the guide protrusion 672 is formed on the outer surface of the body 671 of the suction detection sensor 670 to be fitted to the guide groove 618.
  • the guide protrusion 672 is aligned with the guide groove 618 to move along the guide groove 618, thereby connecting the connection electrode. It can be precisely matched to each other.
  • the suction detection sensor 670 is modularized by forming components such as various circuits for suction detection in the body 671.
  • the suction detection sensor 670 when the modular suction detection sensor 670 is detachably coupled to the sensor installation hole 617, and there is a need for replacement of the suction detection sensor 670, the suction detection sensor 670. There is no need to replace the first partition member 610 itself, which includes a), and only the suction detection sensor 670 can be replaced easily, so that the first partition member 610 together with the suction detection sensor 670. Since unnecessary replacement of other components, such as the electrical supply member 615 included together), can be prevented, the replacement cost of the suction detection sensor 670 can be reduced, and resource saving in such replacement can be achieved. have.
  • Reference numeral 640 denotes a display member, and may display various information about the suction device 600, for example, whether the suction device 600 is turned on or off or not.
  • Reference numeral 616b denotes an outside air introduction hole, wherein air in the negative pressure forming portion 616 constituting the end portion of the case 611 of the first dividing member 610 passes through the outside air introduction hole 616b. It may flow into the case 621 of the 620.
  • the air introduced as described above is mixed with the suction object vaporized while passing through the vaporization member 623, and the lid through the air flow path 624 formed inside the case 621 of the second dividing member 620. It flows out into the mouth of the user through the suction hole formed in 625.
  • the suction detection sensor 670 may detect the negative pressure formed in the negative pressure forming unit 616.
  • the outside air introduced into the negative pressure forming unit 616 through the outside air introduction hole 616b is sucked by the user together with nicotine, which is an inhalation target gas vaporized by the vaporizing member 623.
  • the vaporization member 623 may vaporize a vaporization object such as nicotine liquid supplied from the liquid receiving member 622 by receiving power from the electricity supply member 615 according to the command of the control member 614. .
  • the vaporizing member 623 may be a method of vaporizing the vaporized object in a manner of generating heat such as nichrome wire, or a method of vaporizing the vaporized object using ultrasonic waves, high frequency, or the like.
  • a variable resistor may be applied to the vaporization member 623.
  • nicotine liquid delivered from the liquid receiving member 622 may be vaporized. Nicotine vaporized by the vaporizing member 623 is mixed with the air introduced through the outside air introduction hole 616b, and flows out of the user's mouth through the lid 625.
  • the liquid receiving member 622 has a nicotine liquid contained therein as a liquid, and delivers the nicotine liquid contained therein to the vaporizing member 623.
  • Reference numeral 630 denotes an additional function implementing member and may implement at least one of an audio input / output function, an image input / output function, a display function, a communication function, a storage function, and an internet connection function.
  • the additional function implementing member 630 is connected to an external device (not shown) by wired or wireless, an audio input / output function for inputting / outputting sound such as music, an image input / output function for inputting / outputting a video, a photo, or the like, of the suction detection case.
  • Display function to display various information through part exposed to the outside and communication function to exchange information with external devices through various wired / wireless communication networks such as local area network such as Bluetooth, Wi-Fi communication network, mobile phone radio network, etc.
  • a storage function for storing various information and an internet connection function for accessing the Internet web can be implemented.
  • Reference numeral 660 denotes a charging member, which can be generated by itself or can be charged by a wireless charging method.
  • the charging member 660 When the charging member 660 generates power by itself, it may take various methods such as a light charging method that may be generated by external light such as artificial light such as sunlight or a lamp, and a vibration generation method that may be generated by vibration. Can be.
  • a wireless charging method When the charging member 660 is charged by a wireless charging method, various methods such as a method using an electromagnetic induction phenomenon may be taken. Electrical energy generated by the generation of the charging member 660 may be used to charge the electricity supply member 615 or may be supplied to the outside of the vaporization suction device 600.
  • the suction sensor 670 detects this and transmits the detected value to the control member 614.
  • air in the case of the second dividing member 620 and the case 621 flows into the user's mouth, and the air in the negative pressure forming unit 616 also flows out sequentially, thereby preventing the negative pressure.
  • a negative pressure is formed in the forming portion 616.
  • a small amount of air is continuously introduced through the outside air introduction hole 616b, so that the negative pressure is continuously formed in the negative pressure forming unit 616 during the suction process of the user.
  • the suction detection sensor 670 detects whether the user is suctioned.
  • control member 614 receiving the detection value transmits an operation command to the light emitting diode 613 and the vaporization member 623, and accordingly the light emitting diode 613 and the vaporization member 623 Receives power from the electricity supply member 615 and emits light and generates heat, respectively.
  • the user obtains a feeling similar to the actual smoking.
  • FIG. 9 is a perspective view showing a state in which the selection member according to the seventh embodiment of the present invention is separated from the case
  • FIG. 10 is a perspective view showing the state in which the selection member according to the seventh embodiment of the present invention is coupled to the case.
  • a selection member 770 is disposed on the suction device case so that selection can be made by the user.
  • the selection member 770 may be a selection member of various methods such as a push button and a touch screen, and may be installed on an outer surface of the suction device case.
  • the selection member 770 may be modularized, replaceable and handled by itself, and the selection member 770 may be included in the case 711 of the first divisional member constituting the suction device case. Is provided with a selection member mounting hole 711a.
  • the modular selection member 770 is inserted into and coupled to the selection member mounting hole 711a, and the selection member 770 is coupled with the suction of the selection member 770.
  • the structure for such energization, such as electrode connection, may be adopted as the structure shown in the sixth embodiment, and thus redundant description thereof will be omitted.
  • a guide groove 711b having a shape recessed in the insertion direction of the selection member 770 is formed around the selection member installation hole 711a, and the body 771 of the selection member 770 is formed.
  • Guide protrusions 772 are formed on the outer surface thereof to be fitted to the guide grooves 711b.
  • the guide protrusion 772 is aligned with the guide groove 711b to move along the guide groove 711b, whereby the selection member 770 can be accurately and accurately fitted to the selection member mounting hole 711a.
  • the selection member 770 is modularized by forming components, such as various circuits for making selection by the user, interpolated inside the body 771.
  • Reference numeral 773 denotes a push button, and may be applied in the case of a push type.
  • the selection member 770 when the modular selection member 770 is detachably coupled to the selection member mounting hole 711a, when the selection member 770 needs to be replaced or the like, the selection member 770 is replaced. There is no need to replace the included first divisional member itself, and since only the selection member 770 needs to be replaced easily, the electric supply member and the like included together with the selection member 770 in the first divisional member. Since unnecessary replacement of other components can be prevented, the replacement cost of the selection member 770 can be reduced, and resource saving in such replacement can be achieved.
  • FIG. 11 is a cross-sectional view illustrating an insert in which an evaporating member is coupled to a case according to an eighth embodiment of the present invention
  • FIG. 13 is a cross-sectional view showing a separated state
  • Figure 13 is a cross-sectional view showing a state in which the insert and the vaporizing member according to the eighth embodiment of the present invention.
  • the vaporization member 823 for vaporizing the suction object is modularized and detachably installed in the suction device case.
  • the vaporization member 823 may be detachably coupled to the insert 826 inserted into the case distal end of the first partition member while being detachably coupled to the case 821 of the second partition member.
  • the insert 826 is detachably coupled to the case 821 of the second partition member, which is exemplary, and the insert 826 is detachable from the case of the first partition member. It may possibly be combined.
  • the vaporizing member 823 is coupled to the case 821 of the second dividing member constituting the suction device case in a state of being fitted into the insert 826.
  • the insert 826 is separated from the case 821 of the second dividing member, whereby the vaporizing member 823 fitted to the insert 826 is formed. It can be replaced separately from the two split members.
  • the insert 826 separated from the case 821 of the second partition member. Since the vaporizing member 823 may be separated separately, only the vaporizing member 823 may be separately replaced except the insert 826.
  • FIG. 14 is a cross-sectional view schematically showing the configuration of a suction device according to a ninth embodiment of the present invention
  • FIG. 15 is an enlarged view of a portion A shown in FIG. 14,
  • FIG. 16 is a ninth embodiment of the present invention.
  • Fig. 17 is a perspective view showing a state before the heat receiving member constituting the vaporizing member applied to the suction device and the heat generating member are combined
  • Fig. 17 is a heat constituting the vaporizing member applied to the suction device according to the ninth embodiment of the present invention. It is a perspective view which shows a state that the receiving member and the heat generating member are coupled and the liquid induction member is covered.
  • the suction device 900 may allow a user to suck a suction object accommodated therein and includes a vaporization member 950.
  • the suction device 900 is divided into a first dividing member 910 and a second dividing member 920.
  • the configuration of the members 910 and 120 is exemplary, and the number of configurations of the partition members may be changed.
  • the light emitting diode 913, the electricity supply member 915, the control member 914, and the suction detection switch 918 are sequentially disposed in the case 911 of the first dividing member 910.
  • the vaporization member 950, the liquid receiving member 922, and the lid 925 are sequentially disposed in the case 921 of the second dividing member 920.
  • case 911 of the first dividing member 910 and the case 921 of the second dividing member 920 may be defined as a suction device case.
  • the light emitting diode 913 is electrically connected to the electricity supply member 915, so that the control member is operated when the suction device 900 is operated, for example, when the user inhales the suction device 900. A portion capable of emitting red light under the control of 914.
  • the light emitting diode 913 is formed on the front member 912 on the front surface of the case 911.
  • the electricity supply member 915 is configured to supply the light emitting diode 913, the control member 914, the vaporization member 950, etc., which are the components of the suction apparatus 900, to inhale the suction object to the user.
  • a polymer lithium battery or the like can be presented as the energy can be supplied.
  • the control member 914 is a part in which various circuits required for the operation of the suction device 900 are formed.
  • the control member 914 is selected by the selection member 916a or according to a detection value transmitted from the suction detection switch 918, such as the light emitting diode 913, the vaporization member 950, or the like of the suction device. Operational commands can be issued to control the operation of each component.
  • the suction detection switch 918 detects the flow of air in the suction detection case, and detects the suction by the user when the user inhales the distal end of the second dividing member 920 by mouth. to be.
  • the control member 914 When the suction detection switch 918 detects a user's suction, the control member 914 operates the vaporization member 950 to vaporize the liquid in the liquid receiving member 922.
  • the selection member 916a may be selected by the user so that the vaporization member 950 or the like is operated to perform the operation of allowing the suction device 900 to suck the suction object.
  • the selection member 916a and the suction detection switch 918 may be applied together, or only the selection member 916a may be applied without the suction detection switch 918 or the suction detection switch without the selection member 916a. 918 only may be applied.
  • Reference numeral 916b denotes an outside air introduction hole, and the air in the negative pressure forming portion 916 constituting the end portion of the case 911 of the first division member 910 passes through the outside air introduction hole 916b. It may flow into the case 921 of the 920.
  • the air introduced as described above is mixed with the suction object vaporized while passing through the vaporization member 950, and the lid is provided through an air flow path 924 formed inside the case 921 of the second dividing member 920. It flows out into the mouth of the user through the suction hole formed in 925.
  • air in the negative pressure forming unit 916 flows into the user's mouth through the second dividing member 920, and thus negative pressure is generated in the negative pressure forming unit 916. ) Is formed, so that outside air flows into the negative pressure forming unit 916 through the outside air introduction hole 916b.
  • the suction detection sensor 918 may detect the negative pressure formed in the negative pressure forming unit 916.
  • the outside air introduced into the negative pressure forming unit 916 through the outside air introduction hole 916b is sucked by the user together with nicotine, which is an inhalation target gas vaporized by the vaporizing member 950.
  • the vaporization member 950 may vaporize an inhalation object such as nicotine liquid supplied from the liquid receiving member 922 by receiving power from the electricity supply member 915 according to the command of the control member 914. .
  • the vaporizing member 950 includes a heat generating member 965 for generating heat, and a heat receiving member 960 for receiving heat generated by the heat generating member 965.
  • the heat generating member 965 heats the heat receiving member 960 so that the suction object provided to 960 is generated in the heat generating member 965 and vaporized by the heat contained in the heat receiving member 960.
  • Reference numeral 951 denotes a case of the vaporization member 950
  • reference numeral 952 denotes an outlet hole through which the suction object vaporized in the vaporization member 950 may flow out into the air flow hole 924.
  • Reference numeral 953 directs the suction object from the liquid receiving member 922 to the vaporization member 950 so that the suction object received in the liquid receiving member 922 can be transferred to the heat receiving member 960 and vaporized. It is a liquid guide member.
  • the heat generating member 965 may receive power from the electricity supply member 915 and generate heat by itself.
  • the heat generating member 965 may include a heating wire such as a nichrome wire. Heat is generated using the electric energy applied to the hot wire.
  • the heating member 965 includes the heating wire is an example, the heating member 965 is at least one of aluminum, alumina, tungsten, gold, silver, copper, iron, nickel, chromium, nickel chromium alloy. Can be done.
  • the heat generating member 965 may be made of a plurality of alloys of aluminum, alumina, tungsten, gold, silver, copper, iron, nickel, and chromium.
  • the heat receiving member 960 is baked while receiving the heat generated by the heat generating member 965 and received therein, and guided by the liquid inducing member 953 to the surface of the heat receiving member 960.
  • the nicotine liquid serving as the suction object provided to the heat receiving member 960 may be vaporized by the heated heat as described above.
  • the heat receiving member 960 may be formed of ceramics, ceramics, ceramics, glass, piezoelectric ceramics, or advanced ceramics.
  • the heat receiving member 960 may be made of at least one of ceramics, ceramics, glass, piezoelectric ceramics, and advanced ceramics collectively referred to as the ceramics.
  • the heat receiving member 960 may be manufactured by making clay, which is a raw material for forming the ceramics, in the form of the heat receiving member 960 and then baking it at a high temperature, or after grinding the baked ceramics.
  • the crushed pieces may be manufactured by agglomeration, or may be manufactured in various ways.
  • the heat receiving member 960 may include at least one of rocks and minerals.
  • the heat receiving member 960 may be formed to include at least one of jade, jade, eel, chalcedony, gansumite, quartz, feldspar, germanium, biotite, and diamond.
  • the heat receiving member 960 may include at least one of an anion generating rock capable of generating anions, an infrared generating rock capable of generating infrared rays, and a far infrared generating rock capable of generating far infrared rays.
  • the heat receiving member 960 may include at least one of graphene, carbon, thermally conductive plastic, graphite, magnesium, zirconium, and palladium.
  • the heat receiving member 960 may include at least one of metals and nonferrous metals.
  • the heat receiving member 960 may include at least one of gold, silver, iridium, acetone, palladium, alumina, and tungsten.
  • the heat receiving member 960 may be formed of a single material among the above-listed materials, or may be formed by mixing or synthesizing a plurality of materials of the opened materials.
  • the heat receiving member 960 becomes a platform on which the heat generating member 965 is mounted.
  • the heat receiving member 960 serving as a platform on which the heat generating member 965 is raised may be formed in various forms such as a plate, a rod, a cylinder, and a curved surface having a wide plane of a predetermined area.
  • the heat receiving member 960 is composed of a pair of subplates 961 and 162 having a wide plane of a predetermined area, and any one of the pair of subplates 961 and 162.
  • the heat generating member 965 is formed on a surface of), and the other of the pair of sub plates 961 and 162 is interposed between the heat generating members 965 and the pair of sub plates 961 and 162.
  • One 962 covers the subplate 961 in which the heat generating member 965 is formed, and the vaporizing member 960 is formed.
  • the heat generating member 965 is a surface on which the nicotine liquid as the suction object is supplied to the heat receiving member 960, that is, the other surface of the surface facing the liquid inducing member 953, that is, the liquid inducing member 953. It is disposed on the opposite side of the face facing.
  • the heat generating member 965 may be mounted on any one of printing, plating, painting, coating, and attaching to the sub plate 961 constituting the heat receiving member 960 as a platform.
  • a mask corresponding to the arrangement of the heat generating member 965 may be used, and in the case of coating and attaching, the heat generating member 965 is separately manufactured and then the sub plate ( 961).
  • the heat generating member 965 is formed in a zigzag shape arranged parallel to each other on the sub plate 961 at regular intervals.
  • Reference numeral 954 denotes an electrode extending from the heat generating member 965, and an end of the electrode 954 is connected to a case 951 of the vaporizing member 950 to supply electricity to the heat generating member 965. .
  • the liquid inducing member 953 surrounds the heat receiving member 960 in which the heat generating member 965 is interpolated, and supplies the suction object to the heat receiving member 960 as a whole.
  • the liquid inducing member 953 completely surrounds the heat receiving member 960 in a mesh form. Then, the suction object transferred through the liquid inducing member 953 may be vaporized by the heat of the heat receiving member 960 and then released through the meshes, which are empty spaces of the liquid inducing member 953.
  • the nicotine liquid which is the suction object supplied to the heat receiving member 960 does not directly come into contact with the heat generating member 965, and thus, it may not be burned, or burned, by the high heat of the heat generating member 965. While being vaporized by the heat of the heat receiving member 960 heated by the heat transferred from the heat generating member 965, it is possible to prevent harmful substances such as carbon monoxide and soot when vaporizing the suction object. Can be evaporated in a preserved state without altering the taste inherent in the inhalation object.
  • the heat generating member 965 and the sub plate 961 are in direct contact with each other, and heat transfer from the heat generating member 965 to the sub plate 961 is performed by conduction. It is configured to lose.
  • the nicotine liquid delivered from the liquid receiving member 922 may be vaporized. Nicotine vaporized by the vaporization member 950 is mixed with the air introduced through the external air introduction hole 916b, so that the liquid receiving member 922 and the case 921 of the second dividing member 920 are separated. Flow through the air flow hole 924 formed in the flow through the lid 925 to the user's mouth.
  • the liquid accommodating member 922 is a liquid containing nicotine liquid that is an inhalation object therein, and delivers the nicotine liquid contained therein to the vaporization member 950.
  • Reference numeral 930 is an additional function implementing member, and may implement at least one of an audio input / output function, an image input / output function, a display function, a communication function, a storage function, and an internet connection function.
  • the additional function implementing member 930 is connected to an external device (not shown) by wired or wireless, an audio input / output function for inputting / outputting sound such as music, an image input / output function for inputting / outputting a video, a photo, etc., and the suction detection case.
  • Display function to display various information through part exposed to the outside and communication function to exchange information with external devices through various wired / wireless communication networks such as local area network such as Bluetooth, Wi-Fi communication network, mobile phone radio network, etc.
  • a storage function for storing various information and an internet connection function for accessing the Internet web can be implemented.
  • Reference numeral 940 denotes a charging member, which can generate power by itself, and includes various types of light charging methods that can be generated by external light, such as artificial light such as sunlight and lamps, and vibration generation methods that can be generated by vibration. You can do it. Electrical energy generated by the generation of the charging member 940 may be used to charge the electricity supply member 915 or may be supplied outside the suction device 900.
  • the filling member 940 is shown to be installed in the case 921 of the second dividing member 920, but this is illustrative and the filling member 940 constitutes the vaporizing member 950. It may be applied as.
  • a portion 921 of the second dividing member 920 has a portion for receiving external light such as a solar panel. ) May be exposed to the outside.
  • the vaporization member 950 applied to the suction device 900 generates heat, and a heat receiving member that receives heat generated by the heat generating member 965.
  • a heat receiving member that receives heat generated by the heat generating member 965.
  • the heat receiving member 960 is heated, the suction object is vaporized by the heated heat, and the suction object is not directly vaporized due to the high heat of the heat generating member 965.
  • the vaporization member 950 may prevent the generation of harmful components such as carbon monoxide and soot, which may be generated when the inhalation object is burned, and may be vaporized in a preserved state without altering the inherent taste of the inhalation object.
  • the heat generating member 965 is modularized with the heat receiving member 960, the vaporization member 950 may be compact, and the heat generating member 965 and the heat receiving member 960 may be easily handled.
  • the liquid induction member 953 may be configured to surround the modular heat generating member 965 and the heat receiving member 960 so that even delivery and vaporization of the suction object may be achieved.
  • the suction detection switch 918 detects this and transmits the detected value to the control member 914.
  • the control member 914 receives this information about the selection from the control member 914.
  • the suction detection switch 918 detects whether the user is suctioned.
  • control member 914 receiving the sensed value transmits an operation command to the light emitting diode 913 and the vaporization member 950, and thus the light emitting diode 913 and the vaporization member 950. Receives power from the electricity supply member 915 and emits light and operates, respectively.
  • the heat receiving member 960 When the vaporizing member 950 is operated, the heat receiving member 960 is heated by the heat generated by the heat generating member 965, and the nicotine liquid transferred to the heat receiving member 960 by the heated heat. This vaporizes to form smoke.
  • the smoke formed as described above is discharged into the user's mouth through the lid 925 of the second dividing member 920.
  • the user obtains a feeling similar to the actual smoking.
  • FIG. 18 is a perspective view showing a state before the heat receiving member and the heat generating member that constitute the vaporizing member to be applied to the suction device according to the tenth embodiment of the present invention.
  • a heat generating member insertion groove 1061 through which the heat generating member 1065 may be inserted is formed in the heat receiving member 1060, and the heat generating member is formed in the heat generating member insertion groove 1061.
  • the member 1065 may be inserted to mount the heat generating member 1065 on the heat receiving member 1060 which is a platform, thereby forming a vaporizing member.
  • FIG. 19 is a perspective view showing a state in which the heat receiving member and the heat generating member that constitute the vaporizing member applied to the suction device according to the eleventh embodiment of the present invention are combined.
  • the heat generating member 1165 is formed on the surface of the heat receiving member 1160 so that the heat generating member 1165 is formed on the heat receiving member 1160 that is a platform. Can be raised, and thus a vaporizing member can be formed.
  • FIG. 20 is a cross-sectional view schematically showing the configuration of a suction device according to a twelfth embodiment of the present invention.
  • the suction device 1200 includes the wireless charging member 1226 so that the vaporization member 1250 may be supplied with electricity wirelessly.
  • an electrical supply member 1215 and a wireless transmission member 1219 capable of wirelessly transmitting electricity supplied from the electrical supply member 1215 to the first division member 1210 constituting the suction device 1200.
  • the second division member 1220 may wirelessly receive and charge electricity transmitted from the wireless transmission member 1219, and may wirelessly supply electricity to the heat generating member constituting the vaporization member 1250.
  • Filling member 1226 is formed.
  • Wireless charging between the wireless transmission member 1219 and the wireless charging member 1226 is to insert a coil into each of the wireless transmission member 1219 and the wireless charging member 1226 to transfer electricity by electromagnetic induction.
  • Various methods may be applied, such as an electromagnetic induction method, a magnetic resonance method for transmitting electricity by resonating the wireless transmission member 1219 and the wireless charging member 1226 at the same frequency.
  • the wireless charging member 1226 since the vaporization member 1250 may be supplied with electricity wirelessly, a structure for supplying electricity to the vaporization member 1250 may be improved. .
  • 21 is a sectional view schematically showing the configuration of a suction device according to a thirteenth embodiment of the present invention.
  • the wireless transmission member 1301 is connected to an external power source existing outside the suction device 1300.
  • the suction device 1300 can be made compact by omitting the electricity supply member, the wireless charging member 1326 connected to the vaporization member 1350 supplies electricity of an external power source through the wireless transmission member 1301. I can receive it.
  • FIG. 22 is a cross-sectional view illustrating a state in which a vaporization member and a liquid receiving member are applied to an inhalation device according to a fourteenth exemplary embodiment of the present invention.
  • the heat receiving member 1460 preferably the head thereof, penetrates through the liquid receiving member 1422 and protrudes into the liquid receiving member 1422. Then, the suction object accommodated in the liquid receiving member 1422 can be directly vaporized by the heat receiving member 1460 protruding into the liquid receiving member 1422, so that the liquid inducing member or the like can be omitted. Therefore, the structure of the suction device can be simply improved, and the suction of the suction object can be made more smoothly.
  • Numeral 627 denotes an optional communication member that allows the vaporized suction object to pass while not passing the liquid suction object in the liquid receiving member 1422, and the suction object leaks by the selective communication member 1423. If not, the vaporized suction object may be passed and directed toward the outlet hole 1452 of the vaporization member 1450.
  • FIG. 23 is a cross-sectional view showing a state in which a vaporization member and a liquid receiving member are applied to the suction device according to the fifteenth embodiment of the present invention.
  • a module of the heat generating member 1565 and the heat receiving member 1561 constituting the vaporizing member wraps the liquid receiving member 1522 along the periphery of the liquid receiving member 1522.
  • the heat generated by the heat generating member 1565 is supplied to the heat receiving member 1541 and then transferred to the suction object received inside the liquid receiving member 1522 through the wall of the liquid receiving member 1522.
  • the suction object may be vaporized.
  • the wall of the liquid receiving member 1522 may be made of a material having excellent thermal conductivity such as metal.
  • the suction device can be more compact.
  • Reference numeral 1527 denotes an optional communication member.
  • FIG. 24 is a cross-sectional view showing a state of the vaporizing member applied to the suction device according to a sixteenth embodiment of the present invention.
  • the heat receiving member 1665 is interpolated with the heat receiving member 1661, and the heat receiving member 1661 receives heat generated by the heat generating member 1665.
  • the suction object may be accommodated therein. That is, the heat receiving member 1601 replaces the liquid receiving member.
  • the heat generated by the heat generating member 1665 may be supplied to the heat receiving member 1601, and then immediately transferred to the suction object accommodated in the heat receiving member 1601 to vaporize the suction object.
  • the suction device can be made more compact.
  • Reference numeral 1627 denotes an optional communication member.
  • FIG. 25 is a cross-sectional view illustrating a vaporization member and a liquid injection member applied to a suction device according to a seventeenth embodiment of the present invention.
  • the suction device includes a liquid spray member 1770 capable of spraying the suction object toward the heat receiving member 1760.
  • the liquid injecting member 1770 includes an injector 1721 capable of supplying and injecting a liquid suction object from the liquid accommodating member, and an injection nozzle 1772 formed from the injector 1771 toward the heat receiving member 1760. It is composed of
  • a negative pressure is also formed in the vaporization member, and the suction object may be injected from the injection nozzle 1772 by the negative pressure.
  • a piston (not shown) may be formed to allow the user to separately apply a pressure, such as a syringe, and the suction object may be injected from the injection nozzle 1772 by the pressure transmitted as the piston is pressed.
  • various injection methods may be applied.
  • the suction object in the liquid receiving member can be injected into the gas phase toward the heat receiving member 1760 through the liquid spray member 1770, so that the suction object reaches the whole of the heat receiving member 1760. It can be, and since the inhalation object is already vaporized at the time of injection, vaporization of the inhalation object can be made more smoothly.
  • FIG. 26 is a cross-sectional view illustrating a state in which a vaporization member and a liquid induction member applied to an inhalation device according to an eighteenth embodiment of the present invention are combined.
  • FIG. 26 is a cross-sectional view illustrating a state in which a vaporization member and a liquid induction member applied to an inhalation device according to an eighteenth embodiment of the present invention are combined.
  • the liquid inducing member 1853 surrounds the heat receiving member 1860 and forms at least one, preferably, a plurality of through holes 1855.
  • FIG. 27 is a cross-sectional view illustrating a state in which a vaporization member and a liquid inducing member applied to an inhalation device according to a nineteenth embodiment of the present invention are combined;
  • the liquid inducing member 1953 surrounds the heat receiving member 1960 to form a plurality of long holes 1955 having at least one, preferably long through holes.
  • liquid inducing member presented in the above-described embodiments are exemplary, and various other forms may be presented as a matter of course.
  • FIG. 28 is a perspective view illustrating a state in which a heat receiving member and a heat generating member are combined to constitute a vaporization member applied to a suction device according to a twentieth embodiment of the present invention.
  • the heat generating members 2065 are arranged in the heat receiving member 2060 in a zigzag shape diagonally curved to each other.
  • FIG. 29 is a perspective view illustrating a state in which a heat receiving member and a heat generating member are combined to constitute a vaporization member applied to a suction device according to a twenty-first embodiment of the present invention.
  • the heat generating members 2165 are arranged in a plurality of point shapes that are electrically connected to each other.
  • heating member presented in the above embodiments are exemplary, in addition to the heating member is a linear, L-shaped, C-shaped, L-shaped, U-shaped, K-shaped, U-shaped, ⁇ type, the surface having a certain area
  • the heating member can be arranged in a variety of other forms, such as body shape.
  • FIG. 30 is a sectional view schematically showing a configuration of a suction device according to a twenty-second embodiment of the present invention
  • FIG. 31 is a sectional view showing a vaporizing member according to a twenty-second embodiment of the present invention
  • FIG. 32 is a twenty-second embodiment of the present invention.
  • 33 is a cross-sectional view showing air flow in the vaporizing member according to the embodiment
  • FIG. 33 is a cross-sectional view showing a state in which the hot wire coupling member is separated from the hot wire support member constituting the vaporizing member according to the twenty-second embodiment of the present invention.
  • Is a cross-sectional view showing a state in which a hot wire coupling member is coupled to a hot wire support member constituting a vaporization member according to a twenty-second embodiment of the present invention.
  • the suction device 2200 includes a vaporizing member 2230, to allow a user to suck the suction object contained therein.
  • the suction device 2200 is divided into a first dividing member 2210 and a second dividing member 2220.
  • the configuration of the members 2210 and 2220 is exemplary, and the number of configurations of the partition members may be changed.
  • the light emitting diode 2213, the electricity supply member 2215, the control member 2214, and the suction detection switch 2218 are sequentially disposed in the case 2211 of the first division member 2210.
  • a vaporizing member 2230 In the case 2221 of the second dividing member 2220, a vaporizing member 2230, a liquid receiving member 2222, and a lid 2225 are sequentially disposed.
  • case 2211 of the first dividing member 2210 and the case 2221 of the second dividing member 2220 may be defined as a suction device case.
  • the light emitting diode 2213 is electrically connected to the electricity supply member 2215, so that the control member is operated when the suction device 2200 is operated, for example, when the user inhales the suction device 2200. A portion capable of emitting red light under the control of 2214.
  • the light emitting diode 2213 is formed on the front member 2212 on the front surface of the case 2211.
  • the electricity supply member 2215 is configured to supply the light emitting diode 2213, the control member 2214, the vaporization member 2230, and the like, which are the components of the suction device 2200, to inhale the suction object to the user.
  • a polymer lithium battery or the like can be presented.
  • the control member 2214 is a portion in which various circuits required for the operation of the suction device 2200 are formed.
  • the control member 2214 is selected by the selection member 2216a or according to a detection value transmitted from the suction detection switch 2218, such that the light emitting diode 2213, the vaporizing member 2230, or the like of the suction device may be used. Operational commands can be issued to control the operation of each component.
  • the suction detection switch 2218 detects a flow of air in the suction detection case, and when the user inhales the distal end of the second dividing member 2220 by mouth, a portion for detecting whether or not the suction by the user to be.
  • the control member 2214 activates the vaporizing member 2230 to vaporize the liquid in the liquid receiving member 2222.
  • the selection member 2216a may be selected by a user so that the vaporization member 2230 or the like is operated to perform the operation of allowing the suction device 2200 to suck the suction object.
  • the selection member 2216a and the suction detection switch 2218 may be applied together, or the selection member 2216a may be applied without the suction detection switch 2218 or the suction detection switch without the selection member 2216a. 2218) may also be applied.
  • Reference numeral 2216b denotes an outside air introduction hole, in which air in the negative pressure forming portion 2216 constituting the end portion of the case 2211 of the first division member 2210 passes through the outside air introduction hole 2216b.
  • 2220 may be introduced into the case 2221.
  • the air introduced as described above is mixed with the suction object vaporized while passing through the vaporization member 2230, and through the air flow hole 2224 formed in the case 2221 of the second dividing member 2220. It flows out through the suction hole formed in the lid 2225 to the user's mouth.
  • air in the negative pressure forming unit 2216 flows into the user's mouth through the second dividing member 2220, and thus negative pressure is generated in the negative pressure forming unit 2216. ) Is formed, so that outside air flows into the negative pressure forming unit 2216 through the outside air introduction hole 2216b.
  • the suction detection sensor 2218 may detect the negative pressure formed in the negative pressure forming unit 2216.
  • the outside air introduced into the negative pressure forming unit 2216 through the outside air introduction hole 2216b is inhaled by the user together with nicotine which is an inhalation target gas vaporized by the vaporizing member 2230.
  • Reference numeral 2219 denotes a protruding electrode for energizing the electricity supply member 2215 and the vaporization member 2230.
  • one electrode of the electricity supply member 2215 is energized with a case 2211 of the first division member 2210, which may be made of a metal material, and the other electrode of the electricity supply member 2215 is The electrode may be configured to be energized with the protruding electrode 2219 so that both electrodes of the electricity supply member 2215 may be energized with the vaporization member 2230.
  • the vaporizing member 2230 is supplied from the liquid receiving member 2222 by receiving power from the electric supply member 2215 according to a command of the control member 2214 so that a user can suck the suction object.
  • Inhalation objects such as nicotine liquid, can be vaporized.
  • nicotine liquid which is an inhalation object delivered from the liquid receiving member 2222 may be vaporized. Nicotine vaporized by the vaporizing member 2230 is mixed with the air introduced through the outside air introduction hole 2216b, so that between the liquid receiving member 2222 and the case 2221 of the second dividing member 2220. It flows through the air flow hole 2224 formed in the and then flows out through the lid 2225 to the user's mouth.
  • the vaporization member 2230 is a coupling electrode member 2232, a through electrode member 2235, a heating wire 2244, a coupling electrode heating wire support member 2242, a through electrode conducting member 2240, and a through electrode. And a hot wire support member 2241.
  • Reference numeral 2231 denotes a vaporizing member case forming an outer appearance of the vaporizing member 2230.
  • the coupling electrode member 2232 is installed in front of the vaporization member case 2231, and is electrically connected to one electrode of the electricity supply member 2215.
  • the through electrode member 2235 is installed to penetrate the coupling electrode member 2232, and is electrically connected to the other electrode of the electricity supply member 2215.
  • the coupling electrode member 2232 may be inserted into the negative pressure forming part 2216, which is a distal end of the case 2211 of the first dividing member 2210, and may be inserted into the vaporization member by the coupling electrode member 2232. 2230 may be coupled to a case 2211 of the first dividing member 2210 constituting the suction device.
  • the coupling electrode member 2232 When the coupling electrode member 2232 is inserted into the negative pressure forming part 2216, the case 2211 and the coupling electrode member of the first dividing member 2210 that are energized with one electrode of the electricity supply member 2215. 2232 is energized, and the protruding electrode 2219 and the through electrode member 2235 which are energized with the other electrode of the electricity supply member 2215 can be energized.
  • Reference numeral 2234 denotes a latching portion caught by the head of the through electrode member 2232 installed in the coupling electrode member 2232
  • reference numeral 147 denotes between the coupling electrode member 2232 and the through electrode member 2235. It is an insulator to insulate.
  • the coupling electrode member 2232 is provided with a vaporization member air inlet hole 2233 through which the outside air introduced through the outside air introduction hole 2216b flows into the vaporization member 2230, and the through electrode member 2235 is formed. ) Is a vaporization member air flow hole penetrating through the through electrode member 2235 so that air introduced into the vaporization member 2230 through the vaporization member air inlet hole (2233) can flow toward the hot wire (2244). 2236 is formed.
  • the outside air introduced through the outside air introduction hole 2216b sequentially passes through the vaporizing member air inlet hole 2233 and the vaporizing member air flow hole 2236. After passing through and supplied to the heating wire 2244, it is mixed with the suction object vaporized in the heating wire 2244 and formed in the vaporizing member case 2231 and communicating with the air flow hole 2224. Flow is toward the air flow hole 2224 through 2246.
  • the heating wire 2244 may generate heat by electrical energy transmitted from the electricity supply member 2215 through the coupling electrode member 2232 and the through electrode member 2235, and may include at least one of nanocarbon and carbon fiber. It may be made of one material.
  • Reference numeral 2243 denotes a heat receiving member made of a material such as ceramic, which is heated by heat generated from the heating wire 2244, and the heat receiving member 2243 is a derivative (not shown) from the liquid receiving member 2222.
  • the suction object which is transmitted through and touches the surface of the heat receiving member 2243 may be vaporized by the heated heat.
  • the heating wire 2244 may be bent in a zigzag or the like around the heat receiving member 2243 or may be wound around the heat receiving member 2243 a plurality of times.
  • the coupling electrode heating wire support member 2242 may extend from the coupling electrode member 2232 toward the heating wire 2244 in a predetermined length, and one end of the coupling electrode member 2232 and the heating wire 2244 may be energized. One end of the heating wire 2244 is connected to the upper portion thereof.
  • the through electrode conducting member 2240 has the through electrode member 2235 inserted into a central portion thereof, such that the through electrode conducting member 2235 is electrically connected to the through electrode member 2235, and the insulator is connected to the connecting electrode hot wire supporting member 2242. It is insulated by 2248 and supports the coupling electrode hot wire support member 2242. In order to support the coupling electrode hot wire supporting member 2242, a through hole may be formed in the through electrode conducting member 2240, and the coupling electrode hot wire supporting member 2242 may pass through the through hole.
  • the through-electrode heating wire supporting member 2241 extends from the through-electrode conducting member 2240 to a predetermined length, and the hot wire (so that the other end of the through-electrode conducting member 2240 and the heating wire 2244 may be energized). The other end of 2244 is connected.
  • the through electrode hot wire support member 2241 and the coupling electrode hot wire support member 2242 support the hot wire 2244 and may be defined as a hot wire support member.
  • the vaporization member 2230 is coupled electrode member 2232, through electrode member 2235, hot wire 2244, coupling electrode hot wire support member 2242, through electrode conducting member 2240, through electrode hot wire A support member 2241, wherein the through electrode member 2235 is penetrated through the coupling electrode member 2232, and the through electrode conducting member 2240 is provided at an end of the through electrode member 2235.
  • the lower end of the coupling electrode hot wire support member 2242 is fitted to the coupling electrode member 2232.
  • the through electrode conducting member 2240 is penetrated, and a lower end of the through electrode heating wire supporting member 2241 is fitted to the through electrode conducting member 2240, and the through electrode conducting member 2240 and the coupling electrode are connected to each other. Heated wire support As the heating wires 2244 are connected to the upper portions of the 2224, the components of the vaporizing member 2230 may be mechanically coupled without the use of soldering. Therefore, the manufacturing of the suction device 2200 can be facilitated, the durability of the suction device 2200 can be improved, harmless to the human body and the environment, and the current flow to the heating wire 2244 is constant. Can be done.
  • a recess hole 2249 recessed to a predetermined depth is formed at an upper end of the through electrode hot wire support member 2241, and the heat wire penetrates in communication with the recess hole 2249.
  • a hole 2251 is formed at a distal end side of the through electrode hot wire support member 2241, and the end of the hot wire 2244 penetrates the hot wire through hole 2251 and is inserted into the recessed hole 2249.
  • the heating wire 2244 can be electrically connected without being connected to the heating wire, the heating wire 2244 can be firmly and easily coupled to the heating wire support member, harmless to the human body and the environment, and the current to the heating wire 2244.
  • Flow schedule It can be.
  • the outer surface of the recessed hole 2249 and the recessed hole coupling member 2250 may be formed with threads that may be fitted to each other, and thus the coupling force may be increased by engaging with each other.
  • the structure for coupling the through electrode hot wire support member 2241 and the hot wire 2244 may be equally applied to the coupling electrode hot wire support member 2242 and the hot wire 2244. Duplicate descriptions will be replaced with the above descriptions and will be omitted herein.
  • the vaporizing member 2230 has a configuration for preventing the suction object supplied from the liquid receiving member 2222 is not backflow arbitrarily, as follows.
  • the vaporization member 2230 includes a check valve member 2245 to prevent the suction object introduced into the vaporization member 2230 from leaking out randomly and flowing backward.
  • the check valve member 2245 covers the through-electrode energizing member 2240 while forming a body having a hemispherical cross section, and the vaporizing member air flow hole 2236 and the hot wire are formed by the check valve member 2245. 2244 are spatially separated.
  • the check valve member 2245 is formed with a check valve discharge hole 2246 for supplying the outside air introduced through the vaporizing member air flow hole 2236 to the hot wire 2244.
  • the suction object supplied toward the heating wire 2244 is blocked by the check valve member 2245, and the Since the vaporizing member may not flow into the air flow hole 2236, the suction object may be randomly leaked from the vaporizing member 2230 and may not flow back to the outside.
  • the vaporization member 2230 is interposed between the outer surface of the coupling electrode member 2232 and the inner surface of the vaporization member case 2231 so that the suction object inside the vaporization member 2230 is connected to the coupling electrode member 2232.
  • the case backflow preventing member 2237 to prevent leakage between the vaporizing member case 2231 and backflow.
  • the case backflow preventing member 2237 may have an O-ring shape, and the like, and may be interposed between the outer surface of the coupling electrode member 2232 and the inner surface of the vaporizing member case 2231.
  • the vaporization member 2230 is interposed between the coupling electrode member 2232 and the through-electrode energizing member 2240, so that the suction object inside the vaporization member 2230 is connected to the coupling electrode member 2232.
  • An internal backflow preventing member 2239 prevents leakage between the through electrode conductive members 2240 and flows back to the outside.
  • the internal backflow preventing member 2239 may be made of an insulating material such as silicone rubber to insulate the coupling electrode member 2232 from the through electrode conductive member 2240.
  • the vaporizing member 2230 includes the check valve member 2245, the case backflow preventing member 2237, the internal backflow preventing member 2239, and the like, the vaporization member 2230 is supplied to the vaporizing member 2230. Since the suction object may be leaked to the outside of the vaporizing member 2230 and may not be reversed, a short circuit due to the reverse flow of the suction object may be prevented.
  • Reference numeral 2238 denotes a heat shield member such as silver foil, and the heat shield member 2238 is disposed on an inner wall of the vaporization member case 2231, and heat generated from the hot wire 2244 is external to the vaporization member 2230. You can block it from being sent to.
  • the suction detection switch 2218 detects this, and transmits a corresponding detection value to the control member 2214.
  • the user selects the selection member 2216a, information about the selection is transmitted to the control member 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 is continuously introduced through the outside air introduction hole 2216b, so that the negative pressure is continuously formed in the negative pressure forming unit 2216 during the suction process of the user.
  • the suction detection switch 2218 detects whether the user inhales.
  • control member 2214 that has received the detection value transmits an operation command to the light emitting diode 2213 and the vaporizing member 2230, and thus the light emitting diode 2213 and the vaporizing member 2230.
  • the heating wire 2244 in the inside receives power from the electricity supply member 2215 to emit light and generate heat, respectively.
  • 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 2225 of the second dividing member 2220.
  • the user obtains a feeling similar to the actual smoking.
  • 35 is a cross-sectional view showing a state in which a hot wire coupling member is separated from a hot wire support member constituting a vaporization member according to a twenty-third embodiment of the present invention.
  • a recessed hole 2349 having a shape recessed to a predetermined depth is formed at an upper end of the through electrode hot wire support member 2341, and an end of the hot wire 2344 is formed.
  • the through electrode hot wire support member 2341 and the hot wire 2344 can be energized.
  • the heating wire 2344 may be supported while being heated, and the heating wire 2344 may be electrically connected to each other without being soldered.
  • the outer surface of the recessed hole 2349 and the recessed hole coupling member 2350 may be formed with threads that may be aligned with each other, and thus, the coupling force may be increased by engaging with each other.
  • the structure for coupling the through electrode hot wire support member 2341 and the hot wire 2344 may be equally applied to the coupling electrode hot wire support member and the hot wire 2344. In the following description, a description thereof will be omitted and will be omitted.
  • the coupling structure of the through-electrode heating wire supporting member and the heating wire will be described in each embodiment. However, this may also be applied to the coupling of the coupling electrode heating wire supporting member and the heating wire. Duplicate explanations are omitted.
  • FIG. 36 is a perspective view showing a state before a heating wire is fitted to a heating member supporting a heating member constituting the vaporizing member according to a twenty-fourth embodiment of the present invention
  • Figure 37 is a heating wire constituting the vaporizing member according to a twenty-fourth embodiment of the present invention It is a perspective view which shows the state in which the heating wire was fitted to the support member.
  • a hot wire insertion groove 2441a may be formed at an upper end of the through electrode hot wire support member 2441 to fix the hot wire 2444. Supports the heating wire (2444).
  • the hot wire insertion groove 2441a has a shape that gradually narrows from the top to the bottom, based on the direction in which the hot wire 2444 is inserted, so that the hot wire 2444 is inserted and fixed gradually as the hot wire 2444 is inserted. That is, the lower portion of the hot wire insertion groove 2441a gradually decreases toward the lower portion thereof.
  • the hot wire 2444 is introduced into the hot wire insertion groove 2441a and descends, the hot wire insertion groove 2441a gradually narrows, and thus the hot wire 2444 is the hot wire insertion groove ( By being fitted to 2441a, it can be combined firmly and environmentally without soldering or the like.
  • Reference number 2444a is a metal fitting panel connected to the distal end of the heating wire 2444 and fitted into the heating wire insertion groove 2441a.
  • the heating wire 2444 may be directly inserted into the heating wire insertion groove 2441a without the fitting panel 2444a being applied.
  • Figure 38 is a perspective view showing a state before the hot wire and the hot wire cover are coupled to the hot wire support member constituting the vaporization member according to the 25th embodiment of the present invention
  • Figure 39 is a vaporization member according to a 25th embodiment of the present invention It is a perspective view which shows the state in which the heating wire and the heating wire cover were couple
  • the hot wire insertion groove 2581a is formed in the through-electrode hot wire support member 2551 in the present embodiment, such as the hot wire insertion groove in the twenty-fourth embodiment described above.
  • the hot wire cover 2560 covers the hot wire insertion groove 2541a into which the hot wire 2544 is inserted, so that the hot wire 2544 inserted into the hot wire insertion groove 2541a is not separated.
  • the hot wire 2544 may not be detached from the hot wire insertion groove 2551a.
  • FIG. 40 is a cross-sectional view showing a hot wire insertion groove of a hot wire supporting member constituting a vaporizing member according to a twenty sixth embodiment of the present invention
  • FIG. 41 is a hot wire constituting a vaporizing member according to a twenty sixth exemplary embodiment of the present invention. It is sectional drawing which shows a state in which a heating wire was inserted and retracted in the heating wire insertion groove of a support member.
  • a hot wire insertion groove 2641a which is the same as the hot wire insertion groove in the twenty-fourth embodiment described above, is formed, and the hot wire insertion is performed.
  • the hot wire insertion groove 2641a into which the hot wire 2644 is inserted may be tightened by the fastening member 2670 so that the hot wire 2644 inserted into the groove 2641a is not separated.
  • the through electrode hot wire support member 2641 has a lower end coupled to the through electrode conducting member 2640, and the hot wire insertion groove 2641 a is formed at an upper end thereof.
  • the through electrode hot wire support member 2641 may penetrate a center portion of the fastening member 2670, and the fastener member 2670 may move along the through electrode hot wire support member 2641.
  • Reference numeral 2672 denotes an elastic member supporter 2672 formed on an upper portion of the through-electrode energizing member 2640
  • reference numeral 2671 denotes an elastic member such as a spring
  • an upper end of the elastic member 2671 is the tightening member 2670.
  • a lower end of the elastic member 2671 is configured to contact the elastic member support 2672, and the tightening member 2670 is pushed up by the elastic member 2671 to maintain a raised state.
  • the hot wire insertion groove 2641a is opened.
  • the restoring force is accumulated in the elastic member 2671.
  • the hot wire 2644 may be easily inserted into the opened hot wire insertion groove 2641a.
  • the elastic member 2671 is originally shaped by the restoring force of the elastic member 2671. And the fastening member 2670 is moved in a direction close to the hot wire insertion groove 2641a, in a rising direction, so that the hot wire 2644 inserted into the hot wire insertion groove 2641a is fixed.
  • the hot wire insertion groove 2641a is tightened as much as possible.
  • the heating wire 2644 can be combined with a simple, robust and environmentally friendly, not by soldering.
  • the heating wire 2644 is presented so as to lie in the heating wire insertion groove (2641a) approximately perpendicular to the direction of formation of the through-electrode heating wire support member 2641, which is exemplary, the end of the heating wire (2644) It may be configured to be inserted into the heating wire insertion groove (2641a) in the forming direction of the through-electrode hot wire support member (2641) by itself or through a member such as the fitting panel (2444a) of FIG.
  • FIG. 42 is a sectional view schematically showing a configuration of a suction device according to a twenty-seventh embodiment of the present invention
  • FIG. 43 is an enlarged view of a portion B shown in FIG. 42.
  • the suction device 2700 includes an electrostatic transfer unit, a control member 2714, an electrostatic detection sensor 2740, and a sensor connection member 2741.
  • the user may inhale the suction object contained therein.
  • the suction device 2700 is divided into a first dividing member 2710 and a second dividing member 2720.
  • the configuration of the members 2710 and 2720 is exemplary, and the number of configurations of the partition members may be changed.
  • a light emitting diode 2713 In the case 2711 of the first dividing member 2710, a light emitting diode 2713, an electric supply member 2715, and a control member 2714 are sequentially disposed.
  • a vaporizing member 2730 In the case 2721 of the second dividing member 2720, a vaporizing member 2730, a liquid receiving member 2722, and a lid 2725 are sequentially disposed.
  • case 2711 of the first dividing member 2710 and the case 2721 of the second dividing member 2720 may be defined as a suction device case.
  • the light emitting diode 2713 is electrically connected to the electricity supply member 2715 such that the control member is operated when the suction device 2700 is operated, for example, when the user inhales the suction device 2700. This is a part capable of emitting red light under the control of 2714.
  • the light emitting diode 2713 is formed on the front member 2712 on the front of the case 2711.
  • the electricity supply member 2715 is the light emitting diode 2713, the control member 2714, and the vaporization member 2730 for the suction device, which are the components of the suction device 2700 to allow the suction object to be sucked by the user.
  • a polymer lithium battery or the like can be presented as being capable of supplying electrical energy).
  • the control member 2714 is disposed inside the case 2711 of the first dividing member 2710 and has various circuits required for the operation of the suction device 2700, and the suction device 2700 is provided. To control its operation.
  • the control member 2714 controls the operation of each component of the suction device, such as the light emitting diode 2713 and the vaporization member 2730 for the suction device, according to a detection value transmitted from the static electricity detection sensor 2740. Can be given an operating command.
  • the case 2711 of the first dividing member 2710 and the case 2721 of the second dividing member 2720 are made of a metal material, so that static electricity of the user's body is transmitted by touching the user's hand, mouth, or the like.
  • the static electricity transmitting part forms at least a part of the suction device case, and in this embodiment, the entire suction device case is exemplified as functioning as the static electricity transmitting part.
  • the static electricity detecting sensor 2740 is disposed on the control member 2714, and may sense static electricity transmitted or induced to the static electricity transmitting unit.
  • the control member 2714 may include a printed circuit board, and the static electricity detecting sensor 2740 may be formed on such a printed circuit board.
  • the sensor connection member 2741 connects the static electricity transmitting unit and the static electricity sensing sensor 2740 to transfer the static electricity delivered or induced to the static electricity transmitting unit to the static electricity sensing sensor 2740.
  • the sensor connection member 271 may be made of a conductive material such as metal, conductive silicon, or conductive glass.
  • the suction by the means to the electrostatic detection sensor 2740 is installed inside the suction device case that can detect the transfer of static electricity, the static electricity to be delivered to the static electricity detection sensor 2740 is introduced.
  • the electrostatic transfer part forming all or part of the device case is presented.
  • the static electricity of the user's human body is directly transferred or induced to the electrostatic transfer unit constituting all or part of the suction device case, and is disposed inside the suction device case through the sensor connection member 2741.
  • the static electricity detecting sensor 2740 By being transmitted to and sensed by the static electricity detecting sensor 2740, a touch of a specific part of the user's human body, such as a hand and a mouth, may be sensed. Can be activated to allow the user to inhale the substance to be inhaled. Therefore, since the suction device 2700 can be automatically operated only when the user grabs or bites the suction device case, the suction device 2700 can be operated accurately and simply, and the means for detecting the user's selection The structure can be simplified and the failure rate can be reduced.
  • Reference numeral 2716a denotes a selection member, wherein the selection member 2716a is selected by a user so that the suction member vaporizing member 2730 or the like is operated to perform the operation of allowing the suction apparatus 2700 to suck the suction object. It can be.
  • the selection member 2716a and the electrostatic detection sensor 2740 may be applied together, or only the electrostatic detection sensor 2740 may be applied without the selection member 2716a.
  • Reference numeral 2716b denotes an outside air introduction hole, and the air introduced from the outside through the outside air introduction hole 2716b passes through the case 2711 end portion 2716 of the first dividing member 2710 through the second dividing member 2720. ) May be introduced into the case 2721.
  • the air introduced as described above is mixed with the suction object vaporized while passing through the vaporization member 2730 for the suction device, and an air flow hole 2724 formed in the case 2721 of the second dividing member 2720. Through the suction hole formed in the lid 2725 flows into the user's mouth.
  • the outside air introduced into the distal end 2716 through the outside air introduction hole 2716b is sucked by the user together with nicotine, which is an inhalation gas vaporized by the vaporizing member 2730 for the inhalation device.
  • the vaporizing member 2730 for the suction device receives power from the electric supply member 2715 according to a command of the control member 2714 so that a user can suck the suction object.
  • Inhalation objects such as nicotine liquid supplied from it, can be vaporized.
  • the nicotine liquid which is the suction object delivered from the liquid receiving member 2722 may be vaporized. Nicotine vaporized by the vaporization member 2730 for the inhalation device is mixed with air introduced through the external air introduction hole 2716b, so that the case of the liquid receiving member 2722 and the second dividing member 2720 ( It flows through an air flow hole 2724 formed between 2721 and then flows out of the user's mouth through the lid 2725.
  • the transmitted static electricity is transferred to the static electricity sensing sensor 2740 through the sensor connection member 2741, and the static electricity sensing sensor 2740 senses such static electricity, and the sensing information is transmitted to the control member 2714. Is delivered.
  • the control member 2714 receiving the sensed value transmits an operation command to the light emitting diode 2713 and the vaporizing member 2730 for the suction device, and accordingly the vaporization for the light emitting diode 2713 and the suction device.
  • the member 2730 receives power from the electricity supply member 2715 to emit light and generate heat, and thus nicotine liquid is vaporized to form smoke.
  • the smoke formed as described above is discharged into the user's mouth through the lid 2725 of the second dividing member 2720.
  • the user obtains a feeling similar to the actual smoking.
  • a suction member including a suction member vaporization member and a suction member vaporization member according to another embodiment of the present invention with reference to the drawings.
  • the description overlapping with the contents already described in the twenty-seventh embodiment of the present invention will be replaced with the description thereof, and will be omitted herein.
  • FIG. 44 is a sectional views schematically showing a configuration of a suction device according to a twenty-eighth embodiment of the present invention.
  • the sensor connection members 2841 and 2842 may include a central portion of the suction device case which the user's hand touches when inhaled, a distal end of the suction device case which the user's lips touch when inhaled, and static electricity detection.
  • the sensor 2840 is connected. Then, the static electricity sensor 2840 may sense not only the static electricity delivered from the user's hand but also the static electricity delivered from the user's mouth.
  • the sensor connection member may be connected only to the part of the user's lips in the suction device case.
  • 45 is a cross-sectional view illustrating a sensor connection member applied to a suction device according to a twenty-ninth exemplary embodiment of the present invention.
  • the sensor connection member 2941 has an elastic spring shape. Then, the sensor connection member 2941 does not need to be connected to the suction device case inner surface separately, and the suction device is formed by its elasticity as long as it is disposed between the suction device case inner surface and the static electricity detection sensor 2940 in a compressed state. Since the case may come into contact with the static electricity detecting sensor 2940, the installation thereof may be facilitated.
  • 46 is a schematic cross-sectional view showing a configuration of a suction device according to a thirtieth embodiment of the present invention.
  • the static electricity transmitting units 3041 and 3044 may prevent the static electricity from being transferred to the rest of the suction device case except for the static electricity transmitting units 3041 and 3044. Excluding the electrostatic transfer prevention portion 3050 covering the remaining portion of the suction device case.
  • the static electricity transmitting units 3041 and 3044 may be formed at the central portion and the distal portion of the suction device case.
  • the antistatic transfer part 3050 may be made of a non-conductive material such as rubber, and the like may be applied to the surface of the suction device case, or may be manufactured as a separate member and then inserted into an outer circumferential surface of the suction device case. As such, it may be connected to cover the suction device case.
  • electrostatic transfer preventing unit 3050 As described above, as the electrostatic transfer preventing unit 3050 is applied, electrostatic transfer in other portions other than the electrostatic transfer units 3041 and 3044 may be blocked, so that more accurate electrostatic sensing may be achieved.
  • Fig. 47 is a sectional view schematically showing the construction of a suction device according to a thirty-first embodiment of the present invention.
  • the suction device 3100 includes a proximity sensor 3160.
  • the proximity sensor 3160 is disposed on the lid 3125 and the like to detect the proximity of the distal end of the suction device case and the human body of the user, for example, the user's face.
  • the control member 3114 activates each component of the suction device 3100 according to the detected value, so that the user can inhale the suction. Do it.
  • the operation method of the proximity sensor 3160 various methods may be applied. For example, the following method may be applied.
  • a high frequency oscillation type proximity sensor energy loss occurs due to an electromagnetic induction phenomenon when a detection object, ie, a user's face, approaches a high frequency magnetic field generated by a detection coil.
  • the presence or absence of a detection object is determined using the amount of change in the oscillation amplitude.
  • the proximity sensor using infrared rays which emits infrared rays, receives infrared rays reflected from the detection object, and determines the presence or absence of the detection object.
  • the suction device 3100 may be operated even when the user brings the face closer, so that the user may use the apparatus more easily.
  • FIG. 48 is a perspective view illustrating a state in which the outer skin for the suction device according to the thirty-second embodiment of the present invention is separated from the inhalation device
  • FIG. 49 is a cross-sectional view of the outer skin for the suction device according to the thirty-second embodiment of the present invention
  • 50 is an enlarged view of a portion C shown in FIG. 49
  • FIG. 51 is a cross-sectional view showing a suction device coupled to an outer skin for a suction device according to a thirty-second embodiment of the present invention
  • FIG. 52 is shown in FIG. 51.
  • 53 is an enlarged view of a portion B
  • FIG. 53 is a cross-sectional view showing an inner member protruding to the outside from the outer cover for the suction device according to the thirty-second embodiment of the present invention.
  • the suction device shell 3200 wraps the suction device 10 to allow a user to suck the suction object received therein, the suction device ( It can block the external emission of electromagnetic waves generated in 10).
  • the suction device shell 3200 may surround the suction device 10 to protect the suction device from the outside such as an external shock.
  • the outer shell 3200 for the suction device includes an outer member 3210 which forms an outer surface while surrounding the suction device 10; And an inner member 3220 inserted into the outer member 3210 and interposed between the outer member 3210 and the suction device 10.
  • the suction device 10 includes a liquid receiving member, a vaporizing member, a battery, a circuit board functioning as a controller, and the like by operating the vaporizing member by using electrical energy provided by the battery.
  • the vaporization of the liquid allows the user to inhale the vaporized substance of the liquid to be inhaled.
  • the inhalation device 10 can function as an electronic cigarette.
  • Reference numeral 12 is a front member connected to the front surface of the body 11 of the suction device 10, it may be made of a metallic material, reference number 13 is formed in the center of the front member 12 is the suction device 10 It is a light emitting member capable of emitting light at the time of operation.
  • Reference numeral 14 is an end member connected to a rear surface of the body 11 of the suction device 10 and a user can bite for suction
  • reference number 15 denotes an outside air for introducing outside air into the suction device 10. It is an introduction hall.
  • the vaporization member When the user inhales with the suction device 10, the vaporization member vaporizes the suction target liquid supplied from the liquid receiving member in a manner such as heat generation, and the vaporized material is transferred through the end member 14. While flowing into the mouth of the user, outside air is supplied into the suction device 10 through the outside air introduction hole 15.
  • the outer member 3210 forms an outer surface of the outer shell 3200 for the suction device, and is formed in a shape in which the suction device 3200 may be inserted and wrapped therein.
  • the outer member 3210 also has a cylindrical shape with an empty inside and an open end, but the outer member 3210 ),
  • the inner diameter is larger than the outer diameter of the suction device 10, so that the suction device 10 can be inserted.
  • Reference numeral 111 is an outer light emitting hole formed in an open shape on the front surface of the outer member 3210, and the light generated from the light emitting member 13 of the suction device 10 is directed to the outer light emitting hole 3211. It can spread outside.
  • Reference numeral 112 denotes an opening for introducing external air, and is formed in an open shape at a position corresponding to the outside air introduction hole 15 of the suction device 10, so that outside air may flow into the outside air introduction hole 15.
  • the inner member 3220 is inserted into the outer member 3210 and interposed between the outer member 3210 and the suction device 10.
  • the inner member 3220 is formed to have flexibility such as a fiber woven into a net form, and the distal end of the inner member 3220 and the distal end of the outer member 3210 are connected to each other.
  • An inner front panel 3222 made of plastic, metal, or the like is installed on the front surface of the inner member 3220.
  • An inner light emitting hole 3221 is formed in a central portion of the inner front panel 3222 in an open shape corresponding to the outer light emitting hole 3211 and the light emitting member 13.
  • Reference numeral 123 denotes a permanent magnet installed in the inner front panel 3222.
  • the front member 12 which is the head of the suction device 10
  • the front member 12 and the permanent magnet 3223 are attached to each other so that the head of the suction device 10 is attached.
  • the portion and the inner member 3220 may be connected to each other.
  • the outer member 3210 is made of at least one of synthetic resins such as leather, woven fiber, and plastic, and includes a metal material capable of blocking electromagnetic waves such as copper, or a metal material capable of blocking electromagnetic waves such as copper.
  • the surface of the outer member 3210 may be applied.
  • the inner member 3220 also has flexibility and is made of at least one of synthetic resins such as leather, woven fiber, and plastic, and includes a metal material capable of blocking electromagnetic waves such as copper, or a metal capable of blocking electromagnetic waves such as copper.
  • the surface of the inner member 3220 may be coated with a material.
  • any one of the outer member 3210 and the inner member 3220 may be configured to include a metal material capable of blocking electromagnetic waves, such as copper, both the outer member 3210 and the inner member 3220 It may be configured to include a metallic material.
  • the outer shell 3200 for the suction device is configured to block the electromagnetic waves, so that the electromagnetic wave generated from the suction device 10 inserted into the outer shell 3200 for the suction device does not affect the user.
  • the suction device shell 3200 may be configured to meet the user's needs such as personality and taste of the user, thereby forming a beautiful appearance of the suction device 10.
  • the suction device shell 3200 surrounds the suction device 10 to protect it from the outside, so that the suction device 10 is protected from the outside by absorbing an external shock, and the like. 10) It may not be damaged or damaged.
  • the inhalation device sheath 3200 may surround the inhalation device 10 to be smoothly protected from the outside, and the intake device sheath 3200 may be made of a material having elasticity such as rubber.
  • the outer shell 3200 for the suction device may have a protective function as well as an electromagnetic wave blocking function.
  • the suction device shell 3200 includes the outer member 3210 and the inner member 3220, the suction device 10 can be easily detached from the suction device shell 3200. .
  • a process of coupling the suction device 10 to the intake device 3200 and a process of separating the intake device 10 from the intake device 3200 will be described below.
  • the process of combining the suction device 10 in the outer shell 3200 for the suction device is as follows.
  • the suction device 10 When the suction device 10 is inserted into the inner member 3220 through the open end of the outer shell 3200 for the suction device, the suction device 10 presses the inner member 3220 and the insertion is performed. Will be done.
  • the inner member 3220 faces the suction device 10 in close contact with the suction device 10 or has a gap at a predetermined interval. Is in a form of facing the outer member 3210 in close contact with the gap or at a predetermined interval and is interposed between the outer member 3210 and the suction device 10.
  • the outer light emitting hole 3211, the inner light emitting hole 3221, and the light emitting member 13 correspond to each other, and the open air introduction hole 3212 and the outside air introduction hole 15 also correspond to each other. do.
  • the front member 12 and the permanent magnet 3223 are attached to each other so that the head of the suction device 10 and the inner member 3220 are connected to each other.
  • 51 and 52 illustrate a state in which the suction device 10 is coupled to the suction device shell 3200.
  • the suction device 10 When the user grasps and pulls the distal end of the suction device 10, the suction device 10 gradually exits the outer shell 3200 for the suction device.
  • FIG. 53 illustrates a state in which the suction device 10 is separated from the outer skin 3200 for the suction device.
  • the inner member 3220 is separated from the outer member 3210 in a completely inverted state, and in this state, When the front member 12 and the permanent magnet 3223 are separated by an external force, separation of the suction device 10 is completed.
  • the inner member 3220 Since the inner member 3220 is completely detached from the outer member 3210 in an inverted state as described above, when the front member 12 approaches the permanent magnet 3223, the front member 12 And the permanent magnet 3223 are attached again, and when the user pushes the suction device 10 in this state, the inner member 3220 is brought into a normal state from its head and gradually into the outer member 3210. Can be inserted.
  • the suction device 10 can be easily attached to the suction device shell 3200 capable of blocking electromagnetic waves and creating a beautiful appearance.
  • FIG. 54 is an enlarged cross-sectional view illustrating a portion of an outer skin for an inhalation device according to a thirty-third embodiment of the present invention.
  • the outer member 3310 is made of at least one of synthetic resin such as leather, woven fiber, and plastic, and the outer member 3310 may be formed of a metal layer including a metal material capable of blocking electromagnetic waves such as copper. It consists of interpolated forms.
  • 55 is a perspective view illustrating an unfolded outer sheath for an inhalation device according to a thirty-fourth embodiment of the present invention.
  • an inhalation device sheath 3400 is attached to an outer surface of the inhalation device to enclose the inhalation device.
  • the body 3410 of the outer shell 3400 for the inhalation device is formed in a shape that can be cut and unfolded so that the inhalation device can be placed therein, and the unfolded body 3410 as described above. Both ends 3411 of the body 3410 are coupled to each other in a state where the suction device is placed, such that the outer skin 3400 for the suction device may surround the suction device.
  • Both ends 3413 of the body 3410 may be coupled by various coupling means such as an adhesive, a snap button, and a Velcro fastener.
  • an inner surface of the body 3410 may be coupled to an outer surface of the suction device by an adhesive or the like to surround the suction device.
  • Reference numeral 3414 is a front cover which is connected to the front of the body 3410 and can cover the front of the suction device.
  • the front cover 3414 may also be coupled to the body 3410 by various inserting means.
  • the outer shell 3400 for the suction device may be made of at least one of synthetic resin such as leather, woven fiber, plastic, and may contain a metal material to block electromagnetic waves, and the suction device may be wrapped by wrapping the suction device. Protect from the outside. The same is true in the following embodiments.
  • the suction device shell 3400 may be sold, moved, etc. together with or separately from the suction device.
  • FIG. 56 is a perspective view illustrating a state in which an inhalation device shell and a suction device are connected according to a thirty-fifth embodiment of the present invention.
  • the inhalation device sheath 3500 is formed by coating such as spraying a material constituting the inhalation device sheath 3500, for example a synthetic resin, on the outer surface of the inhalation device. , Wrap the suction device.
  • Fig. 57 is a perspective view showing the outer shell for the suction device according to the 36th embodiment of the present invention.
  • the skin 3600 for the suction device includes a heat radiation hole through which heat generated from the suction device can be radiated to the outside.
  • the sheath 3600 for the suction device is in the form of a mesh for forming the heat radiation holes. That is, the mesh, which is a hole continuously formed in the sheath 3600 for the suction device having the mesh shape, may be the heat radiation hole.
  • the entire intake sheath 3600 is made in the form of a mesh as described above, and at least the mesh in the position corresponding to the portion where the vaporization member, which is the largest heating source, of the intake sheath 3600 is interposed.
  • the suction device can be air cooled.
  • the idea of forming the heat radiation hole may be variously applied to the embodiments, such as the outer member 3210 and the inner member 3220 in the form of a net in the above-described thirty-second embodiment.
  • FIG. 58 is a perspective view showing that the suction device to which the suction device electrical supply unit is applied according to a thirty seventh embodiment of the present invention is separated; 60 is a perspective view showing a state in which the applied suction device is coupled, and FIG. 60 is a view showing a state in which the eyelash goth unit and the suction device electric supply unit connected to the suction device electric supply unit according to the 37th embodiment of the present invention are separated. 61 is a perspective view illustrating a state in which the eyelash goth unit and the suction device electric supply unit connected to the suction device electric supply unit according to the thirty-seventh embodiment of the present invention are coupled, and FIG.
  • FIG. 62 is a thirty-seventh embodiment of the present invention 63 is a cross-sectional view of an inner part of the eyelash goth unit connected to the electricity supply unit for the suction device according to the embodiment, and FIG. A perspective view of the mobile phone connection unit and the electricity supply unit for the inhalation device to be connected to the apparatus electrical supply unit for showing the separated state.
  • the suction device 3700 allows a user to suck the suction object contained therein, and can supply electricity to the components of the suction device 3700.
  • the suction device 3700 is divided into an electrical supply unit 3710 for the suction device and a suction unit 3720.
  • Such member 3710 and 3720 configurations are exemplary, and the number of divided components of the suction device 3700 may be changed.
  • Reference numeral 3750 denotes an eyelash curling unit for curling a user's eyelashes, and the electricity supply unit 3710 for the suction device is connected to the eyelash curling unit 3750 to supply electricity to the eyelash curling unit 3750.
  • Can supply
  • Reference numeral 3760 denotes a mobile phone connection unit, and the mobile phone connection unit 3760 connects the electricity supply unit 3710 for the suction device to a mobile phone (not shown) or a battery charger (not shown) of the mobile phone.
  • the cellular phone battery (not shown) in the cellular phone or the battery charger of the cellular phone is to be charged by electricity supplied from the electricity supply unit 3710 for the suction device.
  • a light emitting diode 3713, a suction device battery 3715, a control member 3714, and a suction detection switch 3718 are sequentially disposed in the case 3711 of the electrical supply unit 3710 for the suction device.
  • the suction device battery 3715 at least some of the light emitting diode 3713, the control member 3714, and the suction detection switch 3718 may be disposed in the suction unit 3720.
  • Reference numeral 3716 denotes an electrical supply unit side connection to which the suction unit 3720, the eyelash god unit 3750, or the cellular phone connection unit 3760 can be selectively connected.
  • a vaporizing member 3725, a liquid receiving member 3726, and a lid 3724 are sequentially disposed.
  • the case 3711 of the electricity supply unit 3710 for the suction device and the case 3721 of the suction unit 3720 may be defined as a suction device case.
  • the light emitting diode 3713 is electrically connected to the suction device battery 3715, and when the suction device 3700 operates, for example, when the user inhales the suction device 3700, the control member This part can emit red light under the control of 3714.
  • the light emitting diode 3713 is formed on the front member 3712 on the front of the case 3711.
  • the suction device battery 3715 is installed in the case 3711, and the electricity supplied from the outside is accumulated to supply electrical energy to the components of the suction device 3700. Batteries and the like can be presented.
  • the suction device battery 3715 may include the light emitting diode 3713 and the control member to allow the suction object to be sucked by the user. 3714) and the vaporization member 3725 to supply electrical energy.
  • the suction device battery 3715 supplies electrical energy to the heat generating member 3859 which will be described later.
  • the control member 3714 is a part in which various circuits required for the operation of the suction device 3700 are formed.
  • the control member 3714 is selected by a selection member (not shown) such as a button installed on the surface of the case 3711 of the electrical supply unit 3710 for the suction device, or transmitted from the suction detection switch 3718. According to the detection value, an operation command for controlling the operation of each component of the suction device such as the light emitting diode 3713, the vaporizing member 3725, and the like may be issued.
  • the suction detection switch 3718 detects the flow of air in the suction detection case, and detects the suction by the user when the user inhales the distal end of the suction unit 3720 by mouth.
  • the control member 3714 When the suction detecting switch 3718 detects a user's suction, the control member 3714 operates the vaporizing member 3725 to vaporize the liquid in the liquid receiving member 3726.
  • Reference numeral 3717 denotes an outside air introduction hole, through which the outside air is introduced into the electrical supply unit side connection part 3716 that constitutes the distal end of the case 3711 of the electricity supply unit 3710 for the suction device. Can be introduced.
  • the air introduced as described above is supplied toward the vaporizing member 3725 through the suction unit air introduction hole 3723 formed on the suction unit protrusion 3722.
  • the suction unit protrusion 3722 protrudes from the case 3721 of the suction unit 3720 to constitute a front portion of the suction unit 3720, and the suction unit 3710 and the suction unit 3710 for the suction device. ) Can be inserted into the electrical supply unit side connection part 3716 for the suction device.
  • the air supplied to the vaporizing member 3725 is mixed with the vaporized suction object while passing through the vaporizing member 3725, and flows through an air flow path formed inside the case 3721 of the suction unit 3720. It is discharged to the user's mouth through the suction hole formed in the lid 3724.
  • the electrical supply unit side connection part 3716 for the suction device When the user inhales, air in the electrical supply unit side connection part 3716 for the suction device flows into the user's mouth through the suction unit 3720, and accordingly, the electrical supply unit side connection part 3716 for the suction device is provided. Negative pressure ) Is formed so that outside air flows into the electrical supply unit side connection part 3716 for the suction device through the outside air introduction hole 3717.
  • the suction detection sensor 3718 may detect a negative pressure formed at the connection part 3716 of the electrical supply unit side for the suction device.
  • the outdoor air introduced into the connection portion 3716 of the electric supply unit side for the suction device through the external air introduction hole 3717 is supplied to the user together with nicotine, which is the inhalation target gas vaporized by the vaporizing member 3725. Is inhaled.
  • the vaporization member 3725 may vaporize a vaporization object such as nicotine liquid supplied from the liquid receiving member 3726 by receiving power from the suction device battery 3715 according to the command of the control member 3714. .
  • the vaporizing member 3725 may be a method of vaporizing the vaporized object by heat generation such as nichrome wire or a method of vaporizing the vaporized object by using an ultrasonic wave or a high frequency wave.
  • a variable resistor may be applied to the vaporizing member 3725.
  • the nicotine liquid delivered from the liquid receiving member 3726 may be vaporized. Nicotine vaporized by the vaporizing member 3725 is mixed with air introduced through the external air introduction hole 3713, and is formed between the liquid receiving member 3726 and the case 3721 of the suction unit 3720. It flows through the air flow path and then flows out through the lid 3724 to the user's mouth.
  • the liquid accommodating member 3726 has a nicotine liquid contained therein as a liquid, and delivers the nicotine liquid contained therein to the vaporizing member 3725.
  • Reference numeral 3719 denotes a pair of electrical supply unit side electrodes formed at the electrical supply unit side connection part 3716 for the suction device, and the electrical supply unit side electrode 3719 for the suction device is connected to the suction device battery 3715. It is connected to enable electricity.
  • Reference numeral 3727 denotes a pair of suction unit side electrodes formed on the suction unit protrusion 3722, and the suction unit side electrode 3743 is electrically connected to the vaporizing member 3725.
  • the suction unit protrusion 3722 When the suction unit protrusion 3722 is inserted into the electric supply unit side connection part 3716 for the suction device, the electric supply unit side electrode 3719 for the suction device and the suction unit side electrode 3727 are capable of energizing each other. And the suction device battery 3715 and the vaporizing member 3725 are electrically connected.
  • the eyelash curler unit 3750 is connected to the electrical supply unit 3710 for the suction device, and is supplied with electricity from the electrical supply unit 3710 for the suction device to curl the eyelashes of the user.
  • the eyelash curler unit 3750 includes an eyelash curler unit body 3701, an eyelash curler unit side connection part 3702, a curling part 3755, a heat generating member 3959, and a protrusion 3575.
  • the eyelash curler unit 3741 may include a circuit for operating the eyelash curler unit 3750 and a safety circuit for limiting a heat generation temperature of the heat generating member 3959 to a preset temperature or less.
  • the eyelash goth unit side connection part 3702 protrudes from the eyelash goth unit body 3701 and is inserted into the electrical supply unit side connection part 3716 for the suction device, thereby inserting the eyelash goth unit body 3701 for the suction device. It can be connected to the electrical supply unit 3710.
  • the eyelash goth unit side connection part 3754 is connected to the eyelash goth unit side electrode 3754 so as to receive electricity from the electricity supply unit 3710 for the suction device. Is placed.
  • the eyelash curler unit side electrode 3754 is connected to the heat generating member 3759.
  • the curling part 3753 extends from the eyelash curler unit body 3701 in a different direction from the eyelash curler unit side connection part 3702, and the heating member 3959 is installed therein.
  • the heat generating member 3959 is disposed inside the curling unit 3753, and may generate heat by electricity supplied from the electricity supply unit 3710 for the suction device, and a nichrome wire may be provided.
  • the heat generating member 3959 may be disposed to intensively heat the lower portion of the protrusion 3703.
  • the heat generating member 3959 may generate heat without a separate switch or the like.
  • the protrusions 3757 protrude from the curling portion 3753 in the form of protrusions protruding from the curling portion 3753 at predetermined heights.
  • the skin is in contact with the protrusion 3575, and accordingly, a predetermined distance may be maintained between the curling portion 3755 and the user's skin, and thus, the heating member 3703 is disposed below the protrusion 3735. Do not burn the user's skin.
  • a user's eyelashes may be located between a plurality of the protrusions 3757 and curled, i.e., curled, by the heating member 3759.
  • Reference numeral 3758 denotes a heat transfer part such as a metal disposed between the plurality of protrusions 3575, and the heat of the heat generating member 3859 may be transmitted to the eyelashes of the user through the heat transfer part 3758. .
  • Reference numeral 3755 denotes a lamp such as an LED indicating whether the eyelash Godde unit 3750 is operated
  • reference numeral 156 denotes a strength adjusting member for controlling the intensity of the eyelash curler in multiple stages.
  • the intensity adjusting member 3756 adjusts the intensity of curling the user's eyelashes in multiple stages by adjusting a current value, a voltage value, and the like of the electric energy supplied to the heat generating member 3759.
  • FIG. 62 and the like are exemplarily shown to be adjusted in two stages of the high stage HI and the low stage LO by the strength adjusting member 3756, but may be adjusted to various stage numbers. Of course.
  • the cellular phone connection unit 3760 protrudes from the cellular phone connection unit body 3761 and the cellular phone connection unit body 3761 can be inserted into the electrical supply unit side connection part 3716 for the suction device.
  • a mobile phone connection unit side electrode 3764 formed on a connection unit side connection part 3762 and the mobile phone connection unit side connection part 3762 and capable of energizing the electric supply unit side electrode 3719 for the suction device;
  • a cellular phone connection part 3763 extending from the cellular phone connection unit body 3761 in a different direction from the cellular phone connection unit side connection part 3762 to be connected to the cellular phone or a battery charger of the cellular phone.
  • Electricity of the electricity supply unit 3710 for the suction device is supplied to the mobile phone or the mobile phone battery in the battery charger of the mobile phone through the mobile phone connection unit 3760, so that the mobile phone battery can be charged. .
  • the suction detection switch 3718 detects this. Then, the detected value is transmitted to the control member 3714.
  • the air inside the suction unit 3720 case 3721 flows into the user's mouth, and the air in the electrical supply unit side connection part 3716 for the suction device is sequentially leaked.
  • a negative pressure is formed in the electrical supply unit side connection part 3716 for the suction device.
  • a small amount of air continuously flows through the outside air inlet hole 3713, so that a negative pressure is continuously formed in the electrical supply unit side connection part 3716 for the suction device during the suction process of the user.
  • the suction detection switch 3718 detects whether the user is suctioned.
  • the control member 3714 receiving the sensed value transmits an operation command to the light emitting diode 3713 and the vaporizing member 3725, and thus the light emitting diode 3713 and the vaporizing member 3725 are configured to
  • the suction device battery 3715 receives electricity to emit light and generate heat, respectively.
  • the user gets a feeling similar to the actual smoking.
  • the heat generating member 3959 receives electricity from the suction device battery 3715 and generates heat. Then, the user may curl the eyelashes of the user by holding the combination of the electricity supply unit 3710 for the suction device and the eyelash god unit 3750.
  • the mobile phone connection unit 3760 is connected to the electricity supply unit 3710 for the suction device, the electricity of the suction device battery 3715 is supplied to the mobile phone or the mobile device through the mobile phone connection unit 3760. Supplied to the mobile phone battery in the battery charger of the mobile phone, the mobile phone battery can be charged.
  • the eyelash god unit 3750 and the mobile phone connection unit 3760 may be selectively connected to the electric supply unit 3710 for the suction device.
  • the 3700 can implement an additional function of eyelash hooking, mobile phone battery charging, in addition to its inherent function of inhalation of an inhalation object.
  • the eyelash Godde unit 3750 can be operated by connecting to the suction unit electric supply unit 3710, which is easy to carry, without the inconvenience of carrying and connecting a separate battery, Can be.
  • FIG. 64 is a sectional view of an electricity supply unit for a suction device according to a thirty eighth embodiment of the present invention.
  • the suction device electric supply unit 3810 includes the suction device electric supply unit case 3811, the suction device battery 3815, and the suction device electric supply unit case (
  • the suction device electrical supply unit 3810 which is disposed at 3811 and is electrically connected to the suction device battery 3815 and which can curl the eyelashes of the user, includes an eye supply unit 3810.
  • an eye supply unit 3810 In addition to the electrical supply function for the back, it is possible to implement the eyelash Godde function itself.
  • the suction device battery 3815 is installed in the electrical supply unit case 3811 for the suction device, and the eyelash curler member 3850 is installed at the front side of the electrical supply unit case 3811 for the suction device. do.
  • the eyelash curler member 3850 is installed in the eyelash booth member case 3851 connected to the electrical supply unit case 3811 for the suction device, and the eyelash booth member case 3851 and is connected to the suction device battery 3815. Between the energized heat generating member 3852, a plurality of protrusions 3853 projecting a predetermined height from the electricity supply unit case 3811 for the suction device above the heat generating member 3852, and the plurality of protrusions 3853. And a heat transfer part 3854 disposed in the.
  • the eyelashes of the user can be curled only by the electricity supply unit 3810 for the inhalation device itself, without the need to connect a separate member or unit, it can provide convenience to the user.
  • Inhalation device and the contamination detection sensor member, suction detection sensor, selection member, vaporization member, the outer shell for the suction device, the electrical supply unit for the suction device, the electrical supply unit for the suction device applied to the suction device
  • the eyelash goth unit connected to the mobile phone connection unit connected to the electrical supply unit for the suction device, it is possible to detect the degree of contamination inside and outside the suction device, the industrial use is high.

Abstract

La présente invention concerne un dispositif d'aspiration, un élément de détection de contamination appliqué au dispositif d'aspiration, un capteur d'aspiration, un élément de sélection, un élément d'évaporation, un boîtier externe pour le dispositif d'aspiration, une unité pour fournir de l'électricité au dispositif d'aspiration, une unité courbure-cils connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration, et une unité de connexion de téléphone portable connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration. Le dispositif d'aspiration permet à l'utilisateur d'aspirer un objet à aspirer qui est reçu dans celui-ci. Le dispositif d'aspiration comprend un boîtier de dispositif d'aspiration et un élément pour détecter le degré de contamination à l'intérieur du boîtier de dispositif d'aspiration. Conformément au dispositif d'aspiration, lorsque l'utilisateur reconnaît un boîtier dans lequel l'intérieur et l'extérieur du dispositif d'aspiration sont contaminés, l'utilisateur peut arrêter de faire fonctionner le dispositif d'aspiration. Par conséquent, des contaminants sur l'intérieur et l'extérieur du dispositif d'aspiration peuvent être empêchés d'être introduits dans le corps de l'utilisateur, empêchant ainsi les effets négatifs sur la santé de l'utilisateur.
PCT/KR2012/002138 2011-03-25 2012-03-24 Dispositif d'aspiration, élément de détection de contamination appliqué au dispositif d'aspiration, capteur d'aspiration, élément de sélection, élément d'évaporation, boîtier externe pour le dispositif d'aspiration, unité pour apporter de l'électricité au dispositif d'aspiration, unité recourbe-cils connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration, et unité de connexion de téléphone portable connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration WO2012134117A2 (fr)

Applications Claiming Priority (14)

Application Number Priority Date Filing Date Title
KR10-2011-0027232 2011-03-25
KR1020110027232A KR101296158B1 (ko) 2011-03-25 2011-03-25 흡입 장치 및 상기 흡입 장치에 적용되는 오염 감지 센서 부재
KR10-2011-0045974 2011-05-16
KR1020110045974A KR20120128060A (ko) 2011-05-16 2011-05-16 흡입 장치 및 상기 흡입 장치에 적용되는 흡입 감지 센서, 선택 부재 및 기화 부재
KR20-2011-0004478 2011-05-23
KR20-2011-0004479 2011-05-23
KR2020110004479U KR200469318Y1 (ko) 2011-05-23 2011-05-23 흡입 장치
KR2020110004478U KR20120008252U (ko) 2011-05-23 2011-05-23 흡입 장치용 기화 부재 및 상기 흡입 장치용 기화 부재를 포함하는 흡입 장치
KR20-2011-0007339 2011-08-12
KR2020110007339U KR20130001202U (ko) 2011-08-12 2011-08-12 흡입 장치용 외피
KR1020110093132A KR20130029697A (ko) 2011-09-15 2011-09-15 기화 흡입 장치 및 상기 기화 흡입 장치에 적용되는 기화 부재
KR10-2011-0093132 2011-09-15
KR20-2011-0008988 2011-10-07
KR2020110008988U KR20130002328U (ko) 2011-10-07 2011-10-07 흡입 장치용 전기 공급 유닛, 상기 흡입 장치용 전기 공급 유닛에 연결되는 속눈썹 고데 유닛 및 상기 흡입 장치용 전기 공급 유닛에 연결되는 휴대 전화 연결 유닛

Publications (2)

Publication Number Publication Date
WO2012134117A2 true WO2012134117A2 (fr) 2012-10-04
WO2012134117A3 WO2012134117A3 (fr) 2013-03-21

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PCT/KR2012/002138 WO2012134117A2 (fr) 2011-03-25 2012-03-24 Dispositif d'aspiration, élément de détection de contamination appliqué au dispositif d'aspiration, capteur d'aspiration, élément de sélection, élément d'évaporation, boîtier externe pour le dispositif d'aspiration, unité pour apporter de l'électricité au dispositif d'aspiration, unité recourbe-cils connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration, et unité de connexion de téléphone portable connectée à l'unité pour fournir de l'électricité au dispositif d'aspiration

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WO (1) WO2012134117A2 (fr)

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