CN110973711A

CN110973711A - Suction data display method and device and aerosol generating equipment

Info

Publication number: CN110973711A
Application number: CN201911354187.4A
Authority: CN
Inventors: 旷霜粮; 赵贯云
Original assignee: Shenzhen Woody Vapes Technology Co Ltd
Current assignee: Shenzhen Woody Vapes Technology Co Ltd
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-04-10

Abstract

The embodiment of the invention discloses a suction data display method and device and aerosol generating equipment. The method is applied to an aerosol generating device, comprising: acquiring a pumping data display request sent by a user; acquiring the initial power of the last suction, the suction time length of the last suction, the smoke value of the last suction, the suction progress of the last suction and the end power of the last suction according to the suction data display request; displaying the initial power of the last suction in a first display area; displaying the pumping time length of the last pumping in a second display area; displaying the smoke value of the latest suction in a third display area; displaying the suction progress of the last suction in a fourth display area; and displaying the last pumping ending power in a fifth display area. The invention improves the interactivity of the aerosol generating equipment and the user, increases the smoking pleasure of the user and improves the user experience of the aerosol generating equipment.

Description

Suction data display method and device and aerosol generating equipment

Technical Field

The invention relates to the technical field of aerosol generating equipment, in particular to a suction data display method and device and aerosol generating equipment.

Background

Cigarette harm to health is a continuing concern and cigarette substitute aerosol generating devices are becoming more popular as health concerns become more important. In the prior art, the interaction between the aerosol generation equipment and a user is poor, the user cannot conveniently know the suction state, the suction pleasure of the user is reduced, and the user experience of the aerosol generation equipment is influenced, so that the method for displaying the suction data for improving the user interaction is very important.

Disclosure of Invention

In view of the above, it is necessary to provide a method and apparatus for displaying puff data, and an aerosol generating device.

In a first aspect, the present invention provides a puff data display method for use in an aerosol generating device, the method comprising:

acquiring a pumping data display request sent by a user;

acquiring the initial power of the last suction, the suction time length of the last suction, the smoke value of the last suction, the suction progress of the last suction and the end power of the last suction according to the suction data display request;

displaying the initial power of the last suction in a first display area;

displaying the pumping time length of the last pumping in a second display area;

displaying the latest smoking smoke value in a third display area;

displaying the suction progress of the last suction in a fourth display area;

displaying the last suction ending power in a fifth display area.

In one embodiment, said obtaining the smoke value of the last puff comprises:

calculating a smoke value according to the initial power of the last suction, the end power of the last suction and the suction time length of the last suction to obtain the smoke value of the last suction;

updating a list of smoke values according to the smoke value of the last puff.

In one embodiment, said obtaining the end power of the last puff comprises:

calculating according to the initial power of the last suction and the suction time length of the last suction to obtain the end power of the last suction;

updating the end power of the last puff in accordance with the end power of the last puff.

In one embodiment, the calculating the last suction ending power according to the last suction initial power and the last suction pumping time length comprises:

acquiring a preset power increase rate and a preset ending power;

multiplying the pumping time of the last pumping by the preset power increase rate to obtain a power increase ratio;

calculating according to the initial power of the last suction and the power increase ratio to obtain the final power to be selected;

when the candidate ending power is smaller than and/or equal to the acquired preset ending power, taking the candidate ending power as the ending power of the latest suction;

and when the to-be-selected end power is larger than the acquired preset end power, taking the preset end power as the end power of the last pumping.

In one embodiment, said obtaining a puff profile for a last puff comprises:

acquiring a preset longest pumping time;

acquiring the total number of preset progress bars;

and calculating according to the preset longest suction time, the preset total segment number of the progress bars and the suction time of the last suction to obtain the suction progress of the last suction.

In one embodiment, when the display puff data request is sent for the first time by a user after the aerosol generating device is turned on, the method further comprises, after the sending of the display puff data request:

acquiring a corresponding table of the resistance value and the original power of an atomizer of aerosol generating equipment;

matching the atomizer resistance value in the original power corresponding table to obtain original power, and taking the original power as the initial power of the last suction;

and displaying the initial power of the last suction in a first display area.

In one embodiment, after the displaying the initial power of the last pumping in the first display area, the method further comprises:

acquiring an initialization value of a smoking duration of the last smoking, an initialization value of a smoke value of the last smoking, an initialization value of a smoking progress of the last smoking, and an initialization value of an end power of the last smoking;

displaying a second display area as an initialized value of a puff length of the last puff;

displaying a third display area as an initialized value for the most recently smoked smoke value;

displaying a fourth display area as an initialization value of a pumping progress of the last pumping;

displaying a fifth display area as an initialized value of the ending power of the last puff.

In one embodiment, after the displaying the last pumping end power in the fifth display area, the method further comprises:

acquiring an initial power adjustment request sent by a user;

responding to the initial power adjustment request, and performing convex display on the first display area;

acquiring target initial power sent by a user;

displaying the target initial power in a first display area;

acquiring an initial power adjustment confirmation request sent by a user;

and responding to the initial power adjustment confirmation request, and updating initial power data set by a user according to the target initial power.

In one embodiment, the method further comprises:

obtaining a smoke value list;

calculating to obtain a total smoke value score according to the smoke value list;

acquiring a suction grade corresponding list;

and determining the suction level of the user according to the smoke value total score and the suction level corresponding list.

In one embodiment, the method further comprises:

acquiring a suction level checking request sent by a user;

responding to the suction level checking request, and acquiring total suction time;

displaying the user puff level in a sixth display area;

displaying the total smoke value in a seventh display area;

and displaying the total pumping time in an eighth display area.

In one embodiment, the first display region and the fifth display region are co-located on a display screen of an aerosol-generating device;

the method further comprises the following steps:

when the aerosol generating device is ignited, the display screens corresponding to the first display area and the fifth display area display the initial power of the last suction;

after ignition of the aerosol generating device is finished, the display screens corresponding to the first display area and the fifth display area display the last suction ending power.

In a second aspect, the present invention also provides a puff data display device for use in an aerosol generating apparatus, the device comprising:

the user request receiving mechanism is used for acquiring a suction data display request sent by a user;

the user request response mechanism is used for acquiring the initial power of the last suction, the suction time length of the last suction, the smoke value of the last suction, the suction progress of the last suction and the ending power of the last suction according to the displayed suction data request;

and the smoking data management mechanism is used for displaying the initial power of the latest smoking in a first display area, displaying the smoking duration of the latest smoking in a second display area, displaying the smoke value of the latest smoking in a third display area, displaying the smoking progress of the latest smoking in a fourth display area, and displaying the ending power of the latest smoking in a fifth display area.

In a third aspect, the present invention also provides an aerosol-generating device, comprising at least one memory storing a program of computer instructions, at least one processor, which, when executed by the processor, causes the processor to perform the steps of the method of any one of the first aspect.

In one embodiment, the apparatus further comprises: the device comprises a shell, at least one display screen, at least one key for receiving a user pressing input instruction and a controller;

the display screen and the keys are connected with the outer surface of the shell;

the controller is electrically connected with the keys and all the display screens.

In one embodiment, the apparatus further comprises: a microphone for receiving the voice input by the user;

the microphone is positioned in the shell and is communicated with the outside;

the controller is electrically connected with the microphone.

In one embodiment, the apparatus further comprises: an atomizer for heating and atomizing the aerosol;

the atomizer comprises a base and an atomizing core assembly, wherein the atomizing core assembly is arranged on the base, and the base is provided with at least two yielding ports communicated with the atomizing core assembly;

the shell is provided with at least two air inlets, and the base is detachably connected to the shell so that the aerosol generating equipment has a first ventilation state that the two relief ports are communicated with the two air inlets; and one of the let position ports is communicated with the air inlet, and the other let position port and the air inlet are in a non-conductive second ventilation state.

In summary, in the puff data display method of the present invention, after a puff data display request sent by a user is obtained, the initial power of the latest puff is displayed in a first display area, the puff duration of the latest puff is displayed in a second display area, the smoke value of the latest puff is displayed in a third display area, and the puff progress of the latest puff is displayed in a fourth display area; the last suction ending power is displayed in the fifth display area, the suction data is displayed in time, a user of the aerosol generating equipment can conveniently and visually know the suction state, interactivity of the aerosol generating equipment and the user is improved, the suction fun of the user is increased, and user experience of the aerosol generating equipment is improved. Therefore, the invention improves the interactivity of the aerosol generating device and the user, increases the smoking pleasure of the user and improves the user experience of the aerosol generating device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

FIG. 1 is a flow diagram of a puff data display method according to one embodiment;

FIG. 2 is a flow chart of the puff data display method of FIG. 1;

FIG. 3 is a flow chart of the puff data display method of FIG. 1;

FIG. 4 is a flow chart of the puff data display method of FIG. 1;

FIG. 5 is a flow chart of the puff data display method of FIG. 1;

FIG. 6 is a block diagram of a puff data display device according to one embodiment;

FIG. 7 is a schematic diagram of the structure of an aerosol generating device in one embodiment;

FIG. 8 is a schematic diagram of another view of the aerosol generating device of FIG. 7;

FIG. 9 is an exploded schematic view of the aerosol generating device of FIG. 8;

FIG. 10 is a display diagram of a display screen in one embodiment;

fig. 11 is a display diagram of a display screen in another embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An aerosol generating device is an electronic product that simulates a cigarette, with the same look, smoke, taste and feel as a cigarette. It is a product which is absorbed by users after nicotine and the like are changed into steam by means of atomization and the like.

As shown in fig. 1, in one embodiment, a puff data display method is provided, applied to an aerosol-generating device, the method comprising:

s102, acquiring a suction data display request sent by a user;

in particular, the user inputs a request for display puff data sent by voice through a key and/or microphone of the aerosol generating device.

At least one button is installed on the shell of aerosol production equipment, and shell internally mounted of aerosol production equipment has a miaow head, and miaow head and external intercommunication are in order to be used for receiving external sound.

S104, acquiring the initial power of the last suction, the suction time length of the last suction, the smoke value of the last suction, the suction progress of the last suction and the finishing power of the last suction according to the suction data display request;

specifically, the initial power of the last suction, the suction time length of the last suction, the smoke value of the last suction, the suction progress of the last suction, and the end power of the last suction are obtained from historical suction data.

The historical puff data includes a puff length list, a smoke value list, initial power data set by a user, end power of a last puff, and initial power of a last puff.

The pumping time period list is used for recording pumping time period records of historical pumping, and the pumping time period records comprise pumping time periods and pumping start time corresponding to the pumping time periods.

The smoke value list is used for recording smoke value records of historical smoking, and the smoke value records comprise smoke values and smoking starting time corresponding to the smoke values.

The initial power of the last puff is the initial power of the puff with the pumping time closest to the current time in the historical pumping data.

The suction time period of the last suction refers to the suction time period of the suction time closest to the current time in the historical suction data.

The last puff's smoke value is the smoke value of the puff whose puff time in the historical puff data is the closest to the current time.

The suction schedule of the last suction refers to the suction schedule of the suction with the suction time closest to the current time in the historical suction data.

The last suction end power refers to the end power of the suction with the suction time closest to the current time in the historical suction data.

S106, displaying the initial power of the last suction in a first display area;

specifically, the value of the last initial power pumped and the power unit W (watts) are displayed in the first display area. For example, 60W is displayed, which is not limited to this example.

S108, displaying the pumping time of the last pumping in a second display area;

specifically, the numerical value of the suction time period of the latest suction and the time period unit S (second) are displayed in the second display area. For example, 1.35S is shown, which is not specifically limited herein.

S110, displaying the smoke value of the last suction in a third display area;

specifically, the numerical value of the smoke value of the latest puff and the smoke value prompt are displayed in a third display area. For example, the third display area includes a first sub-area and a second sub-area which are arranged in parallel, the first sub-area displays a smoke value indicator "SCORE", and the second sub-area displays a numerical value 11284 of the smoke value of the latest puff, which is not limited in this example.

S112, displaying the suction progress of the last suction in a fourth display area;

specifically, the progress of suction is displayed on the progress bar of the fourth display area according to the progress of suction of the last suction.

The progress bar of the fourth display area adopts a plurality of progress sections, the pumping progress of the last pumping adopts the number of progress sections completed by pumping, and the progress bar of the fourth display area is displayed according to the number of progress sections completed by pumping. For example, the progress bar of the fourth display area adopts 8 progress sections, the suction progress of the last suction is 3 progress sections, the left or right 3 progress sections of the progress bar of the fourth display area are highlighted, and the remaining 5 progress sections are not displayed, which is not specifically limited by the example.

In another embodiment, the progress bar of the fourth display area uses a progress segment, the progress of the suction of the last suction is a percentage of the completion of the suction, and the progress bar of the fourth display area is displayed as a percentage of the completion of the suction. For example, if the suction progress of the last suction is 65%, the area of the progress segment of 65% on the left or right side of the progress bar of the fourth display area is highlighted, and the areas of the remaining progress segments are not displayed, which is not specifically limited by the example.

In another embodiment, the pumping progress of the last pumping is in percent of pumping completion and the fourth display area directly displays the percent of pumping completion. For example, if the pumping progress of the last pumping is 65%, the fourth display area displays 65%, which is not specifically limited by this example.

And S114, displaying the last pumping ending power in a fifth display area.

Specifically, the numerical value of the last pumping end power and the power unit W are displayed in the fifth display area. For example, 100W is shown, which is not specifically limited herein.

In the smoking data display method of the embodiment, after a request for displaying smoking data sent by a user is obtained, the initial power of the latest smoking is displayed in a first display area, the smoking duration of the latest smoking is displayed in a second display area, the smoking value of the latest smoking is displayed in a third display area, and the smoking progress of the latest smoking is displayed in a fourth display area; the last suction ending power is displayed in the fifth display area, the suction data is displayed in time, a user of the aerosol generating equipment can conveniently and visually know the suction state, interactivity of the aerosol generating equipment and the user is improved, the suction fun of the user is increased, and user experience of the aerosol generating equipment is improved.

In one embodiment, said obtaining the smoke value of the last puff comprises:

calculating a smoke value according to the initial power of the last suction, the end power of the last suction and the suction time length of the last suction to obtain the smoke value of the last suction; updating a list of smoke values according to the smoke value of the last puff.

Specifically, after each suction is finished, calculating a smoke value according to the initial power of the last suction, the finishing power of the last suction and the suction time length of the last suction to obtain the smoke value of the last suction; the smoke value of the last puff is then added to a list of smoke values.

For example, the smoke value D of the last puff is calculated by the following formula:

D＝(G₁+G₂)×T²

wherein G is₁Refers to the initial power of the last puff, G₂Refers to the ending power of the last suction, and T refers to the suction duration of the last suction, which is not specifically limited by the example herein.

In one embodiment, said obtaining the end power of the last puff comprises: calculating according to the initial power of the last suction and the suction time length of the last suction to obtain the end power of the last suction; updating the end power of the last puff in accordance with the end power of the last puff.

Specifically, during pumping, calculating according to the initial power of the last pumping and the pumping time length of the last pumping to obtain the end power of the last pumping; and after the pumping is finished, covering the finishing power of the last pumping with the value in the finishing power of the last pumping. And calculating and improving the working power of the aerosol generating equipment in real time during the suction, and covering the finishing power of the last suction with the value in the finishing power of the last suction after the suction is finished so as to calculate the smoke value of the last suction.

As shown in fig. 2, in an embodiment, the calculating the last pumping end power according to the last pumping initial power and the last pumping time period comprises:

s202, acquiring a preset power increase rate and a preset ending power;

the preset power increase rate and the preset end power may be obtained simultaneously, or the preset power increase rate and the preset end power may be obtained separately.

The preset power increase rate refers to the working power increase rate of the actual working power of the aerosol generating equipment along with the pumping time length.

The preset end power is a preset maximum working power of the aerosol generating device.

S204, multiplying the pumping duration of the last pumping by the preset power increase rate to obtain a power increase ratio;

the power increase ratio Z is calculated as:

Z＝T×L

wherein T is the pumping time length of the last pumping, and the preset power increase rate is L.

For example, the preset power increase rate is 1 second and 4% power is increased, and when the last pumping time after each pumping is 8 seconds, the power increase ratio is 32% (calculated as: 8 × 4%), which is not limited in this embodiment.

S206, calculating according to the initial power of the last suction and the power increase ratio to obtain the final power to be selected;

the calculation formula of the candidate ending power m is as follows:

m＝G₁×(1+Z)

wherein G is₁Refers to the initial power of the last puff and Z refers to the power increase ratio.

S208, when the candidate ending power is smaller than and/or equal to the acquired preset ending power, taking the candidate ending power as the ending power of the latest suction;

specifically, when the candidate ending power is smaller than the preset ending power, the working power of the aerosol generating device is continuously increased.

S210, when the to-be-selected end power is larger than the acquired preset end power, taking the preset end power as the end power of the latest suction.

Specifically, when the candidate ending power is greater than the preset ending power, the working power of the aerosol generating device is not increased any more and is always kept at the preset ending power.

According to the embodiment, the aerosol generating equipment conforms to the suction habit of a user, the highest working power is limited, the phenomenon that the service life of the aerosol generating equipment is influenced by exceeding the working power is avoided, and meanwhile, the phenomenon that the user experience is influenced by the too high smoke generating rate of the aerosol generating equipment is avoided.

In one embodiment, said obtaining a puff profile for a last puff comprises: acquiring a preset longest pumping time; acquiring the total number of preset progress bars; and calculating according to the preset longest suction time, the preset total segment number of the progress bars and the suction time of the last suction to obtain the suction progress of the last suction.

The preset maximum pumping time is used for calculating the pumping progress. For example, the optimal puff length experienced by most users is taken as the preset maximum puff length, which is not limited in this embodiment.

When the progress bar of the fourth display area displays the pumping progress in multiple sections, the preset total section number of the progress bar refers to the maximum number of the sections which can be displayed by the progress bar of the fourth display area.

Specifically, dividing the preset longest pumping time by the preset total number of the progress bars to obtain the pumping time of each section; dividing the pumping time length of the last pumping by the pumping time length of each section to obtain the number of progress sections of pumping completion; and taking the number of progress sections of the pumping completion as the pumping progress of the last pumping.

For example, if the number of progress sections of the pumping completion is an integer and is rounded down, and the number of progress sections of the pumping completion is 3.8, the value of 3.8 is an integer and is used as the pumping progress of the last pumping, which is not limited in this example.

It is understood that, when the pumping time period of the last pumping is longer than the preset longest pumping time period, the progress bars of the fourth display area are all highlighted.

The progress bar of the fourth display area of the embodiment adopts multiple sections, so that a user can conveniently and visually know the pumping progress.

As shown in fig. 3, in one embodiment, a puff data display method is provided, applied to an aerosol-generating device, the method comprising:

s302, acquiring a suction data display request sent by a user;

s304, when the smoking data display request is sent by a user for the first time after the aerosol generating device is started, acquiring an atomizer resistance value and an original power corresponding table of the aerosol generating device according to the smoking data display request, matching the atomizer resistance value in the original power corresponding table to obtain original power, taking the original power as the initial power of the latest smoking, and displaying the initial power of the latest smoking in a first display area;

specifically, the original power is obtained by matching the atomizer resistance value in the original power corresponding table, and the original power is used as the initial power of the last suction, so that the aerosol generating device provides a standardized suction service for a user.

S306, when the smoking data display request is not sent by a user for the first time after the aerosol generating device is started, according to the smoking data display request, acquiring the initial power of the latest smoking, the smoking duration of the latest smoking, the smoke value of the latest smoking, the smoking progress of the latest smoking and the ending power of the latest smoking, displaying the initial power of the latest smoking in a first display area, displaying the smoking duration of the latest smoking in a second display area, displaying the smoke value of the latest smoking in a third display area, displaying the smoking progress of the latest smoking in a fourth display area, and displaying the ending power of the latest smoking in a fifth display area.

Specifically, when the smoking data display request is not sent by the user for the first time after the aerosol generating device is started, the aerosol generating device provides a smoking service according to the habit of the user for the latest smoking after the aerosol generating device is started, so that the user is prevented from resetting the operation, and the user experience is improved.

In one embodiment, when the display puff data request is sent for the first time by a user after the aerosol generating device is turned on, after the displaying the initial power of the last puff in the first display area, the method further comprises: acquiring an initialization value of a smoking duration of the last smoking, an initialization value of a smoke value of the last smoking, an initialization value of a smoking progress of the last smoking, and an initialization value of an end power of the last smoking; displaying a second display area as an initialized value of a puff length of the last puff; displaying a third display area as an initialized value for the most recently smoked smoke value; displaying a fourth display area as an initialization value of a pumping progress of the last pumping; displaying a fifth display area as an initialized value of the ending power of the last puff.

When the smoking data display request is sent by a user for the first time after the aerosol generating device is started, the second display area, the third display area, the fourth display area and the fifth display area are all displayed as initialization values, so that the interference of historical smoking data on the user is reduced, and the user experience is improved.

As shown in fig. 4, in an embodiment, after the displaying the last pumping end power in the fifth display area, the method further includes:

s402, acquiring an initial power adjustment request sent by a user;

in particular, the user inputs a request for adjusting the initial power of the voice transmission via a key and/or microphone of the aerosol-generating device.

S404, responding to the initial power adjustment request, and performing convex display on the first display area;

for example, the highlighting includes flashing the characters in the first display area, and using a dark color as the background of the first display area and a light color as the characters, which is not limited in this embodiment.

Through carrying out the convex display on the first display area, a user can conveniently and quickly find out the initial power display position, so that the user experience is improved.

S406, acquiring target initial power sent by a user;

in particular, the user adjusts the target initial power by a key of the aerosol-generating device.

S408, displaying the target initial power in a first display area;

specifically, the target initial power is displayed in the first display area in real time, which is beneficial for a user to quickly and intuitively know the adjusted target initial power.

S410, acquiring an initial power adjustment confirmation request sent by a user;

specifically, steps S406 to S408 are executed in a loop until the user sends a request for confirming initial power adjustment by inputting voice through a button and/or a microphone of the aerosol generating apparatus.

S412, responding to the initial power adjustment confirmation request, and updating initial power data set by a user according to the target initial power.

The target initial power is covered with the initial power data set by the user through the initial power adjusting confirmation request, the initial power data set by the user is prevented from being updated by mistake due to misoperation of the user, and therefore user experience is improved.

In one embodiment, the method further comprises: obtaining a smoke value list; calculating to obtain a total smoke value score according to the smoke value list; acquiring a suction grade corresponding list; and determining the suction level of the user according to the smoke value total score and the suction level corresponding list.

And adding all the smoke values in the smoke value list to obtain a total smoke value score.

And recording grade names and smoke value ranges in the corresponding list of the suction grades.

For example, the class name is IRON, and the smoke value range is 0 to 40 ten thousand smoke values; the grade name is Bronze, and the smoke value ranges from 40 to 120 ten thousand, which is not limited in this example.

And searching and determining the suction level of the user in the suction level corresponding list according to the smoke value total score.

For example, if the total smoke value is 110 ten thousand and 110 ten thousand are within the range of the smoke value with the grade name of Bronze (40 to 120 ten thousand), the user smoking grade is Bronze, which is not limited in this example.

As shown in fig. 5, in one embodiment, the method further comprises:

s502, acquiring a pumping level checking request sent by a user;

in particular, the user enters a request to view the puff level by voice through a button and/or microphone of the aerosol generating device.

S504, responding to the suction level checking request, and acquiring total suction time;

specifically, in response to the suction level checking request, a suction time length list is acquired, and all suction time length data in the suction time length list are added to obtain the total suction time length.

S506, displaying the suction level of the user in a sixth display area;

specifically, the user suction level is displayed in a sixth display area. For example, the IRON is displayed in the sixth display area, which is not limited to this example.

S508, displaying the total smoke value in a seventh display area;

specifically, the numerical value of the smoke value total score is displayed in a seventh display area. For example, the smoke value of 110 ten thousand is shown as 1100K, which is not limited to this example.

And S510, displaying the total pumping time in an eighth display area.

Specifically, the numerical value of the total pumping time period and the time period unit MIN (minutes) are displayed in the eighth display area. For example, display 110MIN, which is not specifically limited herein.

The total filling of suction can be intuitively known by the user through visually displaying the suction level, the total smoke value score and the total suction duration of the user in the embodiment, the interactivity of the aerosol generating equipment and the user is improved, the suction pleasure of the user is increased, and the user experience of the aerosol generating equipment is improved.

the method further comprises the following steps: when the aerosol generating device is ignited, the display screens corresponding to the first display area and the fifth display area display the initial power of the last suction; after ignition of the aerosol generating device is finished, the display screens corresponding to the first display area and the fifth display area display the last suction ending power.

Under the condition that the size of the display screen is limited, the first display area and the fifth display area are arranged at the same position of the display screen of the aerosol generating device, so that the sizes of the first display area, the second display area, the third display area and the fourth display area are increased, and the suction data display method is suitable for the aerosol generating device with the smaller display screen size.

In another embodiment, the first display area, the second display area, the third display area, the fourth display area, and the fifth display area are simultaneously located on a display screen of the aerosol-generating device. The user can visually check the initial power of the last suction, the suction duration of the last suction, the smoke value of the last suction, the suction progress of the last suction and the finish power of the last suction, and the user experience is further improved.

In one embodiment, the first display region, the second display region, the third display region, the fourth display region, the fifth display region, the sixth display region, the seventh display region, and the eighth display region are simultaneously located on a display screen of the aerosol-generating device. All the suction data are visually displayed, the interactivity of the aerosol generating equipment and a user is further improved, the suction pleasure of the user is increased, and the user experience of the aerosol generating equipment is improved.

In another embodiment, only the first display area, the second display area, the third display area, the fourth display area and the fifth display area are simultaneously positioned on the display screen of the aerosol generating device after the aerosol generating device receives a request for displaying the puff data sent by a user; and when the aerosol generating equipment receives a request sent by a user for viewing the suction level, the display screen only displays the sixth display area, the seventh display area and the eighth display area after being refreshed. The suction data display method is suitable for aerosol generating equipment with a small display screen size through the time-sharing multiplexing display screen.

In one embodiment, the method further comprises:

acquiring a suction ignition starting signal;

responding to the suction ignition signal, and acquiring initial power data set by a user;

when the initial power data set by the user is null, acquiring the resistance value of an atomizer of aerosol generating equipment, acquiring an original power corresponding table, matching the resistance value of the atomizer in the original power corresponding table to obtain original power, and taking the original power as the current initial power of suction;

when the initial power data set by the user is not empty, taking the initial power data set by the user as the initial power of the current suction;

updating the initial power of the last suction according to the initial power of the current suction;

displaying the initial power of the latest suction in a first display area, displaying a second display area as an initialization value, displaying a third display area as an initialization value, displaying a fourth display area as an initialization value and displaying a fifth display area as an initialization value;

acquiring a suction ignition end signal;

responding to the suction ignition end signal, and acquiring the initial power of the last suction, the suction time length of the last suction, the smoke value of the last suction, the suction progress of the last suction and the end power of the last suction;

displaying the initial power of the last suction in a first display area;

displaying the latest smoking smoke value in a third display area;

displaying the suction progress of the last suction in a fourth display area;

displaying the last suction ending power in a fifth display area.

It will be appreciated that the time between the puff start signal and the puff end signal is taken as a complete puff period.

In the embodiment, between the smoking ignition starting signal and the smoking ignition ending signal, the aerosol generating device is in a smoke generating state, and the initial power is only displayed in the first display area. Therefore, the data display in the smoking process of the user is simplified, and the working steps of the smoking data display method are simplified.

In another embodiment, the method further comprises:

acquiring a suction ignition starting signal;

displaying the initial power of the last suction in a first display area;

displaying the pumping time length of the current pumping in a second display area in real time;

displaying the current smoke value in a third display area in real time;

displaying the pumping progress of the current pumping in a fourth display area in real time;

displaying the current pumping end power in a fifth display area in real time;

acquiring a suction ignition end signal;

displaying the initial power of the last suction in a first display area;

displaying the latest smoking smoke value in a third display area;

displaying the suction progress of the last suction in a fourth display area;

displaying the last suction ending power in a fifth display area.

Between this embodiment suction ignition start signal to suction ignition end signal, aerosol production equipment is in the production smog state, shows the suction data in real time, and convenience of customers 'quick audio-visual real-time understanding suction state has further improved aerosol production equipment and user's interactivity, has further increased the enjoyment of user's suction, has further improved aerosol production equipment's user experience.

In one embodiment, the operation mode of the aerosol generating device comprises a plurality of operation modes, and all the pumping data adopted by the pumping data display method of the application refers to the operation data of the aerosol generating device in one operation mode. For example, the operation modes of the aerosol generating device include a fast mode, a constant power mode, a temperature control mode, and a port mode, and all the pumping data adopted by the pumping data display method refer to the operation data of the aerosol generating device in the port mode, which is not limited in this example.

In another embodiment, the operation mode of the aerosol generating device comprises a plurality of operation modes, and all the pumping data adopted by the pumping data display method of the application refers to the operation data of the aerosol generating device in at least two operation modes. For example, the operation modes of the aerosol generating device include a fast mode, a constant power mode, a temperature control mode, and a port mode, and all the pumping data adopted by the pumping data display method refer to all the operation data of the aerosol generating device in the port mode and the fast mode, which is not limited in this example.

In another embodiment, all puff data used in the puff data display method of the present application refers to all operational data for all operational modes of the aerosol generating device.

As shown in fig. 6, in one embodiment, a puff data display device is provided for use in an aerosol generating apparatus, the device comprising:

a user request receiving mechanism 602 for obtaining a display puff data request sent by a user;

a user request response mechanism 604 for obtaining the initial power of the last suction, the suction duration of the last suction, the smoke value of the last suction, the suction progress of the last suction, and the ending power of the last suction according to the displayed suction data request;

the smoking data management mechanism 606 is configured to display the initial power of the latest smoking in a first display area, display the smoking duration of the latest smoking in a second display area, display the smoke value of the latest smoking in a third display area, display the smoking progress of the latest smoking in a fourth display area, and display the ending power of the latest smoking in a fifth display area.

After acquiring a suction data display request sent by a user, the suction data display device of the embodiment displays the initial power of the latest suction in a first display area, displays the suction time of the latest suction in a second display area, displays the smoke value of the latest suction in a third display area, and displays the suction progress of the latest suction in a fourth display area; the last suction ending power is displayed in the fifth display area, the suction data is displayed in time, a user of the aerosol generating equipment can conveniently and visually know the suction state, interactivity of the aerosol generating equipment and the user is improved, the suction fun of the user is increased, and user experience of the aerosol generating equipment is improved.

In one embodiment, an aerosol-generating device is presented, comprising at least one memory, at least one processor, the memory storing a program of computer instructions which, when executed by the processor, causes the processor to carry out the method steps of:

acquiring a pumping data display request sent by a user;

displaying the initial power of the last suction in a first display area;

displaying the latest smoking smoke value in a third display area;

displaying the suction progress of the last suction in a fourth display area;

displaying the last suction ending power in a fifth display area.

After acquiring a request for displaying suction data sent by a user, displaying the initial power of the latest suction in a first display area, displaying the suction time of the latest suction in a second display area, displaying the smoke value of the latest suction in a third display area, and displaying the suction progress of the latest suction in a fourth display area; the last suction ending power is displayed in the fifth display area, the suction data is displayed in time, a user of the aerosol generating equipment can conveniently and visually know the suction state, interactivity of the aerosol generating equipment and the user is improved, the suction fun of the user is increased, and user experience of the aerosol generating equipment is improved.

An aerosol generating device is a device for heating and gasifying an aerosol product to form aerosol, for example, the aerosol generating device heats and atomizes tobacco tar to form smoke for a user to eat.

The aerosol (aerosol) is a colloidal dispersion system formed by dispersing small solid or liquid particles in a gas medium and suspending the particles in the gas medium, and is also called a gas dispersion system. The dispersion phase is solid or liquid small particles with a size of 0.001-100 μm, and the dispersion medium is gas. Liquid aerosols are commonly referred to as mists, and solid aerosols are commonly referred to as mists.

As shown in fig. 7-9, in one embodiment, the aerosol-generating device comprises a housing 710, at least one display screen 720, at least one key 740 for receiving user-pressed input instructions, a controller;

the display screen 720 and the keys 740 are connected with the outer surface of the shell 710;

the controller is electrically connected with the keys 740 and all the display screens 720.

The Controller may be a PLC (Programmable Logic Controller) and/or an FPGA (Field Programmable Gate Array), which is not limited in this embodiment.

The display screen may be selected from the prior art according to the size and display requirements of the aerosol generating device and will not be described in detail herein.

The housing is a cylindrical body, such as a cylinder or a rectangular parallelepiped, and the examples herein are not limited specifically. The housing may be made of metal, and this is not a specific limitation.

In one embodiment, the aerosol generating device further comprises a microphone 730 for receiving user input sound;

the microphone 730 is positioned inside the shell 710 and is communicated with the outside;

the controller is electrically connected with the microphone 730.

The microphone may be selected from the prior art, and is not specifically limited by way of example.

In one embodiment, as shown in figures 8 and 9, the aerosol generating device further comprises a filter 770, the filter 770 being mounted at one end of the housing.

As shown in fig. 9, in one embodiment, the apparatus further comprises: an atomizer for heating and atomizing the aerosol;

the atomizer comprises a base 750 and an atomizing core assembly, the atomizing core assembly is mounted on the base 750, and the base 750 is provided with at least two yielding ports communicated with the atomizing core assembly;

the housing is provided with at least two air inlets 712, and the base 750 is detachably connected to the housing, so that the aerosol generating device has a first ventilation state that the two relief ports are communicated with the two air inlets 712; and one of the relief ports is communicated with the air inlet 712, and the other of the relief ports and the air inlet 712 are in a non-conductive second ventilation state. So when the user uses, the user can select the state that base 750 connects in the shell according to self needs, thereby make aerosol production equipment be first ventilation state or second ventilation state, when first ventilation state, because two let position mouthful all communicate with two air inlets 712, thereby the air input is great, and when the second ventilation state, because an air inlet 712 is in non-conduction state, thereby the air input is less, consequently can be to different users and select different ventilation state, and then produce the smog volume of different concentrations, the suitability of aerosol production equipment has been improved, the user need not to change the tobacco tar and can obtain different tastes, save the expense and promote user's experience.

The shape and structure of the base 750 can be configured according to the prior art, and will not be described herein.

The atomizing core assembly includes a heated atomizing core 761, a fixing bracket 762 for mounting the atomizing core 761. The atomizing core 761 may be selected from ceramic atomizing cores 761 from the prior art, and is not specifically limited by way of example.

It will be appreciated that the atomizing core assembly is mounted within the housing 710 and the aerosol generated by the heating is drawn through the filter 770.

Fixed bolster 762 is equipped with atomizing core 761 and accomodates the chamber, atomizing core 761 accomodates the chamber and is equipped with the through-hole with outside intercommunication, atomizing core 761 is installed in atomizing core 761 accomodates the chamber.

In one embodiment, the two receding ports are formed in the side wall of the base 750, the two receding ports are respectively a first receding port 751 and a second receding port 752, the opening size of the first receding port 751 is larger than that of the second receding port 752, and a shielding member is connected in the housing; when the first aerosol generating device is in a first ventilation state, the shielding piece partially shields the first relief port 751; when the first aerosol generating device is in the second ventilation state, the shielding piece completely shields the second escape opening 752.

Fig. 10 shows that the first display area and the fifth display area are located at the same position of the display screen of the aerosol-generating device, and the display of the first display area, the second display area, the third display area, the fourth display area and the fifth display area on the display screen is schematically shown.

Fig. 11 shows a display schematic diagram of only the sixth display area, the seventh display area and the eighth display area on the display screen after the aerosol generating device receives a refresh of the display screen sent by a user to check the suction level request.

It should be noted that the above-mentioned method for displaying puff data, device for displaying puff data, and aerosol-generating device belong to a general inventive concept, and the contents of the embodiments of the method for displaying puff data, device for displaying puff data, and aerosol-generating device are applicable to each other.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A puff data display method for use in an aerosol generating device, the method comprising:

acquiring a pumping data display request sent by a user;

displaying the initial power of the last suction in a first display area;

displaying the latest smoking smoke value in a third display area;

displaying the suction progress of the last suction in a fourth display area;

displaying the last suction ending power in a fifth display area.

2. The method of claim 1, wherein said obtaining a smoke value of a most recent puff comprises:

updating a list of smoke values according to the smoke value of the last puff.

3. The method of claim 1, wherein said obtaining an end power of a last puff comprises:

4. The method of claim 3, wherein calculating the end power of the last puff from the initial power of the last puff and the puff length of the last puff comprises:

acquiring a preset power increase rate and a preset ending power;

5. The method of claim 1, wherein said obtaining a puff schedule for a last puff comprises:

acquiring a preset longest pumping time;

acquiring the total number of preset progress bars;

6. The method of any one of claims 1 to 5, further comprising, after the request for display puff data when the request for display puff data is sent for the first time by a user after the aerosol generating device is powered on:

and displaying the initial power of the last suction in a first display area.

7. The method of claim 6, further comprising, after said displaying the initial power of the most recent puff in a first display area:

8. The method of any one of claims 1 to 5, further comprising, after said displaying the last puff's ending power in a fifth display area:

acquiring an initial power adjustment request sent by a user;

acquiring target initial power sent by a user;

displaying the target initial power in a first display area;

acquiring an initial power adjustment confirmation request sent by a user;

9. The method according to any one of claims 1 to 5, further comprising:

obtaining a smoke value list;

acquiring a suction grade corresponding list;

10. The method of claim 9, further comprising:

acquiring a suction level checking request sent by a user;

displaying the user puff level in a sixth display area;

displaying the total smoke value in a seventh display area;

and displaying the total pumping time in an eighth display area.

11. A method according to any of claims 1 to 5, wherein the first display region and the fifth display region are co-located on a display screen of an aerosol generating device;

the method further comprises the following steps:

12. A puff data display device for use in an aerosol generating apparatus, the device comprising:

13. An aerosol generating device comprising at least one memory, at least one processor, the memory storing a program of computer instructions which, when executed by the processor, causes the processor to carry out the steps of the method of any one of claims 1 to 11.

14. The apparatus of claim 13, further comprising: the device comprises a shell, at least one display screen, at least one key for receiving a user pressing input instruction and a controller;

15. The apparatus of claim 14, further comprising: a microphone for receiving the voice input by the user;

the microphone is positioned in the shell and is communicated with the outside;

the controller is electrically connected with the microphone.

16. The apparatus according to claim 14 or 15, characterized in that it further comprises: an atomizer for heating and atomizing the aerosol;