CN113519915B - Dynamic regulation and control method for heating temperature of heating cigarette smoking set - Google Patents

Abstract

The invention discloses a dynamic regulation and control method for heating temperature of a heated cigarette smoking set, which has the design concept that on the premise of setting a relatively fixed heating reference working curve and corresponding smoking parameters, the corresponding reference heating temperature of the next smoking is dynamically corrected by combining the smoking capacity of each time in the actual smoking process, and the original set heating reference working curve is subjected to self-adaptive regulation, so that the actual use habit of a consumer can be accurately fitted, the mouth-to-mouth consistency is effectively improved, and the use experience of a cigarette bullet and a smoking set product thereof is remarkably improved.

Description

Dynamic regulation and control method for heating temperature of heating cigarette smoking set

Technical Field

The invention relates to the field of smoking set products, in particular to a dynamic regulation and control method for heating temperature of a cigarette smoking set.

Background

The "mouth-to-mouth consistency" of the heated cigarette, also known as a cartridge, during smoking by a user has been a focus of industry attention, and can be generally achieved by controlling the number of cigarette smoking mouths and designing the operating temperature curve of the appliance. Specifically, in the existing method, in the design stage of the appliance, the smoking capacity of each mouth and the corresponding working temperature curve are preset in advance, that is, in order to ensure the consistency of mouth by mouth, the smoking set for heating the cigarette is preset according to the number of the suction mouths and the temperature control curve which are designed fixedly.

However, it is obviously difficult for consumers to perform smoking operation according to a fixed smoking capacity during actual use, and when the actual smoking capacity of each smoking port changes, if the temperature is controlled according to the preset number of smoking ports and the working temperature curve to heat the cartridge, the smoke release is affected, and the overall use experience of the consumer on the cartridge and the smoking set product is further affected.

Disclosure of Invention

Therefore, the invention aims to provide a dynamic regulation and control method for the heating temperature of a cigarette heating smoking set, which solves the problem that dynamic temperature control is not carried out in combination with actual smoking capacity, thereby effectively improving the mouth-to-mouth consistency and obviously improving the use experience of a user.

The technical scheme adopted by the invention is as follows:

a dynamic regulation and control method for heating temperature of a heating cigarette smoking set comprises the following steps:

presetting a heating reference working curve, wherein the heating reference working curve comprises a reference heating temperature corresponding to the first port and a reference heating temperature corresponding to each subsequent port after the first port, which is determined according to the reference heating temperature of the first port, the preset standard port number and the temperature rise gradient;

continuously monitoring the current suction volume of each suction during the actual suction process;

comparing the current aspiration volume to a preset aspiration volume threshold;

and adjusting the reference heating temperature corresponding to the next suction according to the comparison result, and dynamically adjusting the heating reference working curve so as to update the reference heating temperature in the subsequent suction in real time.

In at least one possible implementation manner, the preset suction volume threshold includes: a number of lower single aspiration volume values and a number of upper single aspiration volume values.

In at least one possible implementation manner, the adjusting the reference heating temperature corresponding to the next suction according to the comparison result includes:

if the current suction capacity is smaller than the lower limit value of the single suction capacity, reducing the reference heating temperature corresponding to the next suction;

and if the current suction capacity is larger than the upper limit value of the single suction capacity, increasing the reference heating temperature corresponding to the next suction.

In at least one possible implementation, the reference heating temperature corresponding to the next suction is lowered or raised in a preset gradient.

In at least one possible implementation manner, the dynamically adjusting the heating reference operating curve includes: and based on the adjusted heating temperature corresponding to the next suction, adaptively adjusting the reference heating temperature corresponding to each subsequent port according to the temperature rise gradient.

In at least one possible implementation manner, the method further includes:

during the actual pumping process, accumulating the actual total pumping amount;

terminating the heating function when the actual total puff volume exceeds a preset total puff volume threshold.

In at least one possible implementation manner, the method further includes:

in the actual pumping process, accumulating the actual number of pumping ports;

and when the actual suction port number reaches a preset suction port number threshold value, terminating the heating function.

The design concept of the invention is that under the premise of setting a relatively fixed heating reference working curve and corresponding pumping parameters, the corresponding reference heating temperature of the next pumping is dynamically corrected by combining the pumping capacity of each time in the actual pumping process, and the original set heating reference working curve is subjected to self-adaptive adjustment, so that the actual use habit of consumers can be accurately fitted, the mouth-to-mouth consistency is effectively improved, and the use experience of the cigarette cartridge and the smoking set product thereof is obviously improved.

Drawings

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described with reference to the accompanying drawings, in which:

fig. 1 is a flow chart of a method for dynamically regulating the heating temperature of a heated cigarette smoking set according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative only and should not be construed as limiting the invention.

The invention provides an embodiment of a dynamic regulation and control method for heating temperature of a heated cigarette smoking set, and particularly, as shown in figure 1, the method can comprise the following steps:

step S1, presetting a heating reference working curve, wherein the heating reference working curve comprises a reference heating temperature corresponding to a first port and a reference heating temperature corresponding to each subsequent port after the first port, which is determined according to the reference heating temperature of the first port, the number of preset standard ports and a temperature rise gradient;

s2, continuously monitoring the current suction volume of each suction in the actual suction process;

s3, comparing the current suction capacity with a preset suction capacity threshold value;

and S4, adjusting the reference heating temperature corresponding to the next suction according to the comparison result, and dynamically adjusting the heating reference working curve so as to update the reference heating temperature in the subsequent suction in real time.

Further, the preset suction volume threshold may include: a number of lower single aspiration volume values and a number of upper single aspiration volume values. Further on this basis, said adjusting the reference heating temperature corresponding to the next suction according to the comparison result may include at least two cases as follows:

(1) If the current suction capacity is smaller than the lower limit value of the single suction capacity, reducing the reference heating temperature corresponding to the next suction;

(2) And if the current suction capacity is larger than the upper limit value of the single suction capacity, increasing the reference heating temperature corresponding to the next suction.

And when the heating temperature corresponding to the next suction is lowered and raised, the reference heating temperature corresponding to the next suction can be lowered or raised according to a preset change gradient.

Further, the dynamically adjusting the heating reference working curve may be that, based on the adjusted heating temperature corresponding to the next pumping, the reference heating temperature corresponding to each subsequent port is adaptively adjusted according to the temperature-increasing gradient.

In addition, the present invention provides a mechanism for determining the stop of heating as follows:

(1) During the actual pumping process, accumulating the actual total pumping amount;

terminating the heating function when the actual total puff volume exceeds a preset total puff volume threshold.

(2) In the actual pumping process, accumulating the actual number of pumping ports;

and when the actual suction port number reaches a preset suction port number threshold value, terminating the heating function.

For the purpose of facilitating an understanding of the embodiments and their preferred versions, reference is made herein to the following illustrative examples:

the idea of the invention is mainly to collect the suction volume, rather than to detect the number of suction openings, and in particular, a given total number of suction openings may be calculated based on the total suction volume and the single suction volume. For example, the total suction capacity is 420mL, and the single-port suction capacity is 35mL, so that the total suction port number can be designed to be 12; meanwhile, an initial heating reference working curve may be determined according to a predetermined temperature rise gradient (for example, 3 ℃), for example, the heating reference working curve is a representation form, which may essentially include the following: the preheating temperature and the preheating time length of the device (the preheating temperature of the device refers to an initial temperature when the smoking set is opened to start heating the smoke cartridge, for example 390 ℃, the preheating time length can be set as required, for example, 390 ℃ is used for continuously heating for 15 seconds), the heating temperature of the first port is 340 ℃, the heating temperature of the second port is 343 ℃, the heating temperature of the third port is 346 ℃ 8230, and so on, which are not described in detail, and the reference heating temperature corresponding to the subsequent 11 ports can be set according to a set temperature gradient, for example, 3 ℃ by taking the heating temperature as a reference.

During the actual puff by the user, if the actual puff volume changes, the smoke release may be affected, resulting in inconsistent puff-by-puff experience. Therefore, the invention proposes that the heating temperature self-adaptive adjustment effect can be realized by detecting the pumping capacity per time (the related detection technology is a mature scheme per se, and the method is not limited).

For example, after completing one aspiration, if the actual aspiration volume of the current aspiration is monitored to be lower than the preset lower aspiration volume limit (e.g. below 25 mL), the heating temperature can be decreased, preferably, the heating temperature corresponding to the next aspiration can be decreased by a certain gradient (e.g. 2 ℃); if the actual suction volume of the current suction is higher than the preset upper limit value of the suction volume (for example, higher than 45 mL), the heating temperature can be raised, and preferably, the heating temperature corresponding to the next suction can also be raised according to a certain gradient (for example, 2 ℃).

It should be further added that one or more of the aforementioned lower limit and upper limit of the pumping capacity may be designed according to actual requirements, for example, for a preset reference single-port pumping capacity of 35ml, at least two gears of small-port pumping may be set, for example, 5ml to 15ml is one gear, and 15ml to 25ml is another gear, so that at least two lower limits of 25ml and 15ml may be set, and corresponding variation gradients are set according to different lower limits to adjust the original reference heating temperature.

Furthermore, not only the heating temperature of the next suction can be adjusted based on the current suction capacity, but also the heating reference operation curve can be further dynamically adjusted (the aforementioned adjustment of the original reference heating temperature of the next suction also belongs to the process of adjusting the heating reference operation curve), that is, after the heating temperature of the next suction is adjusted, the subsequent heating reference operation curve is dynamically adapted based on the current adjustment result (it should be emphasized that the adjustment of the heating reference operation curve of the present invention is realized not by using the residual amount information of the smoke bomb, but by the instant judgment of each suction capacity, that is, the heating temperature of the next suction is independently decided by the suction capacity of the previous suction without counting and controlling the residual suction capacity). For another example: according to the established initial standard, after the second port is pumped out, the heating temperature of the third port is 346 ℃, but the pumping capacity of the second port exceeds the standard, and at the moment, the heating temperature of the third port can be increased by 2 ℃, namely 348 ℃; according to the current adjustment result, the subsequent whole heating reference working curve can be correspondingly and upwards raised by 2 ℃, namely the temperature of the fourth port is updated to 351 ℃, the temperature of the fifth port is updated to 354 ℃, 8230and the like. That is, the initial temperature gradient (3 ℃) of the subsequent heating temperature may not be changed, but may be adaptively adjusted based on the changed current adjusted heating temperature, and the subsequent pumping process may be dynamically adjusted in the above manner.

In addition, in order to ensure that the operation performance and the service life of the smoking set are maintained in a relatively better state, a determination mechanism for stopping heating may be added on the basis of the foregoing embodiments, for example, the total actual smoking capacity may be counted, and if a preset total smoking capacity threshold is reached (for example, a predetermined total smoking capacity of 420mL, 400mL may be preferably set as the smoking capacity threshold); alternatively, the total number of puffs may be counted, and if a predetermined threshold number of puffs is reached (for example, 12 puffs, preferably 18 puffs may be used as the threshold number of puffs), the smoking set heating may be stopped as long as either of these two conditions is satisfied. Here, it can be understood that the foregoing statistics of the total smoking amount is to consider that the total smoking amount is about to reach the preset total amount, so that heating can be ended in advance when approaching, and the foregoing statistics of the number of the smoking ports is mainly to prevent long-time smoking with small opening, which causes the working time of the smoking set on a single cigarette, from being too long, and affects the cruising ability of the appliance, so that a protection value can be set, and the heating function is stopped as long as the accumulated number of the ports reaches, and the process also does not need to add or subtract the remaining number of the ports.

In summary, the design concept of the present invention is that, on the premise of setting a relatively fixed heating reference working curve and corresponding pumping parameters, the reference heating temperature corresponding to the next pumping is dynamically modified in combination with the pumping capacity of each time in the actual pumping process, and the original heating reference working curve is adaptively adjusted, so as to precisely fit the real usage habit of the consumer, effectively improve the consistency of mouth-to-mouth, and significantly improve the usage experience of the cigarette cartridge and its smoking set product.

In the embodiments of the present invention, "at least one" means one or more, "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, and means that there may be three relationships, for example, a and/or B, and may mean that a exists alone, a and B exist simultaneously, and B exists alone. Wherein A and B can be singular or plural. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. "at least one of the following" and the like, refer to any combination of these items, including any combination of singular or plural items. For example, at least one of a, b, and c may represent: a, b, c, a and b, a and c, b and c or a and b and c, wherein a, b and c can be single or multiple.

The structure, features and effects of the present invention have been described in detail with reference to the embodiments shown in the drawings, but the above embodiments are only preferred embodiments of the present invention, and it should be understood that the technical features related to the above embodiments and the preferred modes thereof can be reasonably combined and configured into various equivalent schemes by those skilled in the art without departing from and changing the design idea and technical effects of the present invention; therefore, the invention is not limited to the embodiments shown in the drawings, and all the modifications and equivalent embodiments that can be made according to the idea of the invention are within the scope of the invention as long as they are not beyond the spirit of the description and the drawings.

Claims (5)

1. A dynamic regulation and control method for heating temperature of a heating cigarette smoking set is characterized by comprising the following steps:

presetting a heating reference working curve, wherein the heating reference working curve comprises a reference heating temperature corresponding to the first port and a reference heating temperature corresponding to each subsequent port after the first port, which is determined according to the reference heating temperature of the first port, the preset standard port number and the temperature rise gradient;

continuously monitoring the current suction volume of each suction during the actual suction process;

comparing the current aspiration volume to a preset aspiration volume threshold, the preset aspiration volume threshold comprising: setting at least two gears of small-mouth suction smaller than the reference single-mouth suction capacity according to a preset reference single-mouth suction capacity, and obtaining corresponding lower limit values of at least two single-mouth suction capacities; setting that the large suction larger than the reference single suction capacity at least comprises two gears, and obtaining at least two corresponding upper limit values of the single suction capacity;

and according to the comparison result, adjusting the reference heating temperature corresponding to the next suction, and dynamically adjusting the heating reference working curve to update the reference heating temperature in the subsequent suction in real time, wherein different change gradients are set according to the lower limit values or the upper limit values of different gears to reduce or improve the reference heating temperature of the next suction.

2. The method of dynamically regulating a heating temperature of a heated cigarette smoking article of claim 1, wherein adjusting the baseline heating temperature for the next puff based on the comparison comprises:

if the current suction volume is smaller than the lower limit value of the single suction volume, reducing the reference heating temperature corresponding to the next suction;

and if the current suction capacity is larger than the upper limit value of the single suction capacity, increasing the reference heating temperature corresponding to the next suction.

3. The method of dynamically regulating the heating temperature of a heated cigarette smoking article of claim 1, wherein dynamically adjusting the heating reference operating curve comprises: and based on the adjusted heating temperature corresponding to the next suction, adaptively adjusting the reference heating temperature corresponding to each subsequent port according to the temperature rise gradient.

4. The dynamic regulation and control method of the heating temperature of the heated cigarette smoking set according to any one of claims 1 to 3, wherein the method further comprises:

during the actual pumping process, accumulating the actual total pumping amount;

terminating the heating function when the actual total puff volume exceeds a preset total puff volume threshold.

5. The method of dynamically regulating the heating temperature of a heated cigarette smoking article of any one of claims 1 to 3, further comprising:

in the actual pumping process, accumulating the actual number of pumping ports;

and when the actual suction port number reaches a preset suction port number threshold value, terminating the heating function.

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