RU2786494C1 - Device, method and system with heating without burning for tobacco products - Google Patents

Abstract

FIELD: smoking products.

SUBSTANCE: device with heating without burning includes a case, a heating element, and a power supply source, placed inside the case, an induction unit configured for perception of user’s control commands and generation of induction electrical signals, a control circuit electrically connected to the induction unit and the heating element, configured for reception of induction electrical signals of the induction unit and adjustment of an operating temperature of the heating element. Temperature adjustment is performed by switching between several temperature intervals in accordance with received induction electrical signals of the induction unit. Temperature intervals include at least an interval of heat energy saving, at which a temperature of the heating element is lower than a temperature of smoke generation of the mentioned smoking substrate, and an excitation temperature interval, at which the temperature of the heating element is higher than the temperature of smoke generation of the mentioned smoking substrate.

EFFECT: heat losses with more efficient energy conversion are reduced, and smoking sensations are improved.

10 cl, 3 dwg

Description

The field of technology to which the invention belongs

[0001] The present invention relates to the field of heating tobacco products and, in particular, relates to an apparatus, method and system with non-combustion heating for tobacco products.

Prerequisites for the invention

[0002] The present invention is intended to provide background or context for the embodiments of the present invention as indicated in the claims. The description given in this document is not recognized as prior art for the sole reason that this level is included in this document.

[0003] At present, low-temperature non-burning heated cigarettes are an important area of current developments in the creation of new tobacco products. Among these developments, the temperature control logic of a heating element for heating low-temperature cigarettes directly affects the user's taste sensation, smoking experience, device efficiency, battery life, and other factors. At present, the temperature of the heating element is generally controlled by changing the temperature coefficient of resistance of the heater, whereby the heating element is always in a state of higher temperature during the operation, resulting in extremely high heat loss of the heating element.

SUMMARY OF THE INVENTION

[0004] In order to solve the above problems, the present invention provides an apparatus, method, and system with non-combustion heating for tobacco products. By adjusting the operating temperature of the heating element to switch between multiple temperature ranges, the problem of heat loss caused by constant heating of the drive is solved, resulting in efficient energy conversion and improved smoking experience.

[0005] The present invention provides the following solutions.

[0006] A non-combustion heating device for tobacco products, comprising a housing, wherein a heating element and a power source are located within the housing, and the device further includes:

[0007] an induction unit for receiving and generating induction signals;

[0008] a control circuit electrically connected to the induction unit and the heating element for receiving the induction signals and for adjusting the operating temperature of the heating element to switch between multiple temperature intervals depending on the received induction signals;

[0009] wherein the plurality of temperature intervals include at least a thermal energy saving interval and an excitation temperature interval.

[0010] In a preferred embodiment of the present invention, the induction unit includes a manual induction unit;

[0011] The hand-held induction unit is configured to generate induction signals in response to at least one of the following control commands: mechanical button commands, touch button commands, control knob commands, and push button commands.

[0012] In a preferred embodiment of the present invention, the induction unit includes an automatic induction unit;

[0013] The automatic induction unit is configured to detect at least one of the following environmental parameters: air pressure parameters, air flow parameters, pressure parameters, capacitance parameters, vertical displacement distance parameters, and lip pressure parameters; and in accordance with at least one detectable environmental parameter, the automatic induction unit is configured to generate induction signals.

[0014] In a preferred embodiment of the present invention, the inductive signals include at least a thermal energy saving inductive signal; wherein

[0015] The induction unit generates a thermal energy saving inductive signal in response to the non-burning heating device activation signal, and wherein the control circuit controls the heating element to preheat to a thermal energy saving temperature range in response to the thermal energy saving inductive signal.

[0016] In a preferred embodiment of the present invention, the induction signal comprises at least an excitation induction signal; wherein

[0017] when the operating temperature of the heating element drops within the thermal energy saving temperature interval, the control circuit controls the operating temperature of the heating element to switch to the drive temperature interval in response to the inductive drive signal;

[0018] When the operating temperature of the heating element falls within the drive temperature range, the control circuit adjusts the operating temperature of the heating element to switch to a heat saving temperature range in response to an interruption of the inductive drive signal.

[0019] In a preferred embodiment of the present invention, the excitation temperature range includes multiple excitation temperature subranges; and,

[0020] When the operating temperature of the heating element drops within the thermal energy saving interval, the operating temperature of the heating element is adjusted to switch to one of several sub-ranges of the excitation temperature in accordance with the inductive excitation signal and with the accumulated heating duration of the excitation of the heating element and (or) in accordance with the accumulated number of puffs;

[0021] As the operating temperature of the heating element decreases within the drive temperature interval, the operating temperature of the heating element is adjusted to switch between multiple drive temperature sub-ranges according to the drive induction signal and the accumulated heating element drive heating duration and/or according to the accumulated number of puffs.

[0022] In a preferred embodiment of the present invention, within the operating cycle, the temperature peak value of the excitation temperature interval increases as an increase in the accumulated heating duration of the excitation of the heating element, or remains constant.

[0023] In a preferred embodiment of the present invention, in which the control circuit is electrically connected to the power supply to detect the remaining power; and

[0024] upon detecting that the remaining power is below a predetermined threshold and/or

[0025] upon detecting that the accumulated heating element excitation temperature duration reaches a predetermined duration and/or

[0026] the accumulated number of puffs reaches a predetermined number,

[0027] the heating element is given a control command to stop heating.

[0028] A non-combustion heating method for tobacco products, which uses the aforementioned non-combustion heating device to heat a smoking substrate.

[0029] A non-combustion heating system for tobacco products, wherein the system includes the aforementioned non-combustion heating device for tobacco products and a smokable substrate.

[0030] At least one of the above technical solutions used in the embodiments of the present invention achieves the following positive effects: by incorporating the design of the induction unit and the control circuit, the operating temperature of the heating element can be manually or automatically switched between several temperature intervals, so that to ensure the reduction of heat loss during operation of the heating element.

[0031] It should be borne in mind that the above description is an overview of the technical solution of the present invention, giving a clearer understanding of the technical means of the present invention for its implementation in accordance with the contents of the description. In order to make the above and other objects, features and advantages of the present invention more obvious and understandable, the following will specifically describe specific embodiments in accordance with the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0032] Having studied the following detailed description of illustrative embodiments of the present invention, the advantages and benefits described in the description, as well as other advantages and benefits, will become apparent to those skilled in the art. The drawings are for the sole purpose of illustrating the embodiments and are not intended to limit the present invention. In all drawings, the same parts are identified by the same reference numbers. The drawings attached to the description, in particular, show:

[0033] FIG. 1 is a block diagram illustrating a non-combustion heating apparatus for tobacco products according to a first embodiment of the present invention;

[0034] FIG. 2 is a block diagram illustrating an operating temperature curve according to the first embodiment of the present invention;

[0035] FIG. 3 is a block diagram illustrating another operating temperature curve according to the first embodiment of the present invention.

[0036] In the drawings, the same or corresponding parts are indicated by the same or corresponding reference numbers.

DESCRIPTION OF EMBODIMENTS OF THE PRESENT INVENTION

[0037] The following is a detailed description of illustrative embodiments of the present invention with reference to the accompanying drawings. Although the drawings show illustrative embodiments of the present invention, it should be understood that the present invention may be embodied in various forms and should not be limited to the embodiments shown in this application. On the contrary, these embodiments are provided for the purpose of a better understanding of the present invention and a complete understanding of the scope of the present invention by those skilled in the art.

[0038] In the present invention, the embodiments of the present invention and the features in the embodiments may be combined with each other without conflict. The following is a detailed description of the present invention with reference to the drawings and in conjunction with embodiments.

[0039] The following is a clear and complete description of the technical solutions of the present invention with reference to the accompanying drawings of the present invention.

[0040] First Embodiment of the Present Invention

[0041] FIG. 1 is a block diagram of a non-burning heating device 1 for tobacco products according to the first embodiment of the present invention.

[0042] As shown in FIG. 1, a fireless heating device 1 may include a housing 10 provided with a heating element 11 in the form of a long strip with a distinct opening, and at least a portion of the heating element 11 may be placed in a heating cavity provided with a side opening. Thus, a smoking substrate including a low temperature cigarette can be inserted into the heating element 11 and then placed into the heating cavity. If necessary, the heating element 11 can also be made into other shapes, such as an annular heating element enclosed in a heating cavity, and the shape is not particularly limited in the present invention.

[0043] The induction unit 12 may be placed on the outer surface or inside the housing 10, and the induction unit 12 may be used to detect and generate induction signals, in particular, the induction unit 12 receives a control command from a user and receives and generates induction signals in the form electrical signals, whereby the user can issue a control command by performing several actions such as pressing a key, puffing, lip contact, etc., in particular, the aforementioned induction signals may include an inductive excitation signal induced in response to a control command indicating to the user's need to tighten. Optionally, the aforementioned induction signals may also include a thermal energy saving induction signal induced in response to a control command indicating that the user temporarily does not need to take a puff. For example, the induction unit 12 could be configured as an air pressure sensor or an airflow sensor such that, in response to a user's decision to smoke a smoking substrate, the induction unit could receive a control command indicating the user's need to puff and then generate an induction signal. excitation by induction and transmit the inductive excitation signal to the control circuit 13 to realize the user control of the heating process.

[0044] The control circuit 13 may be placed inside the housing 10. The control circuit 13 may be electrically connected to the induction block 12 and the heating element 11 to receive induction signals from the induction block 12 and control the operating temperature of the heating element 11, switchable between several temperature intervals in depending on the received induction signals. At the same time, several temperature intervals may include at least a thermal energy saving interval and an excitation temperature interval, in particular, the temperature in the thermal energy saving temperature interval is lower than the smoking temperature of the smoking substrate, and the temperature in the excitation temperature interval is higher than the smoking temperature. smoking substrate. Thus, the control circuit 13 is able to quickly raise the operating temperature of the heating element 11 to a drive temperature range above the smoking temperature of the smoking substrate after receiving the induction drive signal from the induction unit 12, so that the smoking substrate is heated and smoked to meet the user's smoking needs. In addition, by interrupting the aforementioned induction drive signal or by receiving the heat energy saving induction signal sent by the induction unit, the operating temperature of the heating element 11 can be lowered to the heat energy saving level while the smoking temperature is lower than the smoking temperature of the smoking substrate, whereby smoking of the smoking substrate is stopped, and the heating element can be in a state of saving thermal energy above room temperature, thereby preventing continuous smoking when the user does not need to puff, and the heating element is able to quickly respond to the user's need to take several next puffs.

[0045] A power supply 14 may also be placed within the housing 10 to supply power to a non-burning heated device 1 including a heating element 11, an induction unit 12, and a control circuit 13.

[0046] In addition, as shown in FIG. 1, in some embodiments of the present invention, the induction unit 12 may further include a manual induction unit 121. The manual induction unit 121 may be configured to generate induction signals in response to at least one of the following control commands: mechanical button commands, touch buttons, knob commands, button commands, and compression button commands.

[0047] In addition, as shown in FIG. 1, in some embodiments of the present invention, the induction unit 12 may further include an automatic induction unit 122. The automatic induction unit 122 may include various sensors to ensure that the unit is used to detect at least one of the following environmental parameters: air pressure parameters , airflow parameters, pressure parameters, capacitance parameters, vertical displacement distance parameters and lip pressure parameters; and the induction signal may be generated in accordance with at least one detectable environmental parameter. For example, with respect to control commands that are not directly initiated by the user, it is not possible to directly obtain a control command indicating the need to puff. Thus, in the present invention, sensors are used to detect environmental parameters with their help, and then the user is indirectly determined based on the obtained environmental parameters. For example, when the automatic induction unit detects that the air pressure in the smoke channel of the non-burning heating device exceeds a predetermined threshold value, the unit analyzes to determine that the user has taken a puff, and then generates an induction drive signal.

[0048] If necessary, the aforementioned induction unit 12 may be provided with a separate manual induction unit 121 or a separate automatic induction unit 122. Alternatively, the manual induction unit 121 may be combined with an automatic induction unit 122, which is not particularly limited in the present invention. .

[0049] The following is a brief description of the control logic of the control circuit in this embodiment of the present invention.

[0050] In some embodiments of the present invention, the induction unit 12 is capable of generating a thermal energy saving inductive signal in response to a non-burning heating device activation signal 1, and then the control circuit 13 controls the heating element 11 to preheat to the thermal energy saving temperature range in response to an induction signal to save thermal energy. In this way, the smoking substrate is maintained at a temperature above room temperature, but there is no atomization and smoke generation, which provides a subsequent rapid response to the need of the user to take a puff to generate smoke.

[0051] In some embodiments of the present invention, when the operating temperature of the heating element 11 decreases within the thermal energy saving interval, the control circuit 13 may adjust the operating temperature of the heating element 11 to switch to the drive temperature interval in response to the inductive drive signal so that the smoking substrate stimulated heat and generated smoke to meet the user's puffing needs. In addition, when the operating temperature of the heating element 11 drops within the driving temperature range, the control circuit 13 can adjust the operating temperature of the heating element 11 to switch to the heat saving temperature range in response to the interruption of the driving inductive signal and/or the heat saving inductive signal so so that the smoking substrate ceases to smoke and can be in a state of saving thermal energy above room temperature, so that further smoke generation of the smoking substrate is prevented when the user does not need to puff, and provides a quick response to the user's need to take several next puffs.

[0052] If necessary, when the operating temperature of the heating element 11 falls within the thermal energy saving temperature interval, the operating temperature of the heating element 11 can be adjusted to be in the thermal energy saving temperature interval in response to the thermal energy saving inductive signal; when the operating temperature of the heating element 11 drops within the drive temperature range, the control circuit 13 can adjust the operating temperature of the heating element 11 to maintain it within the drive temperature range in response to the inductive drive signal.

[0053] Optionally, the induction signals may also include a heat stop induction signal, indicating to the user to stop smoking so that when the operating temperature of the heating element 11 is in any temperature range, the control circuit 13 can control the heating element 11 to stop heating at response to the induction signal to stop heating.

[0054] In addition, in some embodiments of the present invention, the excitation temperature range may include multiple excitation temperature subranges; and within the operating cycle, when the operating temperature of the heating element 11 decreases within the thermal energy saving interval in accordance with the induction signal of excitation and the accumulated heating duration of the excitation of the heating element 11 and (or) the accumulated number of puffs, the operating temperature of the heating element 11 can be adjusted to switch from the interval saving thermal energy on one of several excitation temperature sub-ranges, in particular, as the accumulated excitation heating duration increases, the operating temperature of the heating element can be adjusted to switch to a higher excitation temperature sub-range. Within the operating cycle, when the operating temperature of the heating element 11 decreases within the excitation temperature interval in accordance with the induction signal of excitation and the accumulated heating duration of the excitation of the heating element 11 and (or) the accumulated number of puffs, the operating temperature of the heating element can be adjusted to switch between several sub-intervals of the excitation temperature . In particular, the operating temperature of the heating element may be adjusted to switch to a higher temperature drive temperature subrange as the accumulated drive heating duration increases. By setting several excitation temperature subranges, the characteristics of the smoking substrate can be better matched, and the continuity and uniformity of the smoke generated by the smoking substrate before and after smoking can be ensured.

[0055] In some embodiments of the present invention, the control circuit 13 may be electrically connected to the power supply 14 to detect the remaining power, and when a decrease in the remaining power below a predetermined threshold value is detected, the heating element 11 may be given a control signal to stop heating. Optionally, when the control circuit 13 detects that the cumulative heating duration of excitation of the smoking substrate reaches a predetermined duration or the accumulated number of puffs reaches a predetermined number, the heating element 11 may be commanded to stop heating to prevent further continuous heating of the smoking substrate after it has been puffed. exhaustion.

[0056] In some embodiments of the present invention, the induction unit 12 can also be used to determine the state of the smoking substrate. Upon detecting that the user is replacing the used smoking substrate with a new one, the induction unit directs the heat saving induction signal so that the control circuit 13 adjusts the operating temperature of the heating element 11 to be set to the heat saving temperature range in response to the heat saving induction signal. thermal energy.

[0057] In some embodiments of the present invention, in an operating cycle, the peak temperature of the drive temperature range rises/or remains the same as the accumulated heating duration of the drive of the heating element increases, or rises/or remains unchanged as the accumulated number of puffs increases. In particular, the duty cycle refers directly to the duty cycle of heating the smoking substrate. For example, in FIG. 2 and 3 show curves of a given operating temperature for various smoking substrates. T1 denotes the peak temperature of the driving temperature interval, and T0 denotes the minimum values of the thermal energy saving temperature interval. Including the smokable substrate corresponding to the operating temperature curve shown in FIG. 2 includes a substrate with a similar spray temperature, whereby there is no need to adjust the temperature peak of the drive temperature range. The smoking substrate corresponding to the operating temperature curve shown in FIG. 3 includes different substrates with different spray temperatures, while compositions and spray points are also different. Some compositions are capable of rapidly releasing at lower temperature levels. In order to improve the homogeneity of the smoke composition during subsequent puffs, it is necessary to increase the temperature of subsequent puffs, thus a heating mode can be applied, which ensures a constant increase in the peak temperature T1 of the excitation temperature interval as the accumulated duration of excitation heating of the heating element 11 within the operating cycle increases.

[0058] The second embodiment of the present invention

[0059] The second embodiment of the present invention provides a non-combustion heating method for tobacco products, the method may include: using the non-combustion heating device described in the above embodiment of the present invention to heat a smoking substrate.

[0060] For example, the heating steps in an operating cycle may specifically include:

[0061] (1) activating the non-burning heating device and operating the control circuit of the heating element to preheat to the heat saving temperature interval in response to the activation signal of the non-burning heating device, wherein the temperature of the thermal energy saving temperature interval is lower than the temperature spraying the smoking substrate such that the temperature of the smoking substrate is maintained above room temperature without spraying or producing smoke.

[0062] (2) receiving by the induction unit a control command to control the user's need for a puff, such as inhalation, thereby inducing an induction excitation signal and transmitting it to the control circuit, and adjusting the operating temperature of the heating element by the control circuit to switch to the excitation temperature interval in in accordance with the received inductive excitation signal; wherein the temperature in the excitation temperature range is higher than the spraying temperature of the smoking substrate, so that the smoking substrate is excited and heated to generate smoke, followed by the user inhaling the smoke and entering the smoke into his mouth through the air channel to complete the puff.

[0063] (3) interrupting the inductive drive signal received by the control circuit after interrupting the control command used to control the user's need to take a puff, so that the control circuit switches the operating temperature of the heating element back to the heat saving interval, thereby stopping smoke generation by the smoking substrate.

[0064] If necessary, when the induction unit receives a control command to issue a command to the user, to inform him that there is no need to temporarily take a puff, for example (key pressing action), the induction unit induces and generates a heat saving induction signal and transmits it to the control circuit. The control circuit regulates the operating temperature of the heating element to switch to a thermal energy saving temperature interval in accordance with the received thermal energy saving inductive signal.

[0065] (4) adjusting the operating temperature of the heating element by the control circuit to alternate between the heat saving temperature range and the driving temperature interval according to the various induction signals received to complete the operating cycle;

[0066] (5) the induction unit generating a heating completion induction signal after receiving a control command to inform the user that the need for puffing has been eliminated and/or after detecting that the power supply is below a predetermined threshold and/or after detecting that the duration of heating the excitation of the heating element in the operating cycle reaches a predetermined period of time, or after detecting that the accumulated number of puffs reaches a predetermined number; and giving a control command by the control circuit to the heating element to complete heating in accordance with the heating completion inductive signal.

[0067] It should be appreciated that, in this embodiment of the present invention, several heating logic circuits of a non-combustion device can be combined or used separately to create a new method of non-combustion heating. The above steps (1) to (5) of the present invention are by way of example only, and the non-combustion heating method of the present invention is not limited thereto.

[0068] The third embodiment of the present invention

[0069] A third embodiment of the present invention provides a non-flammable heating system for tobacco products, including: a smoking substrate and a non-flammable heating device described in the above embodiments of the present invention. The operating principle of the system is to use the aforementioned non-combustion heating apparatus for tobacco products described in the examples to heat the smoking substrate.

[0070] In an embodiment of the present invention, the solid substrate element may be a low temperature cigarette made from tobacco particles, tobacco chips, and longitudinal tufts of cylindrical flakes.

[0071] Although the essence and principle of the present invention have been described with reference to several specific embodiments, it should be understood that the present invention is not limited to the disclosed specific embodiments and the separation of various aspects does not mean that the features of these aspects cannot be combined. to achieve the benefits, this division is made solely for the convenience of presentation. Various modifications and equivalent embodiments of the invention may be made to the present invention without departing from the spirit and scope of the appended claims.

Claims (10)

1. A device with heating without burning a smoking substrate from tobacco, including a housing, a heating element and a power supply located inside the housing, characterized in that it additionally contains an induction unit configured to receive user control commands and generate inductive electrical signals, a control circuit, electrically connected to the induction block and the heating element, configured to receive induction electrical signals of the induction block and regulate the operating temperature of the heating element by switching between several temperature intervals in accordance with the received inductive electrical signals of the induction block, said temperature intervals including at least a thermal energy saving interval , at which the temperature of the heating element is below the smoke point of said smoking substrate, and the excitation temperature interval, n wherein the temperature of the heating element is above the smoke generation temperature of said smoking substrate. 2. The device according to claim 1, characterized in that the induction unit includes a manual induction unit configured to generate induction electrical signals in response to at least one of the control commands transmitted by a mechanical button, a touch button, a gripped control knob, a button, working in compression. 3. The device according to claim. 1, characterized in that the induction unit includes an automatic induction unit configured to detect at least one of the following parameters: air pressure, the presence of air flow, the pressure of the lips of the user when puffing, and then generate an induction electrical signal . 4. The device according to claim 1, characterized in that said inductive electrical signals of the induction unit include at least an inductive electrical signal for saving thermal energy generated in response to an electrical signal for activating the device with heating without burning the smoking substrate from tobacco, initiated by the user, and said control circuit preheats the heating element to temperatures corresponding to said thermal energy saving temperature range in response to said thermal energy saving inductive electrical signal. 5. The device according to claim 1 or 4, characterized in that said inductive electrical signals of the induction unit include at least an inductive electrical excitation signal, and when the operating temperature of the heating element decreases within the said thermal energy saving temperature interval, said control circuit provides regulation of the operating temperature of the heating element, as well as switching to the mentioned excitation temperature range in response to the mentioned inductive electrical excitation signal, when the operating temperature of the heating element decreases within the mentioned excitation temperature interval, the said control circuit provides regulation of the operating temperature of the heating element, as well as switching to the mentioned temperature interval saving thermal energy in response to the interruption of said inductive electrical excitation signal. 6. The device according to claim 5, characterized in that said excitation temperature range includes several excitation temperature sub-intervals, and when the operating temperature of the heating element decreases within the said thermal energy saving temperature interval, said control circuit provides regulation of the operating temperature of the heating element to switch to one of several said excitation temperature sub-ranges in accordance with said inductive excitation electrical signal, and the accumulated duration of heating of the excitation of the heating element, and / or the accumulated number of puffs produced by the user, when the operating temperature of the heating element decreases within the mentioned excitation temperature interval, the said control circuit provides regulation operating temperature of the heating element to switch between several of the mentioned excitation temperature sub-ranges in in accordance with said inductive electrical drive signal, and the accumulated heating duration of the excitation of the heating element, and/or the accumulated number of puffs taken by the user. 7. The device according to claim 1, characterized in that during the implementation of the operating cycle, the peak temperature value of the said excitation temperature interval increases as the accumulated heating duration of the excitation of the heating element increases or remains constant. 8. The device according to claim 1, characterized in that said control circuit is electrically connected to the power supply and is configured to detect the remaining power, moreover, upon detecting that the remaining power of the power supply is below a predetermined power threshold, and / or upon detecting that the accumulated duration of the excitation temperature of the heating element has reached the predetermined duration and/or the accumulated number of puffs has reached the predetermined number, heating of the heating element is stopped by the control signal. 9. A method for heating without burning a smoking substrate from tobacco, characterized in that for heating said smoking substrate, a device with heating without burning a smoking substrate from tobacco according to any one of paragraphs is used. 1-8. 10. A system for heating without burning a smoking substrate from tobacco, characterized in that it comprises a device for heating without burning a smoking substrate from tobacco according to any one of paragraphs. 1-8 and tobacco smoking substrate.

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