KR102209440B1 - Inductively heatable vaporization device - Google Patents

Abstract

The present invention, an AC power generation unit for converting and supplying DC power to AC; A vaporization unit for vaporizing the liquid phase using heat generated in the coating part of the cartridge containing the liquid phase according to electromagnetic induction due to the alternating current generated by the AC power generator; And a control unit for controlling an operation of the vaporization unit through control of the AC power generation unit. According to the present invention, low power consumption can be maintained by indirectly heating the liquid phase in the replaceable cartridge using electromagnetic induction.

Description

Induction heating type vaporization device {INDUCTIVELY HEATABLE VAPORIZATION DEVICE}

The present invention relates to an induction heating type vaporization device, and more particularly, to an electronic cigarette inhaling an aerosol generated by vaporizing a liquid phase in a cartridge using induction heating while using an exchangeable cartridge method.

Electronic cigarettes are an alternative to smoking cigarettes such as cigarettes, cigarettes, pipe tobacco, and so-called tobacco, and are electronic devices made to inhale liquids in a vapor state.

In recent years, the market share of cigarette type electronic cigarettes in intermediate form between tobacco and electronic cigarettes is gradually increasing. Cigarette-type electronic cigarettes (heat-not-burn tobacco products) generate heat at a level that does not burn tobacco leaves, about 350 degrees, using the battery, and the heat is used to heat tobacco leaves in the form of aerosol, not smoke. It is a tobacco product designed to inhale the nicotine in the body.

The difference between an electronic cigarette and a cigarette-type electronic cigarette is whether a liquid containing nicotine or a conventional cigarette-type cigarette is used as a heated material that applies heat.

Conversely, the electronic cigarette and the cigarette type electronic cigarette use a method of directly heating the object to be heated using a heating element, that is, a heating element of a resistance component as a common point. The disadvantage of the direct heating method is that there is a hassle to replace the coil of the resistance component that has reached the end of its life, and the heating element of the cigarette-type electronic cigarette requires periodic cleaning due to cigarette debris. And above all, there is a drawback of high battery consumption due to low thermal efficiency.

The induction heating type vaporization device according to an embodiment of the present invention deviates from a direct heating method that directly uses a heating element of a resistance component, uses an induction heating method with high thermal efficiency, and deviates from a method of filling and using an existing empty cartridge, and cartridge replacement It is characterized by using the method. In this respect, the induction heating type vaporization device according to an embodiment of the present invention is distinguished from the above-described prior art and is disclosed to solve the problems of the prior art.

Korean Patent Application Publication No. 10-2016-0102293 (2016.08.29.)

The problem to be solved by the present invention is to provide an induction heating type vaporization device for indirectly heating a liquid phase in a replaceable cartridge using electromagnetic induction.

Another problem to be solved by the present invention is to provide an induction heating type vaporization device capable of automatically recognizing the type of cartridge replaced in the replaceable cartridge method and controlling the heating temperature optimized for the corresponding cartridge.

An induction heating type vaporization device according to an embodiment of the present invention includes an AC power generating unit for converting and supplying DC power to AC; A vaporization unit for vaporizing the liquid phase using heat generated in the coating part of the cartridge containing the liquid phase according to the electromagnetic induced current generated by flowing the AC generated by the AC power generator through the coil; And a control unit for controlling an operation of the vaporization unit through control of the AC power generation unit.

Here, when the cartridge is in an induction heating position in the vaporization unit, further comprising an RFID recognition unit for recognizing an RFID tag included in the cartridge, and the control unit, through the RFID tag recognition, It is characterized by recognizing the type of liquid contained.

Here, the control unit may determine a temperature profile of generated heat according to the recognized type of the cartridge or liquid phase.

Here, the induction heating type vaporization device further includes a current/voltage measuring unit for measuring a current value and a voltage value input to electromagnetic induction, and the control unit includes the current value and voltage according to the recognized type of the cartridge or liquid phase. It is characterized in that controlling the AC power generator by receiving a feedback value.

Here, the induction heating type vaporization device further includes a temperature measuring unit that measures the heat, and the control unit controls the generation of the heat so that the temperature of the generated heat can maintain a predetermined temperature profile.

Here, the control unit may control an output of the AC power generator using at least one of the frequency, duty, and amplitude.

Here, the cartridge, containing a liquid, a liquid capsule of a mixed acrylic material; And a coating part made of a heating conductor material coated on the surface of the liquid capsule.

Here, the coating part is characterized in that it occupies all or part of the surface of the liquid capsule.

According to the present invention, low power consumption can be maintained by indirectly heating the liquid phase in the replaceable cartridge using electromagnetic induction.

In addition, by automatically recognizing the type of cartridge replaced in the replaceable cartridge method, it is possible to control the heating temperature optimized for the cartridge.

In addition, it is possible to determine various optimal heating conditions rather than a fixed heating condition through RFID tag recognition of the liquid capsule.

In addition, since an indirect heating method called induction heating is used, the heating unit and the heated unit can be separated, and the structure design of the heating unit is easy.

1 is an exemplary diagram for explaining an induction heating method.
2 is a block diagram of an induction heating type vaporization device according to an embodiment of the present invention.
3 is an exemplary view of a replaceable cartridge used in an induction heating type vaporizing device according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of an induction heating type vaporizing device will be described in detail with reference to the accompanying drawings.

The same reference numerals in each drawing indicate the same member. In addition, specific structural or functional descriptions of the embodiments of the present invention are exemplified only for the purpose of describing the embodiments according to the present invention, and unless otherwise defined, all of the technical and scientific terms used herein The terms have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this specification. It is desirable not to.

Usually, when heating an object to be heated, there must be a fire and a medium to transmit the heat. Alternatively, the object to be heated can be heated by thermal radiation.

Induction heating (誘導加熱, induction heating) is a method of heating a metal object using electromagnetic induction. When current is supplied to the coil, eddy currents are generated in the metal to be heated, and joule heating generated by the resistance of the metal increases the temperature. The structure of the induction heater is composed of a coil wound like a combination of one or two electromagnets, and high-frequency alternating current flows through the coil. Hysteresis loss is also one of the causes of increasing the temperature of the metal.

By using induction heating, an electromagnetic field can be applied to a metal body (object to be heated) with high efficiency, so that energy can be converted into thermal energy with high efficiency. In addition, since it does not pass through a medium, a large amount of energy can be administered to the object to be heated in a short time, so that a large amount of the object to be heated can be heated in a quick heating time. Induction heating is another word called induction.

1 is an exemplary diagram for explaining an induction heating method.

Referring to FIG. 1, when a high-frequency alternating current, whose size and polarity changes over time due to Faraday's electromagnetic induction, flows through an induction coil, a magnetic field of high-frequency magnetic flux is formed inside the coil, and an induced current flows through the object to be heated due to the influence of the magnetic field. , In accordance with Ohm's Law, the object to be heated is heated by the resistance component of the object to be heated.

In the present invention, the object to be heated corresponds to a liquid capsule. According to an embodiment of the present invention, when AC power having a predetermined frequency is applied to the coil, a magnetic field is generated around the coil by the AC current, thereby generating an induced current in the coating portion of the conductive material on the surface of the liquid capsule inside the coil. In this case, when a resistive component is present in the coating part of the conductor material, heat is generated and the liquid material inside the capsule is heated to generate an aerosol containing inhalable nicotine.

2 is a block diagram of an induction heating type vaporization device according to an embodiment of the present invention.

Referring to Figure 2, the induction heating type vaporization device 100 according to an embodiment of the present invention, DC power supply 110, AC power generation unit 120, vaporization unit 130, cartridge 140, current / A voltage measurement unit 151, a temperature measurement unit 152, an RFID recognition unit 153, and a control unit 160 are included.

The DC power supply 110 serves to supply a DC voltage and a DC current to an AC power generator. The DC power supply 110 may be changed and implemented to output a desired voltage using various types, for example, secondary batteries such as lithium ion batteries and voltage changing components.

The AC power generation unit 120 converts DC power into AC, and serves to supply the converted AC power to the vaporization unit 130. The AC power generator 120 may be implemented in the form of an inverter according to a combination of semiconductor switches without a large space.

The vaporization unit 130 serves to vaporize the liquid phase through induction heating using the AC power supplied from the AC power generation unit 120. That is, the vaporization unit 130 vaporizes the liquid phase by using heat generated in the coating part 141 of the cartridge 140 containing the liquid phase according to electromagnetic induction due to the alternating current generated by the AC power generation unit 130.

The cartridge 140 may be inserted into the coil of the vaporization unit 130 in the direction of the arrow. That is, the cartridge 140 can be replaced.

The cartridge 140 includes a liquid capsule 141 containing a liquid and a coating portion 142 made of a heating conductor material coated on the surface of the liquid capsule.

The liquid capsule 141 may be made of a mixed acrylic material.

The coating part 142 is a heating element coated on the surface of the liquid capsule 141. The material of the coating part 142 is a conductor, and may be implemented using a metal of a material having high thermal conductivity such as platinum, enamel, or carbon.

3 is an exemplary view of a replaceable cartridge used in an induction heating type vaporizing device according to an embodiment of the present invention.

Referring to FIG. 3, a coating part 142 that is a conductor in various forms may be formed on the surface of the liquid capsule 141. For example, the shape of the coating unit 142 may be designed differently depending on the type of liquid material, spices contained in the liquid, and heating efficiency.

That is, the coating part 142 is characterized in that it occupies all or part of the surface of the liquid capsule 141.

The current/voltage measurement unit 151 serves to measure current and voltage values input to the vaporization unit 130. The measured current value and voltage value are fed back to the controller 160.

The temperature measuring unit 152 serves to measure the temperature of the coating unit 142 on the surface of the cartridge 140 inserted into the coil. The measured temperature value is fed back to the controller 160.

The RFID recognition unit 153 recognizes an RFID tag included in the cartridge 140 inserted into the coil. Here, the RFID tag includes at least one of cartridge information and liquid capsule information. Accordingly, it is possible to detect what kind of cartridge containing liquid capsules are inserted through RFID tag recognition.

The control unit 160 serves to control the operation of the vaporizer 130 through the control of the AC power generation unit 120. In particular, the controller 160 controls the AC power generator 120 by receiving feedback from at least one of a current value and a voltage value from the current/voltage measuring unit 151.

In particular, the control unit 160 is characterized in that it controls the output of the AC power generation unit 120 by using at least one of a frequency (frequency), duty (duty) and amplitude (amplitude).

In addition, when the cartridge 140 is in the induction heating position in the vaporization unit 130, the RFID recognition unit 153 recognizes the RFID tag included in the cartridge 140, and the control unit 160 recognizes the RFID tag. Through this, the type of cartridge or the type of liquid contained in the cartridge can be recognized.

The heating temperature profile is set differently depending on the liquid material and the type of spices contained in the liquid. Therefore, the controller 160 determines the temperature profile of the cartridge through the RFID tag recognition of the RFID recognition unit 153, and accordingly, the liquid capsule 141 is applied to the coating unit 142 through the control of the AC power generator 120 Adjusts the intensity of heat heated by

That is, the controller 160 controls the generation of heat according to the recognized cartridge 140 or the type of liquid.

As described above, according to an embodiment of the present invention, low power consumption can be maintained by indirectly heating the liquid phase in the replaceable cartridge using electromagnetic induction.

In addition, by automatically recognizing the type of cartridge replaced in the replaceable cartridge method, it is possible to control the heating temperature optimized for the cartridge.

In addition, by recognizing the RFID tag of the liquid capsule, it is possible to generate an aerosol under various optimal heating conditions rather than a fixed heating condition.

In addition, since an indirect heating method called induction heating is used, the heating unit and the heated unit can be separated, and the structure design of the heating unit is easy.

The above description of the present invention is for illustrative purposes only, and those of ordinary skill in the art to which the present invention pertains will be able to understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative and non-limiting in all respects. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention do.

100: induction heating type vaporization device
110: DC power
120: AC power generation unit
130: vaporizer
140: cartridge
141: liquid capsule
142: coating part
151: current/voltage measuring unit
152: temperature measuring unit
153: RFID recognition unit
160: control unit

Claims (8)

AC power generation unit for converting and supplying DC power to AC;
A vaporization unit provided in a coil shape and receiving AC power from the AC power generation unit;
A control unit for controlling an operation of the vaporization unit through control of the AC power generation unit; And
It includes a liquid capsule made of mixed acrylic material containing the liquid inside and a coating part made of a conductor material that is coated on the surface of the liquid capsule and contains a resistance component against an induced current, and can be replaced at an induction heating position inside the coil of the vaporizer. Includes; cartridge to be inserted,
When AC power is supplied to the vaporization unit, the coating unit of the cartridge located at the induction heating position generates heat by the electromagnetic induction principle, and the liquid contained in the liquid capsule is vaporized by the heat generated by the coating unit Induction heating type vaporization device characterized in that. The method according to claim 1,
When the cartridge is in the induction heating position in the vaporization unit, further comprising an RFID recognition unit for recognizing the RFID tag included in the cartridge,
The control unit,
The induction heating type vaporization device, characterized in that through the RFID tag recognition, the type of the cartridge or the type of the liquid contained therein is recognized and a heating temperature profile is determined. The method according to claim 2,
Further comprising a current / voltage measuring unit for measuring the current value and voltage value input to the electromagnetic induction,
The control unit,
According to the recognized type of the cartridge or liquid phase, the induction heating type vaporization device, characterized in that for controlling the AC power generation unit by receiving feedback of the current value and voltage value. The method according to claim 2,
Further comprising a temperature measuring unit for measuring the heat,
The control unit,
The induction heating type vaporization device, characterized in that the generation of the heat is controlled according to a heating temperature profile determined by the recognized type of the cartridge or liquid phase. The method according to claim 1,
The control unit,
An induction heating type vaporization device, characterized in that the output of the AC power generator is controlled using at least one of frequency, duty, and amplitude. delete The method according to claim 1,
The coating part,
Induction heating type vaporization device, characterized in that occupies all or part of the liquid capsule surface. The method according to claim 2,
The control unit,
An induction heating type vaporization device, characterized in that the temperature profile of heat to be generated is determined according to the recognized type of the cartridge or liquid phase.

Images