CN214854369U - Heating assembly for eddy heating and aerosol generating device - Google Patents
Heating assembly for eddy heating and aerosol generating device Download PDFInfo
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- CN214854369U CN214854369U CN202120350435.4U CN202120350435U CN214854369U CN 214854369 U CN214854369 U CN 214854369U CN 202120350435 U CN202120350435 U CN 202120350435U CN 214854369 U CN214854369 U CN 214854369U
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Abstract
The embodiment of the application belongs to the technical field of aerosol generation, and relates to a heating component for vortex heating and an aerosol generation device. The heating component for eddy heating comprises a base, a heating piece and a temperature measuring piece; the heating part is arranged on the base and used for inducing the magnetic force of the electromagnetic induction unit to generate heat, and the temperature measuring part is arranged in the heating part and used for detecting the temperature of the heating part. The electromagnetic induction unit generates high-frequency oscillation after being electrified, the heating part is arranged in a changing magnetic field generated by the electromagnetic induction unit and generates vortex current, magnetic energy is converted into heat energy, the heating part is enabled to generate heat, the heating part transmits the heat to the aerosol generating product to generate aerosol, the temperature measuring part is arranged in a cavity of the heating part, the temperature measuring part can directly detect the real-time temperature of the heating part, and accurate measurement of the temperature of the heating part is realized. The heating component of vortex heating has fast heating speed, promotes the speed of fuming, and the temperature monitoring is accurate, has simplified manufacturing process, and the energy consumption is low.
Description
Technical Field
The application relates to the technical field of aerosol generation, in particular to a heating component for eddy current heating and an aerosol generation device.
Background
In recent years, aerosol-generating systems have been widely used in the field of smoking articles and the like. An aerosol-generating system comprises an aerosol-generating device comprising a substrate for forming an aerosol and an aerosol-generating article for heating the substrate to cause the substrate to generate an aerosol for consumption by a user.
The existing aerosol generating device generally adopts a resistance type heating body for heating, the base material is mostly ceramic and stainless steel, a heating circuit is printed on the base material, and when the heating circuit is electrified, the heating circuit generates heat to provide heat for the aerosol base material to generate aerosol. However, the resistance heating mode has the disadvantages of slow heating speed, inaccurate temperature monitoring, slow aerosol smoking speed, complex manufacturing process and high energy consumption.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a heating element and aerosol generation device of vortex heating, it is slow to solve current heating member rate of heating, and temperature monitoring is inaccurate, and aerosol is fuming speed slowly, and manufacturing process is complicated, technical problem that the energy consumption is high.
In order to solve the above-mentioned problem, the embodiment of the present invention provides the following technical solutions:
a heating component for eddy current heating comprises a base, a heating piece and a temperature measuring piece;
the heating part is arranged on the base and used for inducing the magnetic force of the electromagnetic induction unit to generate eddy current to generate heat, a hollow cavity is arranged in the heating part, the temperature measuring part is arranged in the cavity and used for detecting the temperature of the heating part, an insulating structure is arranged in the cavity and used for separating the heating part from the temperature measuring part to insulate.
Further, the heating part comprises two alloy sheets, and a hollow cavity is formed when the two alloy sheets are installed;
or the heating piece is integrally formed by alloy materials, and a hollow cavity is formed in the heating piece;
or, the heating part comprises a heating part body and a tip part, the tip part can be detachably arranged on the heating part body, and a hollow cavity is formed in the heating part body.
Furthermore, the length of the heating element is smaller than that of the electromagnetic induction unit, and the heating element is covered by the electromagnetic induction unit arranged on the periphery of the heating element, and the central axis of the heating element is parallel to that of the electromagnetic induction unit.
Further, the shape of the heating element is sheet, column, cuboid or needle.
Furthermore, an insulating structure is arranged in the heating part and used for separating the heating part from the temperature measuring part to be insulated.
Furthermore, the insulation structure comprises at least two insulation sheets, and the insulation sheets are arranged between the inner wall of the heating member and the temperature measuring member;
or the insulating structure comprises an insulating layer coated on the inner wall of the heating element.
Furthermore, the temperature measuring part comprises a temperature measuring alloy, and the temperature measuring alloy is arranged in the heating part.
Furthermore, an electrode seat is arranged at one end, back to the heating element, of the base, a positive electrode and a negative electrode are arranged in the electrode seat, a fixing ring for fixing the positive electrode and the negative electrode on the electrode seat is arranged on the electrode seat, and pins connected with the positive electrode and the negative electrode are arranged on the temperature measuring alloy.
Further, the base is made of an insulating high-temperature-resistant material.
In order to solve the technical problem provided above, the embodiment of the present invention further provides an aerosol generating device, which adopts the following technical solution:
an aerosol-generating device for generating an aerosol from an aerosol-generating article, comprising a vortex-heated heating element as described above in connection with the aerosol-generating article for generating heat to the aerosol-generating article.
Further, the aerosol generating device further comprises a shell, an electromagnetic induction unit, a high-frequency oscillation power supply and a main board, wherein the heating component for eddy current heating is arranged in the shell, one end of the aerosol generating product is inserted into the shell, the electromagnetic induction unit is arranged in the shell and arranged on the periphery of the heating component, the main board is arranged in the shell and electrically connected with the electromagnetic induction unit and the high-frequency oscillation power supply, and the electromagnetic induction unit is electrically connected with the high-frequency oscillation power supply.
Further, the aerosol generating device further comprises a controller, the temperature measuring part is electrically connected with the controller, the temperature measuring part detects the temperature of the heating part in real time and feeds a signal back to the controller, and the controller controls the work of the electromagnetic induction unit according to the real-time temperature of the heating part.
Further, the aerosol generating device further comprises a heating part support for supporting the heating part, the heating part support is made of insulating materials, and a boss is arranged on the side face of the heating part support.
Compared with the prior art, the embodiment of the utility model provides a mainly have following beneficial effect:
the utility model provides a heating element and aerosol generating device of eddy current heating, produce high frequency oscillation after the electromagnetic induction unit circular telegram, generate heat in the piece arranges the magnetic field of the change that the electromagnetic induction unit produced in, and produce the vortex current, convert magnetic energy into heat energy, make the piece that generates heat generate heat, the piece that generates heat gives aerosol generation goods with heat transfer, in order to produce aerosol, the temperature measurement piece is located the piece that generates heat, the temperature measurement piece can directly detect the real-time temperature that generates heat, and the temperature measurement piece receives magnetic field influence less, thereby realize the accurate measurement to the temperature that generates heat. The heating assembly for eddy heating has the advantages of high heating speed, increased smoking speed, accurate temperature monitoring and low energy consumption, and the heating element and the temperature measuring element are installed by utilizing the base, so that the assembly and the production are convenient; in addition, for current resistance-type heating member, following problem can also be avoided to this scheme: the heating wire of the existing resistance-type heating body is arranged on the heating body, the heating body needs to be directly and hard connected with a circuit on a host, and an electrode on the heating body is easy to oxidize or corrode in heating work, so that the problem of poor contact or short service life can be caused.
Drawings
In order to illustrate the solution of the present invention more clearly, the drawings needed for describing the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
Figure 1 is a schematic diagram of the overall structure of an aerosol-generating device according to an embodiment of the present invention;
figure 2 is a cross-sectional view of an aerosol-generating device according to an embodiment of the invention;
figure 3 is an exploded view of an aerosol-generating device according to an embodiment of the invention;
fig. 4 is a schematic structural diagram of a heating assembly for eddy current heating according to an embodiment of the present invention;
fig. 5 is an exploded view of a heating element for eddy current heating according to an embodiment of the present invention;
fig. 6 is a block diagram of the controller circuit control according to the embodiment of the present invention;
FIG. 7 is a schematic structural view of a heat generating member and an insulating structure according to another embodiment of the present invention;
fig. 8 is a schematic structural view of a base according to another embodiment of the present invention;
fig. 9 is a schematic view of the connection relationship between the temperature measuring unit and the positive and negative electrodes according to another embodiment of the present invention.
Description of reference numerals:
1. a base; 2. a heat generating member; 21. an alloy sheet; 22. a heating member body; 23. a tip portion; 3. a temperature measuring part; 31. temperature measuring alloy; 4. an insulating structure; 41. an insulating sheet; 42. an insulating layer; 5. positive and negative electrodes; 6. a housing; 61. an upper cover; 62. a housing main body; 63. an upper bracket; 64. a lower bracket; 65. an end cap; 7. an aerosol-generating article; 8. an electromagnetic induction unit; 9. a main board; 10. a power supply; 11. a cigarette taking device; 12. a coil support; 13. a heating member support; 14. an electrode holder; 15. and (4) fixing the ring.
Detailed Description
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The terms "including" and "having," and any variations thereof, in the description and claims of the present invention and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and in the claims, or in the drawings, are used for distinguishing between different objects and not necessarily for describing a particular sequential or chronological order.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
In order to make the technical solution of the present invention better understood by those skilled in the art, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the related drawings.
Examples
As shown in fig. 3 to 5, a heating assembly for eddy current heating includes a base 1, a heating member 2 and a temperature measuring member 3; the heating part 2 is arranged on the base 1 and used for inducing the magnetic force of the electromagnetic induction unit to generate eddy current and generate heat, the electromagnetic induction unit is electrically connected with the high-frequency oscillation power supply, the high-frequency oscillation power supply is used for providing high-frequency oscillation current for the electromagnetic induction unit, the heating part 2 is connected with the aerosol generating product 7, a hollow cavity is arranged in the heating part 2, and the temperature measuring part 3 is arranged in the cavity and used for detecting the temperature of the heating part 2.
The embodiment of the utility model provides an eddy current heating's heating element, in operation, produce high frequency oscillation after the electromagnetic induction unit circular telegram, generate heat in 2 places the magnetic field of the change that the electromagnetic induction unit produced in, and produce the vortex current, convert magnetic energy into heat energy, make the piece 2 that generates heat generate heat, the piece 2 that generates heat and gives aerosol generation goods 7 with heat transfer, in order to produce aerosol, temperature measurement piece 3 is located the cavity of the piece 2 that generates heat, it is less to make temperature measurement piece 3 receive the influence of magnetic field, and make temperature measurement piece 3 can directly detect the real-time temperature of the piece 2 that generates heat, thereby realize the accurate measurement to the temperature of the piece 2 that generates heat. The heating assembly for eddy heating has the advantages of high heating speed, increased smoking speed, accurate temperature monitoring and low energy consumption, and the heating element 2 and the temperature measuring element 3 are installed on the base 1, so that the assembly and the production are convenient; in addition, for current resistance-type heating member, following problem can also be avoided to this scheme: the heating wire of the existing resistance-type heating body is arranged on the heating body, the heating body needs to be directly and hard connected with a circuit on a host, and an electrode on the heating body is easy to oxidize or corrode in heating work, so that the problem of poor contact or short service life can be caused.
In one embodiment, as shown in fig. 6, the eddy current heating assembly further comprises a controller, and the temperature measuring part 3 is electrically connected with the controller. The temperature measuring part 3 is used for detecting the temperature of the heating part 2 in real time and feeding back a signal to the controller, and the controller controls the work of the electromagnetic induction unit according to the real-time temperature of the heating part 2 to realize the accurate control of the heating temperature. The controller can control the work of high-frequency oscillation power supply, through the oscillation frequency who changes high-frequency oscillation current to change the temperature that generates heat of the piece 2 that generates heat, can control the temperature of the piece 2 that generates heat comparatively accurately, and prevent effectively that the temperature of the piece 2 that generates heat is too high, scorches the heating end of aerosol generation goods 7, influences the user and inhales. The aerosol-generating article 7 comprises a charge housing provided with a receiving cavity, an aerosol substrate received within the receiving cavity. The charging housing comprises a suction end and a heating end, the heating element 2 is inserted into the heating end to heat the aerosol generating product 7 when the heating element 2 generates heat to form inhalable aerosol, wherein the aerosol substrate can be tobacco, medicine, plant extract and the like. The charging housing further comprises a suction end which is the end which the user directly contacts and which acts as a mouthpiece, or alternatively the aerosol-generating article 7 is provided with a mouthpiece or filter which the user contacts.
As shown in fig. 2 and 3, the electromagnetic induction unit includes an eddy current coil 8, which is an electric coil made of a metal material and includes a power supply input terminal and a power supply output terminal. The high-frequency oscillation power supply is electrically connected with the power supply input end and the power supply output end of the eddy current coil 8 to form an electric loop. The high-frequency oscillation power supply and the input high-frequency oscillation current pass through the eddy current coil 8, so that the eddy current coil 8 generates an alternating magnetic field, and the heating element 2 induces the magnetic force in the alternating magnetic field to generate eddy current to generate heat.
The electromagnetic induction unit further comprises a coil support 12, the eddy current coil 8 is wound on the coil support 12, and a cavity for accommodating the heating part 2 is arranged in the coil support 12. The coil support 12 facilitates the winding of the spiral eddy current coil 8.
During the use, vortex coil 8 produces high frequency oscillation after the circular telegram to generate heat 2 and place in the magnetic field of the change that vortex coil 8 produced to produce vortex current, thereby produce the fuel factor, generate heat 2 and give aerosol and generate goods 7 with heat transfer, so that the aerosol substrate is heated and supplies the user to inhale behind the formation aerosol. Carry out the eddy current heating to piece 2 that generates heat through setting up eddy current coil 8, generate heat piece 2 with heat transfer for aerosol generation goods 7, effectively improved heating efficiency, shortened heating time.
It should be noted that the principle of eddy current heating is eddy current effect, which refers to faraday's law of electromagnetic induction, when a block conductor is placed in an alternating magnetic field or moves in a fixed magnetic field, an induced current is generated in the block conductor, and the current is closed in the block conductor. Specifically, in this embodiment, alternating current is continuously supplied to the spiral eddy current coil 8 by the high-frequency oscillation power supply, an alternating magnetic field is generated in the eddy current coil 8, and an eddy current is automatically generated and generated in the heating member 2 in the magnetic field, so that the heating end of the aerosol-generating product 7 is heated, and the aerosol substrate forms aerosol.
The heating element 2 is arranged in the cavity of the coil support 12 and is located at the center.
In one embodiment, the length of the heating element 2 is smaller than that of the eddy current coil 8, and the axial length of the eddy current coil 8 covers the heating element 2, so that each part of the heating element 2 can sense magnetic force, the heating efficiency of the heating element 2 is improved, the heating element 2 can sufficiently heat, the aerosol generating product 7 can be sufficiently heated, sufficient aerosol can be formed, and the experience effect of a user can be improved.
In one embodiment, the central axis of the eddy current coil 8 is parallel to the central axis of the heat generating member 2, which is beneficial to improving the heat generating uniformity of different parts of the heat generating member 2.
The heating element 2 is made of alloy material, and can be alloy with relatively high initial magnetic inductance. The heating element 2 can be spring steel, ferritic stainless steel, carbon steel, silicon steel, iron aluminum, iron diamond and other alloys. The heat generating member 2 can generate eddy current and generate heat in a magnetic field varying at a high speed.
In one embodiment, the material of the heat generating member 2 is spring steel, which has excellent combination properties, such as mechanical properties, anti-springing properties, fatigue properties, shattering ability, and physicochemical properties. In order to meet the above performance requirements, spring steels have excellent metallurgical quality, good surface quality, precise shape and dimensions.
In one embodiment, the heat generating member 2 is shaped as a sheet in the shape of a sword to facilitate insertion of the tip 23 of the heat generating member 2 into the aerosol-generating article 7. In other embodiments, the shape of the heat generating member 2 may also be columnar, rectangular parallelepiped, needle-like, etc.
In one embodiment, as shown in fig. 5, the heating element 2 includes two alloy sheets 21, the two alloy sheets 21 form a hollow cavity when mounted, and the thermometric element 3 is disposed in the cavity.
The temperature measuring part 3 comprises a temperature measuring alloy 31, and the temperature measuring alloy 31 is arranged in the heating part 2.
The temperature measuring alloy 31 may be based on detection of conventional temperature measuring parameters such as resistance, inductance, or potential, to realize temperature detection, which is not specifically limited by the example herein.
The temperature measuring alloy 31 may be made of nickel aluminum, nickel molybdenum, constantan, platinum rhodium, platinum iridium, and the like, which is not limited in this example.
In one embodiment, the thermometric alloy 31 is shaped like a sheet, which is beneficial to match with the cavity of the heating element 2. In other embodiments, the shape of the thermometric alloy 31 may also be columnar, filiform, rectangular parallelepiped, cross-shaped, etc.
In an embodiment, the length of temperature measurement piece 3 and the length size phase-match of the cavity of piece 2 that generates heat, through with temperature measurement piece 3 set up in the cavity of piece 2 that generates heat, temperature measurement piece 3 can the direct detection generate heat the temperature of piece 2, temperature measurement piece 3 receives magnetic field variation less, and, the length of temperature measurement piece 3 and the length size phase-match of the cavity of piece 2 that generates heat, make temperature measurement piece 3 contact better and generate heat piece 2, the temperature of the whole inner wall of piece 2 that generates heat is generated in the response, in order to detect and to reflect the holistic temperature of piece 2 that generates heat, thereby can the accurate temperature that detects piece 2 that generates heat.
An insulating structure 4 is arranged in the cavity, and the insulating structure 4 is used for separating the heating element 2 from the temperature measuring alloy 31 for insulation.
Insulating structure 4 includes a plurality of insulating pieces 41, insulating piece 41 is located 2 inner walls of generating heat with between the temperature measurement alloy 31.
In one embodiment, two insulation sheets 41 are respectively disposed between the two alloy sheets 21 and the thermometric alloy 31, so as to insulate the alloy sheets 21 and the thermometric alloy 31.
In one embodiment, the base 1 is made of insulating refractory material, such as plastic, ceramic or other insulating refractory material. The base 1 connects the heating member 2 and the temperature measuring member 3 together, and insulates the heating member 2 and the temperature measuring member 3 from each other.
The heating element 2 is fixed on the base 1, and the base 1 is provided with a via hole for the temperature measuring element 3 to pass through.
In one embodiment, referring to fig. 3, the heating assembly for eddy current heating further includes a heating element support 13 for supporting the heating element 2, and the heating element support 13 is made of an insulating material.
The heating part support 13 is internally provided with a mounting groove, and the heating part 2 is mounted in the mounting groove.
Optionally, a boss is disposed on a side surface of the heating member support 13, and a contact area between the heating member support 13 and other components is reduced by the boss, so that heat loss of the heating member 2 is further reduced, and heating efficiency of the heating member 2 on the aerosol generating product 7 is further improved. The number of the bosses may be plural, for example, the number of the bosses may be one, two, three, four, five, which is not limited in this example.
Optionally, the heating part support 13 is made of insulating materials, so that heat energy generated by the heating part 2 is further reduced and transmitted to other components, heat energy loss of the heating part 2 is further reduced, heating and scalding of the shell can be avoided, and user experience of the aerosol generating device is improved.
In one embodiment, the eddy current heating heat generating assembly further includes a power supply 10, and the power supply 10 may adopt a rechargeable battery or a non-rechargeable battery, which is not limited in this respect. For example, the rechargeable battery includes a lithium battery, and the non-rechargeable battery includes a dry cell battery, which is not limited in this embodiment.
The high-frequency oscillating power supply may be selected from the prior art, and is not specifically limited herein, as a high-frequency oscillator and the power supply 10 cooperate to provide the high-frequency oscillating current.
The embodiment of the utility model provides a heating element of eddy current heating, in operation, 8 high-frequency oscillation that produce behind the circular telegram of eddy current coil, oscillation frequency is between 10K-1000K, convert magnetic energy into heat energy, make heating element 2 generate heat, heating element 2 generates heat for aerosol generation goods 7 with heat transfer, in order to produce aerosol, heating element 2's heating temperature can be controlled between 200 + 400 degrees, temperature measurement piece 3 is located in heating element 2, temperature measurement piece 3 can directly detect the real-time temperature of heating element 2, and temperature measurement piece 3 receives the magnetic field influence less, thereby realize the accurate measurement to the temperature of heating element 2. The heating component of vortex heating has fast heating speed, promotes the speed of fuming, and the temperature monitoring is accurate, has simplified manufacturing process, and the energy consumption is low.
In another embodiment of the present invention, the difference from the above embodiment is that the heating member 2 is integrally formed by an alloy material, and a hollow cavity is formed in the heating member 2.
It can be understood that the heat generating member 2 of another embodiment of the present invention can replace the heat generating member 2 of the above embodiment, and the difference between the another embodiment of the present invention and the above embodiment is only the structure of the heat generating member 2, and the other structures are the same.
In another embodiment of the present invention, as shown in fig. 7, fig. 7 is a schematic structural diagram of a heating element 2 in another embodiment of the present invention, which is different from the above embodiment, the heating element 2 includes a heating element body 22 and a tip portion 23, the tip portion 23 can be disassembled to be set on the heating element body 22, if the tip portion 23 can be inserted into the insertion structure or the clamping structure to be set on the heating element body 22, a hollow cavity is formed in the heating element body 22, the heating element body 22 is fixed on the base 1, the tip portion 23 is inserted into the aerosol generating product 7, and the temperature measuring element 3 is located in the cavity of the heating element body 22.
It can be understood that the heat generating member 2 of another embodiment of the present invention can replace the heat generating member 2 of the above embodiment, and the difference between the another embodiment of the present invention and the above embodiment is only the structure of the heat generating member 2, and the other structures are the same.
In another embodiment of the present invention, as shown in fig. 7, fig. 7 is a schematic structural diagram of an insulating structure 4 in another embodiment of the present invention, which is different from the above embodiment in that the insulating structure 4 includes an insulating layer 42 coated on the inner wall of the heat generating member 2.
The insulating layer 42 is coated on the inner wall of the heating element 2, and the insulating layer 42 can be made of high temperature insulating material similar to Teflon.
It can be understood that, in the technical solution that the heating member 2 includes two alloy sheets 21 in the above embodiment, the insulating layer 42 can be coated on one surface of the alloy sheet 21 facing the temperature measuring member 3 for insulation, the insulating structure 4 in the above embodiment can be replaced by the insulating structure 4 in another embodiment of the present invention, the difference between the above embodiment and the above embodiment of the present invention is only the structure of the insulating structure 4, and the other structures are the same.
In another embodiment of the present invention, as shown in fig. 8, fig. 8 is a schematic structural diagram of a base 1 in another embodiment of the present invention, which is different from the above embodiment in that, with reference to fig. 9, an electrode holder 14 is disposed at an end of the base 1 away from the heat generating member 2, a positive electrode 5 and a negative electrode 5 are disposed in the electrode holder 14, in one embodiment, the positive electrode and the negative electrode of the positive electrode 5 are disposed at two sides respectively, in other embodiments, the positive electrode and the negative electrode of the positive electrode 5 are disposed in concentric circles, for example, the inner ring is the positive electrode, the outer ring is the negative electrode, a fixing ring 15 for fixing the positive electrode 5 and the negative electrode 5 on the electrode holder 14 is disposed on the electrode holder 14, pins connected with the positive electrode and the negative electrode 5 are disposed on the temperature measuring alloy 31, the temperature measuring alloy 31 extends into the positive electrode and the negative electrode 5 from the base 1 and is connected with the positive electrode and the negative electrode 5 through the pins, temperature measurement alloy 31 is connected with mainboard 9 through positive and negative electrode 5 promptly, and during operation, positive and negative electrode 5 is electrically conductive, and temperature measurement alloy 31 realizes can realize the modularization setting to the temperature measurement work of the piece 2 that generates heat, and convenient the dismantlement is fixed on the smoking set that heats the incombustible.
Simultaneously, in order to make things convenient for modularization heating element's installation, can also be provided with magnetism and inhale the piece, conveniently install heating element in the aerosol generates the device, can set up magnetism in heating element and inhale the piece, also can set up magnetism in the aerosol generates the device and inhale the piece, perhaps all sets up magnetism at heating element and aerosol generates the device and inhale the piece, magnetism inhales the piece and can be magnet.
It is understood that the base 1 of another embodiment of the present invention can replace the base 1 of the above embodiment, and the other embodiments of the present invention are different from the above embodiment only in the structure of the base 1, and the other structures are the same.
In order to solve the technical problem provided above, the embodiment of the present invention further provides an aerosol generating device, which adopts the following technical solution:
as shown in figures 1 to 3, an aerosol-generating device for generating an aerosol from an aerosol-generating article comprises a vortex-heated heating element as described above in connection with the aerosol-generating article for heating the aerosol-generating article.
The embodiment of the utility model provides an aerosol generates device, in operation, produce high frequency oscillation after the electromagnetic induction unit circular telegram, generate heat 2 arrange the magnetic field of the change that the electromagnetic induction unit produced in, and produce vortex current, convert magnetic energy into heat energy, make the piece 2 that generates heat generate heat, generate heat 2 with heat transfer for aerosol generation goods 7, in order to produce aerosol, temperature measurement piece 3 is located the piece 2 that generates heat, temperature measurement piece 3 can directly detect the real-time temperature of the piece 2 that generates heat, and temperature measurement piece 3 receives magnetic field to influence lessly, thereby realize the accurate measurement to the temperature of the piece 2 that generates heat. Aerosol generation device rate of heating is fast, has promoted the speed of being fuming, and temperature monitoring is accurate, and the energy consumption is low, utilizes 1 installation of base to generate heat 2 and temperature measurement 3, convenient equipment and production.
Aerosol generates device still includes casing 6, electromagnetic induction unit, high frequency oscillation power and mainboard 9, and eddy current heating's heating element locates in the casing 6, 7 one end insertions of aerosol generation goods in the casing 6, the electromagnetic induction unit is located in the casing 6, and the duplex winding is located 2 outsides generate heat, generate heat 2 with aerosol generation goods 7 are connected, mainboard 9 is located in the casing 6 to be connected with electromagnetic induction unit and high frequency oscillation power electricity, so that the electromagnetic induction unit produces the magnetic field that changes, the electromagnetic induction unit with high frequency oscillation power electricity is connected.
The housing 6 comprises an upper cover 61, a housing main body 62 and an end cover 65, wherein the upper cover 61 is connected with the housing main body 62 to form a space capable of accommodating the electromagnetic induction unit, the heating element 2 and the main board 9, and the end cover 65 is arranged at one end of the housing main body 62, which is back to the upper cover 61, and can reduce the dust.
An upper support 63 and a lower support 64 are arranged in the shell 6, the upper support 63 is arranged in the upper cover 61, the lower support 64 is arranged in the shell main body 62, the electromagnetic induction unit and the heating element 2 are arranged in the upper support 63, the main board 9 is arranged on the lower support 64, the aerosol generating product 7 is arranged on the upper cover 61, a cigarette taking device 11 is arranged on the upper support 63, and the cigarette taking device 11 extends into the upper cover 61 and is connected with the aerosol generating product 7.
The lower bracket 64 is provided with a power supply 10, and the power supply 10 may be a rechargeable battery or a non-rechargeable battery, which is not limited in this respect. For example, the rechargeable battery includes a lithium battery, and the non-rechargeable battery includes a dry cell battery, which is not limited in this embodiment.
The motherboard 9 is a circuit board and the power supply 10 can continuously supply power to the magnetic inductor via the motherboard 9 to continuously heat the aerosol-generating article 7.
As shown in fig. 6, the aerosol-generating device further comprises a controller, the thermometric member 3 being electrically connected to the controller. The temperature measuring part 3 is used for detecting the temperature of the heating part 2 in real time and feeding back a signal to the controller, and the controller controls the work of the electromagnetic induction unit according to the real-time temperature of the heating part 2 to realize the accurate control of the heating temperature. The controller can control the work of high-frequency oscillation power supply, through the oscillation frequency who changes high-frequency oscillation current to change the temperature that generates heat of the piece 2 that generates heat, can control the temperature of the piece 2 that generates heat comparatively accurately, and prevent effectively that the temperature of the piece 2 that generates heat is too high, scorches the heating end of aerosol generation goods 7, influences the user and inhales.
In one embodiment, the aerosol generating device further comprises a driving circuit of the eddy current coil, a power management unit, a charging interface, an indicator light and keys, the controller controls the operation of the eddy current coil 8 through the driving circuit of the eddy current coil, the keys comprise a power on/off key, a temperature rise key and a temperature drop key, the power management unit has functions of low-power protection, overcurrent protection, short-circuit protection, overcharge protection and the like, the power supply unit 10 is effectively protected, and the charging interface is used for charging the rechargeable battery.
The pilot lamp can be LED lamp pearl or lamp area for indicating device's operating condition lights for example when starting up, and the effect picture that shows the heating when heating piece 2 generates heat (for example beat or the flame light efficiency that one flashes), charge status and fault condition etc..
The heating process of the heating element can be controlled by using a preset temperature curve, and can comprise a preheating stage and an aerosol generation stage, wherein the temperature requirements of different stages are different, the temperature is gradually increased to a target temperature in the preheating stage, and then the aerosol generation stage is carried out, and the temperature is also gradually changed (approximately in a wave shape or a sawtooth shape) along with the time in the aerosol generation stage.
Aerosol generation device still includes the miaow head, sets up in the air flue for the air current that arouses of user's suction action, the controller can be according to the testing result of miaow head, and the display that the pilot lamp carried out smoking effect, for example have the breathing lamp effect, from the gradual change aureole up down (for example up luminance is higher).
The high-frequency oscillating power supply may be selected from the prior art, and is not specifically limited herein, as a high-frequency oscillator and the power supply 10 cooperate to provide the high-frequency oscillating current.
The aerosol-generating device further comprises a charging assembly, and the charging assembly is connected to the power supply 10 for charging the rechargeable battery. Compared with the battery replacement, the charging mode is simpler and more convenient, and the power supply 10 does not need to be disassembled.
When the aerosol-generating article 7 is inserted into the housing 6, the heat generating member 2 heats the aerosol-generating article 7 to form an inhalable aerosol, wherein the housing 6 may be a smoking article or the like and the aerosol-generating article 7 may be a cigarette or the like.
The aerosol-generating article 7 comprises a charge housing provided with a receiving cavity, an aerosol substrate received within the receiving cavity. The charging shell comprises a suction end and a heating end, the suction end is one end which is directly contacted by a user and is used as a suction nozzle, the heating end is one end connected with the heating piece 2, the heating piece 2 heats the aerosol generating product 7 to form inhalable aerosol, and the substrate can be tobacco, medicines, plant extracts and the like.
During the use, vortex coil 8 produces high frequency oscillation after the circular telegram to generate heat 2 and place in the magnetic field of the change that vortex coil 8 produced to produce vortex current, thereby produce the fuel factor, generate heat 2 and give aerosol and generate goods 7 with heat transfer, so that the aerosol substrate is heated and supplies the user to inhale behind the formation aerosol. Carry out the eddy current heating to piece 2 that generates heat through setting up eddy current coil 8, generate heat piece 2 with heat transfer for aerosol generation goods 7, effectively improved heating efficiency, shortened heating time.
In this embodiment, the electromagnetic induction unit includes an eddy current coil 8 and a coil support 12, the coil support 12 is located in the housing 6, specifically, the coil support 12 is located in the upper support 63, the eddy current coil 8 is wound on the coil support 12, and a cavity for accommodating the heating element 2 and the heating element support 13 is arranged in the coil support 12. Specifically, in the present embodiment, the winding of the eddy current coil 8 in a spiral shape is facilitated by providing the coil support 12.
The aerosol generating device further comprises a heating part support 13 for supporting the heating part 2, the heating part support 13 is arranged in the coil support 12, and the heating part support 13 is made of an insulating material.
The heating part support 13 is internally provided with a mounting groove, and the heating part 2 is mounted in the mounting groove.
Optionally, a boss is disposed on a side surface of the heating member support 13, and a contact area between the heating member support 13 and other components is reduced by the boss, so that heat loss of the heating member 2 is further reduced, and heating efficiency of the heating member 2 on the aerosol generating product 7 is further improved. The number of the bosses may be plural, for example, the number of the bosses may be one, two, three, four, five, which is not limited in this example.
Optionally, the heating part support 13 is made of insulating materials, so that heat energy generated by the heating part 2 is further reduced and transmitted to other components, heat energy loss of the heating part 2 is further reduced, heating and scalding of the shell can be avoided, and user experience of the aerosol generating device is improved.
It is to be understood that the above-described embodiments are only some of the embodiments of the present invention, and not all of the embodiments, and the preferred embodiments of the present invention are shown in the drawings, but not limited to the scope of the present invention. The present invention may be embodied in many different forms and, on the contrary, these embodiments are provided so that this disclosure will be thorough and complete. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and modifications can be made, and equivalents may be substituted for elements thereof. All utilize the equivalent structure that the content of the utility model discloses a specification and attached drawing was done, direct or indirect application is in other relevant technical field, all is in the same way the utility model discloses within the patent protection scope.
Claims (12)
1. A heating component for heating by eddy current is characterized in that,
comprises a base, a heating piece and a temperature measuring piece;
the heating part is arranged on the base and used for inducing the magnetic force of the electromagnetic induction unit to generate eddy current to generate heat, a hollow cavity is arranged in the heating part, the temperature measuring part is arranged in the cavity and used for detecting the temperature of the heating part, an insulating structure is arranged in the cavity and used for separating the heating part from the temperature measuring part to insulate.
2. The vortex heated heat generating assembly of claim 1,
the heating piece comprises two alloy sheets, and a hollow cavity is formed when the two alloy sheets are installed;
or the heating piece is integrally formed by alloy materials, and a hollow cavity is formed in the heating piece;
or, the heating part comprises a heating part body and a tip part, the tip part can be detachably arranged on the heating part body, and a hollow cavity is formed in the heating part body.
3. The vortex heated heat generating assembly of claim 1,
the length of the heating piece is smaller than that of the electromagnetic induction unit, the heating piece is covered by the electromagnetic induction unit arranged on the periphery of the heating piece, and the central axis of the heating piece is parallel to that of the electromagnetic induction unit.
4. The vortex heated heat generating assembly of claim 1,
the heating piece is in the shape of a sheet, a column, a cuboid or a needle.
5. The eddy current heated heat-generating component according to any one of claims 1 to 4,
the insulation structure comprises at least two insulation sheets, and the insulation sheets are arranged between the inner wall of the heating piece and the temperature measuring piece;
or the insulating structure comprises an insulating layer coated on the inner wall of the heating element.
6. The eddy current heated heat-generating component according to any one of claims 1 to 4,
the temperature measuring part comprises a temperature measuring alloy, and the temperature measuring alloy is arranged in the heating part.
7. The vortex heated heat generating assembly of claim 6,
the temperature measuring device comprises a base, a heating element and a temperature measuring alloy, wherein an electrode seat is arranged at one end of the base, which faces away from the heating element, a positive electrode and a negative electrode are arranged in the electrode seat, a fixing ring for fixing the positive electrode and the negative electrode on the electrode seat is arranged on the electrode seat, and pins connected with the positive electrode and the negative electrode are arranged on the temperature measuring alloy.
8. The eddy current heated heat-generating component according to any one of claims 1 to 4,
the base is made of insulating high-temperature-resistant materials.
9. An aerosol-generating device for generating an aerosol from an aerosol-generating article,
a vortex heated heat generating component comprising any one of claims 1 to 8, the vortex heated heat generating component being connected to the aerosol generating article for generating heat to the aerosol generating article.
10. An aerosol-generating device according to claim 9,
aerosol generating device still includes casing, electromagnetic induction unit, high-frequency oscillation power and mainboard, eddy current heating's heating element locates in the casing, aerosol generates goods one end and inserts in the casing, the electromagnetic induction unit is located in the casing, and locate heating element is peripheral, the mainboard locate in the casing and with electromagnetic induction unit and high-frequency oscillation power electricity are connected, the electromagnetic induction unit with high-frequency oscillation power electricity is connected.
11. An aerosol-generating device according to claim 9,
the aerosol generating device further comprises a controller, the temperature measuring part is electrically connected with the controller, the temperature measuring part detects the temperature of the heating part in real time and feeds a signal back to the controller, and the controller controls the work of the electromagnetic induction unit according to the real-time temperature of the heating part.
12. An aerosol-generating device according to claim 9,
the aerosol generating device further comprises a heating part support used for supporting the heating part, the heating part support is made of insulating materials, and a boss is arranged on the side face of the heating part support.
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CN114158788A (en) * | 2021-12-07 | 2022-03-11 | 深圳麦时科技有限公司 | Heating element and aerosol forming device |
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CN114158788A (en) * | 2021-12-07 | 2022-03-11 | 深圳麦时科技有限公司 | Heating element and aerosol forming device |
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