KR20230052172A - Metal fiber plane heater for aerosol generator - Google Patents

Abstract

The present invention relates to a metal fiber planar heater for an aerosol generator.
The present invention relates to a planar heating heater for an aerosol generator for directly or indirectly heating an aerosol-generating region where an aerosol-generating substrate is heated and aerosol is generated, in which two or more metal fiber yarns are woven, and the metal fiber generates heat by applying power. surface heating element; It provides a metal fiber planar heating heater for an aerosol generator, characterized in that it comprises; and an electrode for applying power from the battery to the metal fiber planar heating heater.

Description

Metal fiber surface heating heater for aerosol generator {METAL FIBER PLANE HEATER FOR AEROSOL GENERATOR}

The present invention relates to a metal fiber surface heating heater for an aerosol generator.

Recently, various types of aerosol generators capable of improving side effects that may occur during cigarette smoking have been developed. These aerosol generators are largely divided into a type that generates aerosol by compressing tobacco leaves and heating a cigarette wrapped in paper together with a filter, and a liquid type that generates aerosol by vaporizing a liquid filled in a liquid type cartridge.

In case of the liquid type, there are some aerosol generators that generate aerosols using ultrasonic vibrators, but most of the aerosol generators are provided with a cigarette or a heater for heating the liquid.

An aerosol generating device with a heater includes a battery, a control circuit, and an electric heater. The electric heating type heater heats the aerosol-forming substrate to generate aerosol. If the aerosol-forming substrate does not receive heat evenly, there may be problems in aerosol generation, such as soot generation or an insufficient amount of aerosol generation.

A heating element that converts electrical energy into thermal energy generally includes a linear heating element made of metal or ceramic wire, a planar heating element using a polymer film, a carbon-based heating element, a silver nano heating element, and the like. The linear heating element has a problem of severe temperature deviation by zone depending on the spacing of the heating wire, and the planar heating element using a polymer film, carbon-based heating element, and silver nano heating element has a low limit temperature and is not suitable for an aerosol generating device.

In order to evenly transfer heat to the aerosol-forming substrate, the development of a new technology using a planar heating element is required.

Republic of Korea Patent Publication No. 10-2021-0007536

An object of the present invention is to provide a metal fiber planar heating heater for an aerosol generator capable of evenly transferring heat to an aerosol-forming substrate, including a planar heating heater manufactured by weaving metal fibers.

The present invention relates to a planar heating heater for an aerosol generator for directly or indirectly heating an aerosol-generating region where an aerosol-generating substrate is heated and aerosol is generated, in which two or more metal fiber yarns are woven, and the metal fiber generates heat by applying power. surface heating element; It provides a metal fiber planar heating heater for an aerosol generator, characterized in that it comprises; and an electrode for applying power from the battery to the metal fiber planar heating heater.

In addition, as another example of the present invention, the planar heating element provides a metal fiber planar heating heater for an aerosol generator, characterized in that the metal yarn is woven by crossing the weft and the warp, and the warp is connected to the electrode.

In addition, as another example of the present invention, the planar heating element provides a metal fiber planar heating heater for an aerosol generating device, characterized in that installed in a form surrounding the aerosol generating area.

In addition, as another example of the present invention, the planar heating element is located upstream of the aerosol generating zone, and the planar heating element provides a metal fiber planar heating heater for an aerosol generating device, characterized in that for heating air introduced into the heating zone.

In addition, as another example of the present invention, the planar heating element provides a metal fiber planar heating heater for an aerosol generator, characterized in that disposed perpendicular to the flow of air.

In addition, as another example of the present invention, the metal fiber planar heating element provides a metal fiber planar heating heater for an aerosol generator, characterized in that it is braided and woven in a cylindrical shape.

In addition, as another example of the present invention, a metal fiber planar heating heater for an aerosol generator, characterized in that it further comprises; a cylindrical metal pipe inserted inside the cylindrical metal fiber planar heating element and heated by the planar heating element.

In addition, as another example of the present invention, there is provided a metal fiber planar heating heater for an aerosol generator, characterized in that it further comprises; a moisture absorber inserted inside the planar heating element and heated by the planar heating element.

In addition, as another example of the present invention, the planar heating element and the electrode provide a metal fiber planar heating heater for an aerosol generator, characterized in that bonded to a porous ceramic.

In addition, as another example of the present invention, the metal fiber is made of an electrically conductive metal and provides a metal fiber surface heating heater for an aerosol generator, characterized in that an insulating coating is formed on the surface.

The metal fiber planar heating heater for an aerosol generating device provided by the present invention can evenly transfer heat to an aerosol generating substrate compared to a linear heating element, thereby reducing the temperature deviation of each zone of the aerosol generating substrate and reducing soot.

1 is a view schematically showing the principle of a metal fiber surface heating heater;
2 is a view showing a metal fiber surface heating heater for an aerosol generator according to a first embodiment of the present invention;
3 is a view showing an example of a weaving method for manufacturing a metal fiber surface heating heater for an aerosol generator according to a first embodiment of the present invention;
4 is a view showing a metal fiber surface heating heater and a heating region for an aerosol generator according to a second embodiment of the present invention;
5 is a view showing a metal fiber surface heating heater for an aerosol generator according to a second embodiment of the present invention;
6 is a view showing a metal fiber surface heating heater for an aerosol generator according to a third embodiment of the present invention;
7 is a view showing the bottom surface of a metal fiber planar heating heater for an aerosol generator according to a third embodiment of the present invention;
8 is a view showing a metal fiber surface heating heater for an aerosol generator according to a fourth embodiment of the present invention.

1 is a diagram schematically illustrating the principle of a metal fiber surface heating heater. A metal fiber surface heating heater is a heater in the form of a fabric in which two or more metal fibers made of the same component are woven. The weaving method may be made by any method such as weaving or braiding, and it may be woven in a less efficient but knitting method. In FIG. 1, a surface heating heater in which metal fibers are woven in a knitted form is taken as an example. The metal fiber planar heating heater 100 is woven by crossing a plurality of weft yarns 120 with a shift in the front and back of a plurality of warp yarns 110, and electrodes 130 are bonded to both ends of all warp yarns 110. Therefore, all the slopes are connected in parallel to the anode of the electrode 130. The material of the metal fiber is preferably SUS316L, and the electrode 130 is made of nickel (Ni). At this time, both the warp yarn 110 and the weft yarn 120, which are metal fibers constituting the surface heating heater, are made of electrically conductive metal, and an insulating coating is formed on the surface. The junction of the electrode 130 and the slope 110 is made through electric resistance welding (Spot Welding).

Figure 2 is a view showing a metal fiber planar heating heater for an aerosol generating device according to a first embodiment of the present invention, Figure 3 is a view showing a metal fiber planar heating heater for an aerosol generating device according to a first embodiment of the present invention It is a drawing showing an example of a weaving method for.

In the metal fiber planar heating heater for an aerosol generating device according to the first embodiment, a cylindrical aerosol generating zone is formed inside the cylindrical planar heating element 100a. At this time, the aerosol generation zone may be provided with a cylindrical metal pipe 200 heated by the planar heating element 100a. At this time, the metal pipe 200 is preferably made of SUS material. An aerosol-generating substrate such as a cigarette may be accommodated and heated in the cavity 210 inside the metal pipe 200 . At this time, the planar heating element 100a may be woven in a weaving method as shown in FIG. 1 and then attached or installed to surround the outer circumferential surface of the metal pipe 200, but as shown in FIG. 3, the outer circumference of the metal pipe 200 Weaving and installation may be performed at the same time while braiding.

4 is a view showing a metal fiber surface heating heater for an aerosol generator according to a second embodiment of the present invention and a heating region, and FIG. 5 is a metal fiber surface heating heater for an aerosol generator according to a second embodiment of the present invention. It is a drawing showing

In the metal fiber planar heating heater for an aerosol generating device according to the second embodiment of the present invention, the aerosol generating zone 300 and the planar heating element 100b are separately installed. An aerosol generating substrate T in the form of a cigarette or liquid is accommodated in the aerosol generating zone 300 . The planar heating element 100a heats the air passing through the planar heating element 100a, and the heated air flows into the aerosol generating zone 300 to heat the aerosol generating substrate T accommodated in the aerosol generating zone 300 so that the user aerosolized in inhalable form.

At this time, the planar heating element 100b is located upstream of the aerosol generating zone 300, and the air heated by the planar heating element 100b is introduced into the aerosol generating zone 300 through the air flow passage 310. At this time, it is preferable that the planar heating element (100b) is installed so as to be orthogonal to the airflow passage 310 so as to maximize the amount of heating.

At this time, the planar heating element 100b may have a circular shape, and even in the case of a circular shape, warp yarns 110b and weft yarns 120b are woven and woven, and both ends of all warp yarns 110b are bonded to electrodes 130b in parallel.

6 is a view showing a metal fiber planar heating heater for an aerosol generating device according to a third embodiment of the present invention, and FIG. 7 is a view showing the bottom of the metal fiber planar heating heater for an aerosol generating device according to a third embodiment of the present invention. It is an illustrated drawing.

According to the third embodiment of the present invention, in the metal fiber planar heating heater for an aerosol generator, the planar heating element 100c and the electrode 130c are installed on the bottom surface of the porous ceramic 400 so that the planar heating element 100c is a porous ceramic ( 400) in the form of heating. The porous ceramic 400 contains an aerosol-generating substrate in liquid form, and is heated by heat generated by the surface heating element 100c, and the aerosol-generating substrate in liquid form is vaporized to generate an aerosol.

In general, the porous ceramic 400 is prepared by mixing a silicate, a binder, and a pore-forming agent to form a slurry, molding, drying, and then sintering. The planar heating element 100c and the electrode 130c are embedded in the porous ceramic 400, or the planar heating element 100c and the electrode 130c are coupled near the surface of the porous ceramic 400, so that at least a portion may be exposed. The planar heating element (100c) may be inserted and integrally combined during molding before sintering of the porous ceramic 400, or may be combined through a separate process after manufacturing the porous ceramic 400. The electrode 130c may be insert-injected into the porous ceramic 400 together with the planar heating element 100c, and only the planar heating element 100c is insert-injected into the porous ceramic 400 and the electrode 130c is bonded after injection molding, or It could be the other way around. When the planar heating element 100c is inserted during molding of the porous ceramic 400 and then sintered, the sintering temperature is preferably 700 to 800° C. to prevent oxidation of the planar heating element 100c.

At this time, it is preferable that the planar heating element 100c coupled to one surface of the porous ceramic 400 is installed on the widest surface of the porous ceramic 400 to maximize the contact area and heating area. The planar heating element 100c combined with the porous ceramic 400 is also woven by weaving the warp yarn 110c and the weft yarn 120c, and both ends of the warp yarn 110c are coupled to each electrode 130c. At this time, in order to maximize the heating surface, when the lengths of the warp yarns 110c and the weft yarns 120c are not the same in the porous ceramic 400c, that is, the porous ceramic 400c in which the planar heating element 100c is installed has horizontal and vertical If the lengths are not the same, it is preferable that the warp yarns 110c are arranged to have a longer length than the weft yarns 120c. Since the length of the warp yarn 110c connected to the electrode 130c has the same or similar length as the weft yarn 120c, the area occupied by the electrode 130c can be reduced, thus maximizing the installation area of the planar heating element 100c. can do.

8 is a view showing a metal fiber surface heating heater for an aerosol generator according to a fourth embodiment of the present invention.

The planar heating element 100d is applied to a conventional wick-type heater that absorbs a liquid-type aerosol-generating substrate into a wick and heats it with a hot wire, and the moisture absorber 500 is wrapped with the planar heating element 100d. At this time, the planar heating element 100d may be woven in a weaving method as shown in FIG. 1 and then attached or installed to wrap the outer circumferential surface of the moisture absorbent 500, but similar to that shown in FIG. 3, the moisture absorbent 500 While braiding directly on the outer periphery of the weaving and installation may be performed at the same time.

Claims (10)

A surface heating heater for an aerosol generating device that directly or indirectly heats an aerosol generating region in which an aerosol generating substrate is heated to generate an aerosol,
A plane heating element that is woven of two or more strands of metal fiber yarn and generates heat by applying power; and
Metal fiber surface heating heater for an aerosol generator, characterized in that it comprises; an electrode for applying power from a battery to a metal fiber weave. According to claim 1,
The planar heating element is woven by crossing metal yarns with wefts and warp yarns, and the warp yarns are all connected to electrodes. According to claim 2,
A metal fiber surface heating heater for an aerosol generator, characterized in that the planar heating element is installed in a form surrounding the aerosol generating area. According to claim 2,
The planar heating element is located upstream of the aerosol generating zone, and the planar heating element heats the air introduced into the aerosol generating zone. According to claim 4,
The planar heating element is a metal fiber planar heating heater for an aerosol generator, characterized in that arranged perpendicular to the flow of air. According to claim 1,
The planar heating element is a metal fiber planar heating heater for an aerosol generator, characterized in that it is braided and woven in a cylindrical shape. According to claim 6,
A metal fiber surface heating heater for an aerosol generator, characterized in that it further comprises; a cylindrical metal pipe inserted inside the planar heating element and heated by a metal fiber weave. According to claim 6,
A metal fiber planar heating heater for an aerosol generator, characterized in that it further comprises; a moisture absorber inserted inside the planar heating element and heated by the planar heating element. According to claim 1,
A metal fiber planar heating heater for an aerosol generator, characterized in that the metal fiber planar heating element and the electrode are bonded to a porous ceramic. According to any one of claims 1 to 9,
A metal fiber surface heating heater for an aerosol generator, characterized in that the metal fiber is made of an electrically conductive metal and an insulating coating is formed on the surface.

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