CN111109673A

CN111109673A - Heating needle adaptation detection method and device, storage medium and electronic smoking set

Info

Publication number: CN111109673A
Application number: CN201911319994.2A
Authority: CN
Inventors: 黄园孝; 崔弘明; 王龙海; 何伟
Original assignee: Huizhou Peggs Technology Co ltd
Current assignee: Huizhou Peggs Technology Co ltd
Priority date: 2019-12-19
Filing date: 2019-12-19
Publication date: 2020-05-08

Abstract

The application provides a heating pin adaptation detection method for carrying out adaptation detection to the heating pin of installing in the electron smoking set, the electron cigarette has first temperature detect port and second temperature detect port, includes: judging whether an initial voltage value between a first temperature detection port and a second temperature detection port is 0 or not; heating the heating needle; judging whether the voltage change between the first temperature detection port and the second temperature detection port is positive change or not; judging whether the temperature change rate of the heating needle is within a preset rate range or not; judging whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range; judging whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, if so, judging that the adaptation of the heating needle fails, and stopping heating; if not, judging that the heating needle is successfully adapted; stopping heating or entering a sucking stage.

Description

Heating needle adaptation detection method and device, storage medium and electronic smoking set

Technical Field

The application relates to the field of electronic smoking sets, in particular to a heating needle adaptation detection method, a heating needle adaptation detection device, a heating needle adaptation detection medium and an electronic smoking set.

Background

In the non-burning type and dry burning type of heating electronic smoking set of prior art, adopt the non-detachable heating pin to generate heat in alternating magnetic field usually, hardly use the electronic smoking set of detachable heating pin, however, the detachable heating pin compares in non-detachable heating pin, it matches the degree to like, all has huge advantage in the aspect of electronic smoking set manufacturer selection flexibility ratio and the after-sale maintenance of electronic smoking set, however, to the detachable heating pin, at the in-process of changing the heating pin, must have the model of heating pin not match and the unstable scheduling problem of heating pin equipment, consequently, to the detachable heating pin, at the in-process of changing the heating pin, how to carry out the adaptation detection to the heating pin is the present problem of waiting to solve urgently.

Disclosure of Invention

The application provides a heating needle adaptation detection method, a heating needle adaptation detection device, a medium and an electronic smoking set, and aims to solve the problem of how to perform adaptation detection on a heating needle.

The application provides a heating pin adaptation detection method for carrying out adaptation detection to the heating pin of installing in the electron smoking set, the electron cigarette has first temperature detect port and second temperature detect port, includes:

judging whether an initial voltage value between the first temperature detection port and the second temperature detection port is 0 or not;

heating the heating needle;

judging whether the voltage change between the first temperature detection port and the second temperature detection port is positive change;

judging whether the temperature change rate of the heating needle is within a preset rate range or not;

judging whether voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range or not; and

judging whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, if so, judging that the adaptation of the heating needle fails, and stopping heating; if not, judging that the heating needle is successfully adapted;

stopping heating or entering a sucking stage.

In the heating pin adaptation detecting method provided by the present application, the step of determining whether an initial voltage value between the first temperature detection port and the second temperature detection port is 0 includes:

adjusting the output voltage of the power control circuit to a preset voltage value;

acquiring an initial voltage value between the first temperature detection port and the second temperature detection port; and

and judging whether the initial voltage value is 0 or not, if so, executing the step of heating the heating needle, and if not, giving up the identification.

In the heating needle fitting detection method provided by the present application, the step of heating the heating needle includes:

obtaining the initial temperature of the heating needle according to the initial voltage value; and

the power control circuit generates an alternating magnetic field according to the initial temperature and the preset voltage value so as to heat the heating needle.

In the heating pin adaptation detecting method provided by the present application, the step of generating an alternating magnetic field by the power control circuit according to the initial temperature by the preset voltage value to heat the heating pin includes:

judging whether the initial temperature is higher than a preset temperature point or not;

if not, the power control circuit generates an alternating magnetic field by adopting first heating power according to the preset voltage value so as to heat the heating needle; and

if so, the power control circuit generates an alternating magnetic field with the preset voltage value by adopting second heating power to heat the heating needle, wherein the first heating power is higher than the second heating power.

In the heating pin adaptation detecting method provided by the present application, the step of determining whether a voltage variation between the first temperature detection port and the second temperature detection port is a positive variation includes:

collecting a plurality of first voltage values between the first temperature detection port and the second temperature detection port within a first time period; and

and judging whether the first voltage values are increased along with the increase of time, if not, judging that the adaptation of the heating needle fails, stopping heating, and if so, executing the step of judging whether the temperature change rate of the heating needle is in a preset rate range.

In the heating needle adaptation detecting method provided by the present application, the step of determining whether the temperature change rate of the heating needle is within a preset rate range includes:

collecting a plurality of second voltage values between the first temperature detection port and the second temperature detection port within a second time period;

obtaining a plurality of first temperature values of the heating needle according to the plurality of second voltage values; and

and judging whether the change rate of the plurality of first temperature values is within a preset temperature range, if not, judging that the adaptation of the heating needle fails, stopping heating, and if so, executing the step of judging whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range.

In the heating pin adaptation detecting method provided by the present application, the step of determining whether voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range includes:

collecting a plurality of third voltage values between the first temperature detection port and the second temperature detection port within a third time period; and

and judging whether the difference value between the first voltage value and the last voltage value in the plurality of third voltage values is within a first preset voltage fluctuation range or whether the difference value between the maximum value and the minimum value in the plurality of third voltage values is within a second preset voltage fluctuation range, if not, judging that the adaptation of the heating needle fails, stopping heating, and if so, executing the step of judging whether at least one of the plurality of voltage values between the first temperature detection port and the second temperature detection port is 0.

In the heating pin adaptation detecting method provided by the present application, the step of determining whether at least one of the plurality of voltage values between the first temperature detection port and the second temperature detection port is 0 includes:

collecting a plurality of fourth voltage values between the first temperature detection port and the second temperature detection port during a fourth time period; and

and judging whether at least one of the fourth voltage values is 0, if so, judging that the adaptation of the heating needle fails, stopping heating, and if not, judging that the adaptation of the heating needle is successful.

In the heating needle fitting detection method provided by the present application, between the step of determining that the heating needle fitting has failed and the step of stopping heating, the method further includes:

and outputting adaptation failure information.

In the heating needle fitting detection method provided by the present application, between the step of determining that the heating needle is determined to be successfully fitted and the step of stopping heating or entering a suction phase, the method further includes:

and outputting the adaptation success information.

In the heating needle fitting detection method provided by the present application, between the step of outputting the fitting success information and the step of stopping heating or entering the suction phase, the method further includes:

and judging whether to enter a sucking stage according to user selection, if not, stopping heating, and if so, entering the sucking stage.

The application still provides a heating pin adaptation detection device for it detects to carry out the adaptation to installing the heating pin in the electron smoking set, the electron cigarette has first temperature detect port and second temperature detect port, includes:

the first judgment module is used for judging whether an initial voltage value between the first temperature detection port and the second temperature detection port is 0 or not;

starting a heating module for heating the heating needle;

the second judgment module is used for judging whether the voltage change between the first temperature detection port and the second temperature detection port is positive change or not;

the third judging module is used for judging whether the temperature change rate of the heating needle is within a preset rate range or not;

the fourth judging module is used for judging whether voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range or not;

a fifth judging module, configured to judge whether at least one of the voltage values between the first temperature detecting port and the second temperature detecting port is 0, and if so, judge that the adaptation of the heating pin fails, and stop heating; if not, judging that the heating needle is successfully adapted; and

and the heating stopping module is used for controlling the heating stopping of the heating needle.

The present application further provides a storage medium having stored therein a plurality of instructions adapted to be loaded by a processor to perform the heating pin fitting detection method as described above.

The present application further provides an electronic smoking article comprising:

a housing;

a first temperature detection port and a second temperature detection port disposed within the housing;

the heating needle is detachably arranged in the shell, a temperature sensor is arranged in the heating needle, and the temperature sensor is used for being electrically connected with the first temperature detection port and the second temperature detection port;

the magnetic field generator is arranged in the shell and used for generating an alternating magnetic field to heat the heating needle;

a memory disposed within the housing;

a processor disposed within the housing, the processor configured to perform the heater pin fitting detection method as previously described.

The application provides a heating needle adaptation detection method, a heating needle adaptation detection device, a storage medium and an electronic smoking set, wherein the heating needle adaptation detection method is used for carrying out adaptation detection on a heating needle installed in the electronic smoking set, the electronic cigarette is provided with a first temperature detection port and a second temperature detection port, the method judges whether an initial voltage value between the first temperature detection port and the second temperature detection port is 0 or not so as to judge whether the heating needle is an identified heating needle or not, if the heating needle is not the identified heating needle, then the heating needle is heated, judges whether a voltage change between the first temperature detection port and the second temperature detection port is a forward change or not so as to judge whether a basic type of the heating needle is matched with the electronic smoking set or not, and if the basic type of the heating needle is matched with the electronic smoking set, judges whether a temperature change rate of the heating needle is within a preset rate range or not, to determine whether the temperature variation law of the heating pin is matched with an electronic smoking set, if so, to determine whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range, to determine whether the voltage fluctuation of the temperature sensor within a certain time period is matched with the preset fluctuation range of the electronic smoking set within a certain time period, if so, to determine whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, to determine whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are disconnected at a certain time point in the heating process, that is, whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are stably connected, if at least one of the voltage values between the first temperature detection port and the second temperature detection port is 0, that is, there is a problem of disconnection at a certain time point, and if the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is not stable, it is determined that the adaptation is failed, and the heating pin is stopped being heated, and if the voltage values between the first temperature detection port and the second temperature detection port are not 0, that is, there is no problem of disconnection, and the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is stable, it is determined that the adaptation is successful, and then the heating is stopped or the smoking stage is entered, therefore, the heating pin adaptation detection method, the apparatus, and the electronic smoking stage are provided by the present application, Storage medium and electron smoking set to detachable heating pin, is changing the in-process of heating pin, has solved the problem how to carry out adaptation detection to the heating pin.

Drawings

In order to more clearly illustrate the technical solutions in the present application, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a first flowchart of a heating pin fitting detection method provided in the present application.

Fig. 2 is a second flowchart of a heating pin fitting detection method provided in the present application.

Fig. 3 is a schematic structural diagram of a heating needle provided in the present application.

Fig. 4 is a schematic structural diagram of a first structure of a heating pin fitting detection device provided by the present application.

Fig. 5 is a schematic structural diagram of a second structure of the heating pin fitting detection device provided by the present application.

Fig. 6 is a schematic structural diagram of an electronic cigarette provided in the present application.

Detailed Description

The technical solution in the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It should be apparent that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any inventive step based on the embodiments in the present application, are within the scope of protection of the present application.

Referring to fig. 1-3, the present application provides a method for detecting the fitting of a heating pin. The heating needle adaptation detection method is used for carrying out adaptation detection on a heating needle installed in an electronic smoking set, and the electronic smoking set is provided with a first temperature detection port and a second temperature detection port. The heating needle adaptation detection method comprises the following steps:

101. and judging whether the initial voltage value between the first temperature detection port and the second temperature detection port is 0 or not.

The first temperature detection port and the second temperature detection port are used for being electrically connected with a temperature sensor in the heating needle. In identifying the heating pin, there are many scenarios of matching or mismatching, for example, in one usage scenario, referring to fig. 3, the heating pin may include a housing, a heat-generating core, and a temperature sensor. The temperature sensor may be a thermocouple. The temperature sensor may be a thermocouple disposed in the middle of the heat generating core. In other usage scenarios, the heating needle may be a heating needle that does not include a temperature sensor, a heating needle that is not located in an uncertain position may be provided for a temperature sensor, a heating needle that is not a thermocouple, or a heating needle that has already been identified.

In this step, when a heating pin in an unknown state is mounted in the electronic smoking set, it is determined whether an initial voltage value between the first temperature detection port and the second temperature detection port is 0, and when the initial voltage value between the first temperature detection port and the second temperature detection port is not 0, the temperature sensor in the heating pin is a thermocouple, and if there is a potential difference in the thermocouple, that is, the heating pin is used in a short time, which indicates that the heating pin is an identified heating pin, the identification of the heating pin is stopped.

When the initial voltage value between the first temperature detection port and the second temperature detection port is 0, there is no potential difference in the temperature sensor in the heating needle, that is, the heating needle may not be used for a long time, or there is no temperature sensor in the heating needle, or the temperature sensor in the heating needle is not electrically connected to the first temperature detection port and the second temperature detection port, and the step 102 is continuously executed.

In one embodiment, the step 101 may include:

1011. adjusting the output voltage of the power control circuit to a preset voltage value;

the electronic smoking set comprises a power control circuit, and the power control circuit is used for controlling the power for heating the heating needle.

1012. An initial voltage value between the first temperature detection port and the second temperature detection port is collected.

1013. And judging whether the initial voltage value is 0 or not.

If not, stopping recognizing the heating needle again, namely giving up recognition; if yes, go on to step 102.

Before the step 101, the method may further include: when the electronic smoking set is turned on each time, step 101 is executed.

102. And heating the heating needle.

Wherein, the electron smoking set is the vortex heating type electron smoking set. The electronic smoking set comprises a magnetic field generator, and the magnetic field generator is used for generating an alternating magnetic field to enable the heating needle to generate heat, so that the tobacco shreds are baked. In identifying the heating pin, there are many scenarios of matching or mismatching, for example, in one usage scenario, referring to fig. 3, the heating pin may include a housing, a heat-generating core, and a temperature sensor. The temperature sensor may be a thermocouple. The temperature sensor may be a thermocouple disposed in the middle of the heat generating core. The heat generating core may generate heat in an alternating magnetic field. In other usage scenarios, the heating needle may also be a heating needle that is not capable of generating heat in an alternating magnetic field. Therefore, it is necessary to determine whether the heating pin generates heat in the alternating magnetic field generated by the electronic smoking set, and whether the temperature rising rule of the heating pin and the temperature sensing rule of the temperature sensor match the electronic smoking set, and then step 103 is continuously executed.

In one embodiment, the step 102 may include:

1021. obtaining the initial temperature of the heating needle according to the initial voltage value;

1022. the power control circuit generates an alternating magnetic field according to the initial temperature and the preset voltage value so as to heat the heating needle.

Wherein the step 1022 may include:

1022a, judging whether the initial temperature is higher than a preset temperature point; if not, go to step 1022 b; if not, go to step 1022 c.

The preset temperature point may be a temperature point which is used for judging whether the environment where the heating needle is located is in a room temperature state or a high temperature state, the room temperature state is that the electronic smoking set is used in a short time and the temperature is at the room temperature before the heating needle is installed in the electronic smoking set, and the high temperature state is that the electronic smoking set is used in a short time and the temperature is still in the high temperature state before the heating needle is installed in the electronic smoking set.

1022b, the power control circuit generates an alternating magnetic field with the preset voltage value by adopting a first heating power so as to heat the heating needle.

1022c, the power control circuit generates an alternating magnetic field with the preset voltage value by adopting a second heating power so as to heat the heating needle.

Wherein the first heating power is higher than the second heating power. Before the heating needle is installed in the electronic smoking set, the electronic smoking set is used in a short time, the temperature is at room temperature, namely, the electronic smoking set is in a room temperature state, high power is needed to heat the heating needle, the heating needle is promoted to be rapidly heated, and the temperature of a tobacco shred containing part of the electronic smoking set is further rapidly raised; before the heating needle is installed in the electronic smoking set, the electronic smoking set is used in a short time, the temperature is still in a high-temperature state, and the heating needle needs to be heated by low power, so that the heating needle is prevented from being heated too fast, and the temperature of a tobacco shred containing part of the electronic smoking set exceeds a preset temperature.

103. And judging whether the voltage change between the first temperature detection port and the second temperature detection port is positive change.

And judging whether the corresponding relation between the temperature and the voltage of the temperature sensor is matched with a preset rule in the electronic smoking set or not by judging whether the voltage change between the first temperature detection port and the second temperature detection port is a positive change or not.

The positive change is an increase in the detected voltage between the first temperature detection port and the second temperature detection port with an increase in time.

Different temperature sensors have different corresponding relationships between temperature and voltage, and different temperature detection control programs of the electronic smoking set have a certain corresponding relationship between temperature and voltage, so that it is necessary to determine whether the temperature sensor of the heating pin installed in the electronic smoking set is matched with the electronic smoking set.

If the voltage change between the first temperature detection port and the second temperature detection port is not a positive change, the scenarios that can be included in this case may include, but are not limited to, the following: A. if the heating needle does not have a thermocouple, the voltage between the first temperature detection port and the second temperature detection port cannot be measured, and the value returned by the voltage sensing element is always 0; B. the heating core of the heating needle is a heating core which cannot generate heat in the alternating magnetic field, therefore, the heating needle is heated by applying the alternating magnetic field in advance, the temperature of the heating needle is not changed, and the voltage between the first temperature detection port and the second temperature detection port is not changed; C. and if the thermocouple in the heating pin is not electrically connected with the first temperature detection port and the second temperature detection port, the voltage between the first temperature detection port and the second temperature detection port cannot be measured, and the value returned by the voltage sensing element is always 0. In the above several scenes, namely, the heating needle installed in the electronic smoking set is not matched with the electronic smoking set, the recognition failure is judged, and the heating is stopped.

If the voltage change between the first temperature detection port and the second temperature detection port is a positive change, a thermocouple is arranged in the heating pin, the thermocouple is electrically connected with the first temperature detection port and the second temperature detection port, and the heating core of the heating pin is a heating pin capable of generating heat in an alternating magnetic field, that is, the type of the heating pin installed in the electronic smoking set is matched with the preset type in the electronic smoking set, then the step 104 is continued.

In one embodiment, the step 103 may include:

1031. a plurality of first voltage values between the first temperature detection port and the second temperature detection port are collected over a first time period.

1032. Judging whether the first voltage values increase along with the increase of time; if not, judging that the adaptation of the heating needle fails, and stopping heating; if yes, go to step 104.

Wherein the first period of time may be a period of time from 500 milliseconds to 800 milliseconds from the start of heating. The number of the first voltage values can be flexibly set according to different interval time according to actual needs, for example, 50, 80, and the like.

104. And judging whether the temperature change rate of the heating needle is in a preset rate range or not.

The heating needles have different heating rates in the alternating magnetic field due to different types, such as length, thickness, shape or material, and the heating control programs of different electronic smoking sets have a certain preset rate range, so it is necessary to determine whether the heating rate of the heating needle installed in the electronic smoking set matches the preset rate range of the electronic smoking set.

If the temperature change rate of the heating needle is not in the preset rate range, judging that the identification fails and stopping heating if the temperature rise rate of the heating needle installed in the electronic smoking set is not matched with the preset rate range of the electronic smoking set; if the temperature change rate of the heating pin is within the preset rate range, the temperature rise rate of the heating pin installed in the electronic smoking set is matched with the preset rate range of the electronic smoking set, and then the step 105 is continuously executed.

In one embodiment, the step 104 may include:

1041. collecting a plurality of second voltage values between the first temperature detection port and the second temperature detection port within a second time period;

1042. obtaining a plurality of first temperature values of the heating needle according to the plurality of second voltage values; and

1043. judging whether the change rate of the plurality of first temperature values is within a preset temperature range or not; if not, judging that the adaptation of the heating needle fails, and stopping heating; if yes, go to step 105.

Wherein the second period of time may be a period of time from 1 second to 3 seconds from the start of heating. The number of the first voltage values can be flexibly set according to different interval time according to actual needs, for example, 30, 50, and the like.

105. And judging whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range.

The temperature sensor is characterized in that the temperature sensor is of different types, and the voltage values at two ends of the temperature sensor are not linear along with the change curve of the temperature at different temperatures, the slope of the temperature sensor is different in different time periods, namely, the voltage fluctuation between the first temperature detection port and the second temperature detection port is different in different time periods, so that whether the voltage fluctuation of the temperature sensor in a certain time period is matched with the preset fluctuation range of the electronic smoking set in a certain time period needs to be judged.

If the voltage fluctuation between the first temperature detection port and the second temperature detection port is not within a preset fluctuation range, judging that the identification is failed, and stopping heating; if the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range, the step 106 is continuously executed.

In one embodiment, the step 105 may include:

1051. collecting a plurality of third voltage values between the first temperature detection port and the second temperature detection port within a third time period;

1052. judging whether the difference value of the first voltage value and the last voltage value in the plurality of third voltage values is within a first preset voltage fluctuation range or whether the difference value of the maximum value and the minimum value in the plurality of third voltage values is within a second preset voltage fluctuation range; if not, judging that the adaptation of the heating needle fails, and stopping heating; if yes, go to step 106.

Wherein the third period of time may be a period of time from 5 seconds to 8 seconds from the start of heating. The number of the first voltage values can be flexibly set according to different interval time according to actual needs, for example, 50, 100, and the like.

106. Judging whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, if so, judging that the adaptation of the heating needle fails, and stopping heating; if not, the heating needle is judged to be successfully adapted.

In the identification process of the heating pin of the electronic smoking set, the electronic smoking set may be heated, and the situation that the user moves or shakes the electronic smoking set may also be included, at this time, the dropping of the heating pin or the connection between the temperature sensor and the first temperature detection port and the second temperature detection port of the electronic smoking set is easy to occur, so that it is necessary to detect the stability of the heating pin in the electronic smoking set.

Judging whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0 or not within a certain time period, if so, judging that the identification fails and stopping heating if a situation that a temperature sensor of a heating needle and the first temperature detection port and the second temperature detection port of the electronic cigarette are temporarily disconnected or permanently disconnected within the certain time period; if not, in the time period, the connection stability of the temperature sensor of the heating needle and the first temperature detection port and the second temperature detection port of the electronic cigarette is high, and the recognition is judged to be successful.

In one embodiment, the step 106 may include:

1061. collecting a plurality of fourth voltage values between the first temperature detection port and the second temperature detection port during a fourth time period;

1062. judging whether at least one of the plurality of fourth voltage values is 0; if so, judging that the adaptation of the heating needle fails, and stopping heating; if not, the heating needle is judged to be successfully adapted.

Wherein the fourth period of time may be a period of time from 10 seconds to 20 seconds from the start of heating. The number of the first voltage values can be flexibly set according to different interval time according to actual needs, for example, 50, 100, and the like.

107. Stopping heating or entering a sucking stage.

In one embodiment, after the step of determining that the heating pin fitting fails, the method further includes:

and 108, outputting adaptation failure information.

Wherein, the adaptation failure information can have the display screen that sets up on the electron smoking set to show, also can show through the vibration, can also show the information of suggestion failure through the speaker, can choose the information of failure of LED lamp suggestion again for use.

In one embodiment, after the step of determining that the heating pin determines that the fitting is successful, the method further includes:

109. and outputting the adaptation success information.

The information of successful adaptation can be displayed by a display screen arranged on the electronic smoking set, can also be prompted by vibration, can also be used for playing information of successful prompt through a loudspeaker and can also be used for prompting the information of successful prompt by an LED lamp.

In one embodiment, between the step of successfully adapting and the step of stopping heating or entering a smoking phase, further comprising:

110. judging whether to enter a sucking stage according to user selection; if not, stopping heating; if yes, entering the sucking stage.

The user can select whether to enter the smoking stage by touching a preset area of the display screen, pressing a preset button on the electronic smoking set, shaking the electronic smoking set, controlling the electronic smoking set by voice and the like.

The application provides a heating needle adaptation detection method, which is used for carrying out adaptation detection on a heating needle installed in an electronic smoking set, wherein the electronic smoking set is provided with a first temperature detection port and a second temperature detection port, the method judges whether an initial voltage value between the first temperature detection port and the second temperature detection port is 0 or not so as to judge whether the heating needle is an identified heating needle or not, if the heating needle is not the identified heating needle, then the heating needle is heated, judges whether a voltage change between the first temperature detection port and the second temperature detection port is a forward change or not so as to judge whether the basic type of the heating needle is matched with the electronic smoking set or not, and if the basic type of the heating needle is matched with the electronic smoking set, judges whether the temperature change rate of the heating needle is in a preset rate range or not, to determine whether the temperature variation law of the heating pin is matched with an electronic smoking set, if so, to determine whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range, to determine whether the voltage fluctuation of the temperature sensor within a certain time period is matched with the preset fluctuation range of the electronic smoking set within a certain time period, if so, to determine whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, to determine whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are disconnected at a certain time point in the heating process, that is, whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are stably connected, if at least one of the voltage values between the first temperature detection port and the second temperature detection port is 0, that is, there is a problem of disconnection at a certain time point, and the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is unstable, it is determined that the adaptation is failed, and the heating pin is stopped to be heated, and if the voltage values between the first temperature detection port and the second temperature detection port are not 0, that is, there is no problem of disconnection, and the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is stable, it is determined that the adaptation is successful, and then the heating is stopped or the smoking stage is entered, and therefore, the heating pin adaptation detection method provided by the present application, for a detachable heating pin, in the process of replacing the heating needle, the problem of how to carry out adaptation detection on the heating needle is solved.

Referring to fig. 3-5, a heating pin fitting detection apparatus 200 is also provided. The heating pin adaptation detection device 200 is used for performing adaptation detection on a heating pin installed in an electronic smoking set. And when the electronic smoking set is started up every time, carrying out identification detection. The electronic cigarette has a first temperature detection port and a second temperature detection port. The heating pin adaptation detection device includes: a first judging module 201, a start heating module 202, a second judging module 203, a third judging module 204, a fourth judging module 205, a fifth judging module 206 and a stop heating module 207.

The first determining module 201 is configured to determine whether an initial voltage value between the first temperature detecting port and the second temperature detecting port is 0.

When the initial voltage value between the first temperature detection port and the second temperature detection port is 0, no potential difference exists in the temperature sensor in the heating needle, that is, the heating needle may not be used for a long time, or the heating needle may not have a temperature sensor therein electrically connected to the first temperature detection port and the second temperature detection port, and the like, and continues to detect.

In one embodiment, the first determining module 201 may include a first adjusting module 1011, a first collecting module 2012 and a first determining submodule 2013.

The first adjusting module 1011 is configured to adjust an output voltage of the power control circuit to a preset voltage value. The electronic smoking set comprises a power control circuit, and the power control circuit is used for controlling the power for heating the heating needle. The first collecting module 2012 is configured to collect an initial voltage value between the first temperature detecting port and the second temperature detecting port. The first judging submodule 2013 is configured to judge whether the initial voltage value is 0, where if not, the heating pin is stopped to be identified again, that is, the identification is abandoned; if yes, continuing to identify and detect.

The start heating module 202 is used for heating the heating needle.

Wherein, the electron smoking set is the vortex heating type electron smoking set. The electronic smoking set comprises a magnetic field generator, and the magnetic field generator is used for generating an alternating magnetic field to enable the heating needle to generate heat, so that the tobacco shreds are baked. In identifying the heating pin, there are many scenarios of matching or mismatching, for example, in one usage scenario, referring to fig. 3, the heating pin may include a housing, a heat-generating core, and a temperature sensor. The temperature sensor may be a thermocouple. The temperature sensor may be a thermocouple disposed in the middle of the heat generating core. The heat generating core may generate heat in an alternating magnetic field. In other usage scenarios, the heating needle may also be a heating needle that is not capable of generating heat in an alternating magnetic field. Therefore, it is necessary to determine whether the heating pin generates heat in the alternating magnetic field generated by the electronic smoking set, and whether the temperature rising rule of the heating pin and the temperature sensing rule of the temperature sensor match the electronic smoking set, and then continue the identification and detection.

In one embodiment, the start-up heating module 202 may include a first scaling module 2021 and a first control module 2022.

The first conversion module 2021 is configured to obtain an initial temperature of the heating pin according to the initial voltage value. The first control module 2022 is configured to control the power control circuit to generate an alternating magnetic field at the preset voltage value according to the initial temperature to heat the heating pin.

The first control module 2022 may include a second determination sub-module 2022a, a first control sub-module 2022b, and a second control sub-module 2022 c.

The first control module 2022 is configured to determine whether the initial temperature is higher than a predetermined temperature point. The first control sub-module 2022b is configured to control the power control circuit to generate an alternating magnetic field with the preset voltage value by using a first heating power so as to heat the heating pin. The second control sub-module 2022c is configured to control the power control circuit to generate an alternating magnetic field with the preset voltage value by using a second heating power so as to heat the heating pin.

The preset temperature point may be a temperature point at which it is determined whether an environment in which the heating needle is located is in a room temperature state or a high temperature state, where the room temperature state is that the electronic smoking set is used in a short time and the temperature is at room temperature before the heating needle is installed in the electronic smoking set, and the high temperature state is that the electronic smoking set is used in a short time and the temperature is still at a high temperature before the heating needle is installed in the electronic smoking set.

The first heating power is higher than the second heating power. Before the heating needle is installed in the electronic smoking set, the electronic smoking set is used in a short time, the temperature is at room temperature, namely, the electronic smoking set is in a room temperature state, high power is needed to heat the heating needle, the heating needle is promoted to be rapidly heated, and the temperature of a tobacco shred containing part of the electronic smoking set is further rapidly raised; before the heating needle is installed in the electronic smoking set, the electronic smoking set is used in a short time, the temperature is still in a high-temperature state, and the heating needle needs to be heated by low power, so that the heating needle is prevented from being heated too fast, and the temperature of a tobacco shred containing part of the electronic smoking set exceeds a preset temperature.

The second determining module 203 is configured to determine whether a voltage change between the first temperature detecting port and the second temperature detecting port is a forward change.

If the voltage change between the first temperature detection port and the second temperature detection port is positive change, a thermocouple is arranged in the heating needle, the thermocouple is electrically connected with the first temperature detection port and the second temperature detection port, the heating core of the heating needle is the heating needle capable of generating heat in an alternating magnetic field, namely the type of the heating needle arranged in the electronic smoking set is matched with the preset type in the electronic smoking set, and then the identification and detection are continuously carried out.

In one embodiment, the second determining module 203 may include a second acquiring sub-module 2031 and a third determining sub-module 2032.

The second collecting sub-module 2031 is configured to collect a plurality of first voltage values between the first temperature detection port and the second temperature detection port within a first time period. The third determining submodule 2032 is configured to determine whether the first voltage values increase with time, determine that the heating pin fails to adapt if the first voltage values do not increase with time, stop heating, and continue to perform identification and detection if the first voltage values do not increase with time.

The third determining module 204 is configured to determine whether the temperature change rate of the heating pin is within a preset rate range.

If the temperature change rate of the heating needle is not in the preset rate range, judging that the identification fails and stopping heating if the temperature rise rate of the heating needle installed in the electronic smoking set is not matched with the preset rate range of the electronic smoking set; and if the temperature change rate of the heating needle is within a preset rate range, the temperature rise rate of the heating needle installed in the electronic smoking set is matched with the preset rate range of the electronic smoking set, and then the identification and detection are continued.

In one embodiment, the third determining module 204 may include a third collecting sub-module 2041, a second scaling module 2042 and a fourth determining sub-module 2043.

The third collecting submodule 2041 is configured to collect a plurality of second voltage values between the first temperature detection port and the second temperature detection port in a second time period. The second scaling module 2042 is configured to obtain a plurality of first temperature values of the heating pin according to the plurality of second voltage values. The fourth determining submodule 2043 is configured to determine whether the change rate of the plurality of first temperature values is within a preset temperature range, determine that the adaptation of the heating needle fails if the change rate of the plurality of first temperature values is not within the preset temperature range, stop heating, and continue adaptation detection if the change rate of the plurality of first temperature values is within the preset temperature range.

The fourth determining module 205 is configured to determine whether voltage fluctuation between the first temperature detecting port and the second temperature detecting port is within a preset fluctuation range.

If the voltage fluctuation between the first temperature detection port and the second temperature detection port is not within a preset fluctuation range, judging that the identification is failed, and stopping heating; and if the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range, continuing to adapt the detection.

In one embodiment, the fourth determination module 205 may include a fourth acquisition sub-module 2051 and a fifth determination sub-module 2052.

The fourth collecting submodule 2051 is configured to collect, in a third time period, a plurality of third voltage values between the first temperature detection port and the second temperature detection port; the fifth determining submodule 2052 is configured to determine whether a difference between a first voltage and a last voltage of the plurality of third voltage values is within a first preset voltage fluctuation range, or determine whether a difference between a maximum value and a minimum value of the plurality of third voltage values is within a second preset voltage fluctuation range, if not, determine that the adaptation of the heating needle fails, stop heating, and if so, continue adaptation detection.

The fifth determining module 206 is configured to determine whether at least one of the voltage values between the first temperature detecting port and the second temperature detecting port is 0, if so, determine that the adaptation of the heating pin fails, and stop heating; if not, judging that the heating needle is successfully adapted, and stopping heating or entering a sucking stage.

Judging whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0 or not within a certain time period, if so, judging that the identification fails and stopping heating if a situation that a temperature sensor of a heating needle and the first temperature detection port and the second temperature detection port of the electronic cigarette are temporarily disconnected or permanently disconnected within the certain time period; if not, in the time period, the connection stability of the temperature sensor of the heating needle and the first temperature detection port and the second temperature detection port of the electronic cigarette is high, the recognition is judged to be successful, and the heating is stopped or the smoking stage is started.

In one embodiment, the fifth determining module 206 may include a fifth acquiring sub-module 2061 and a sixth determining sub-module 2062.

The fifth collection submodule 2061 is configured to collect a plurality of fourth voltage values between the first temperature detection port and the second temperature detection port in a fourth time period. The sixth determining submodule 2062 determines whether at least one of the fourth voltage values is 0, if so, determines that the adaptation of the heating pin fails, and stops heating, and if not, determines that the adaptation of the heating pin is successful, and stops heating or enters a sucking stage.

The stop heating module 207 is used for stopping heating or entering a sucking stage.

In one embodiment, the heating pin fitting detection apparatus 200 further includes a first output module 208. The first output module 208 is configured to output fitting failure information after determining that the heating pin fitting fails.

The heating pin adaptation detection device 200 further includes a second output module 209. The second output module 209 is configured to output the adaptation success information after the step of determining that the adaptation is successful.

The heating pin fitting detection apparatus 200 further includes a selection module 210. The selection module 210 is configured to determine whether to enter the smoking stage according to a user selection between outputting the adaptation success information and stopping heating or entering the smoking stage, and if not, stop heating, and if so, enter the smoking stage.

The application provides a heating needle adaptation detection device, the heating needle adaptation detection device is used for carrying out adaptation detection to the heating needle of installing in the electron smoking set, the electron cigarette has first temperature detection port and second temperature detection port, the device is through judging whether initial voltage value between first temperature detection port and the second temperature detection port is 0 to judge whether the heating needle is the heating needle that has passed through the discernment, if the heating needle is not the heating needle that has passed through the discernment, then to the heating needle heats, through judging whether voltage variation between the first temperature detection port and the second temperature detection port is forward variation, with the basic type of judgement the heating needle whether with the electron smoking set phase-match, if the matching, judge whether the temperature variation rate of heating needle is in predetermineeing the rate within range, to determine whether the temperature variation law of the heating pin is matched with an electronic smoking set, if so, to determine whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range, to determine whether the voltage fluctuation of the temperature sensor within a certain time period is matched with the preset fluctuation range of the electronic smoking set within a certain time period, if so, to determine whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, to determine whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are disconnected at a certain time point in the heating process, that is, whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are stably connected, if at least one of the voltage values between the first temperature detection port and the second temperature detection port is 0, that is, there is a problem of disconnection at a certain time point, and the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is unstable, it is determined that the adaptation is failed, and the heating pin is stopped to be heated, and if the voltage values between the first temperature detection port and the second temperature detection port are not 0, that is, there is no problem of disconnection, and the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is stable, it is determined that the adaptation is successful, and then the heating is stopped or the smoking stage is entered, and therefore, the heating pin adaptation detection apparatus provided by the present application, for a detachable heating pin, in the process of replacing the heating needle, the problem of how to carry out adaptation detection on the heating needle is solved.

As shown in fig. 6, the present application further provides an electronic smoking article 300. The electronic smoking article 300 includes a housing 301 and a first temperature sensing port 3021, a second temperature sensing port 3022, a heater pin 303 including a temperature sensor 3031, a magnetic field generator 304, a memory 305, and a processor 306 disposed within the housing 300. The first temperature sensing port 3021, the second temperature sensing port 3022, the magnetic field generator 304 and the memory 305 are all electrically connected to the processor 306. The temperature sensor 3031 transmits detection data back to the processor 306 through the first and second

temperature detection ports

3021 and 3022.

The processor 306 is a control center of the electronic smoking set 300, connects various parts of the whole electronic smoking set 300 by using various interfaces and lines, and performs various functions of the terminal device and processes data by running or loading an application program stored in the memory 305 and calling data stored in the memory 305, thereby performing overall monitoring of the electronic smoking set 300.

In this embodiment, the processor 306 in the electronic smoking article 300 loads instructions corresponding to processes of one or more application programs into the memory 305, and the processor 306 runs the application programs stored in the memory 305, so as to implement various functions as follows:

heating the heating needle;

judging whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, if so, judging that the adaptation of the heating needle fails, and stopping heating; if not, judging that the heating needle is successfully adapted, and stopping heating or entering a sucking stage.

Wherein in the step of determining whether the initial voltage value between the first temperature detection port and the second temperature detection port is 0:

In one embodiment, the step of determining whether the initial voltage value between the first temperature detection port and the second temperature detection port is 0 may include:

Before the step of determining whether the initial voltage value between the first temperature detection port and the second temperature detection port is 0, the method may further include: and when the electronic smoking set is started up every time, judging whether an initial voltage value between the first temperature detection port and the second temperature detection port is 0 or not.

Wherein, in the step of heating the heating needle:

the electronic smoking set is a vortex heating type electronic smoking set. The electronic smoking set comprises a magnetic field generator, and the magnetic field generator is used for generating an alternating magnetic field to enable the heating needle to generate heat, so that the tobacco shreds are baked. In identifying the heating pin, there are many scenarios of matching or mismatching, for example, in one usage scenario, referring to fig. 3, the heating pin may include a housing, a heat-generating core, and a temperature sensor. The temperature sensor may be a thermocouple. The temperature sensor may be a thermocouple disposed in the middle of the heat generating core. The heat generating core may generate heat in an alternating magnetic field. In other usage scenarios, the heating needle may also be a heating needle that is not capable of generating heat in an alternating magnetic field. Therefore, it is necessary to determine whether the heating pin generates heat in the alternating magnetic field generated by the electronic smoking set, and whether the temperature rising rule of the heating pin and the temperature sensing rule of the temperature sensor match the electronic smoking set, and then continue to perform the step of determining whether the voltage change between the first temperature detection port and the second temperature detection port is a forward change.

In one embodiment, the heating pin may include:

The step of the power control circuit generating an alternating magnetic field at the preset voltage value according to the initial temperature to heat the heating needle may include:

Wherein in the step of determining whether the voltage variation between the first temperature detection port and the second temperature detection port is a positive variation:

If the voltage change between the first temperature detection port and the second temperature detection port is positive change, a thermocouple is arranged in the heating needle, the thermocouple is electrically connected with the first temperature detection port and the second temperature detection port, and the heating core of the heating needle is the heating needle capable of generating heat in an alternating magnetic field, namely the type of the heating needle arranged in the electronic smoking set is matched with the preset type in the electronic smoking set, and the step of judging whether the temperature change rate of the heating needle is in a preset rate range is continuously executed.

In one embodiment, the step of determining whether the voltage change between the first temperature detection port and the second temperature detection port is a positive change may include:

Wherein, in the step of judging whether the temperature change rate of the heating needle is within a preset rate range:

the heating needle has different temperature rise rates in the alternating magnetic field due to different types, such as length, thickness, shape or material, and the heating control programs of different electronic smoking sets have a certain preset rate range, so it is necessary to determine whether the temperature rise rate of the heating needle installed in the electronic smoking set matches the preset rate range of the electronic smoking set.

If the temperature change rate of the heating needle is not in the preset rate range, judging that the identification fails and stopping heating if the temperature rise rate of the heating needle installed in the electronic smoking set is not matched with the preset rate range of the electronic smoking set; and if the temperature change rate of the heating needle is within a preset rate range, matching the heating rate of the heating needle installed in the electronic smoking set with the preset rate range of the electronic smoking set, and executing the step of judging whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range.

In one embodiment, the step of determining whether the temperature change rate of the heating needle is within a preset rate range may include:

The second period of time may be a period of time from 1 second to 3 seconds from the start of heating. The number of the first voltage values can be flexibly set according to different interval time according to actual needs, for example, 30, 50, and the like.

Wherein, in the step of determining whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range:

due to different models of the temperature sensor, under different temperatures, the change curves of the voltage values at the two ends of the temperature sensor along with the temperatures are not linear, the slopes of the temperature sensor are different in different time periods, that is, the voltage fluctuation between the first temperature detection port and the second temperature detection port is different in different time periods, and therefore, whether the voltage fluctuation of the temperature sensor in a certain time period is matched with the preset fluctuation range of the electronic smoking set in a certain time period needs to be judged.

If the voltage fluctuation between the first temperature detection port and the second temperature detection port is not within a preset fluctuation range, judging that the identification is failed, and stopping heating; and if the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range, executing the step of judging whether at least one of the plurality of voltage values between the first temperature detection port and the second temperature detection port is 0.

In one embodiment, the step of determining whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range may include:

The third period of time may be a period of time from 5 seconds to 8 seconds from the start of heating. The number of the first voltage values can be flexibly set according to different interval time according to actual needs, for example, 50, 100, and the like.

If at least one of the voltage values between the first temperature detection port and the second temperature detection port is 0, determining that the adaptation of the heating needle fails and stopping heating; if not, judging that the heating needle is successfully adapted, and stopping heating or entering a sucking stage:

in the identification process of the heating pin of the electronic smoking set, the electronic smoking set may be heated, and the situation that the user moves or shakes the electronic smoking set may also be included, at this time, the dropping of the heating pin or the connection between the temperature sensor and the first temperature detection port and the second temperature detection port of the electronic smoking set is easy to occur, and therefore, it is necessary to detect the stability of the heating pin in the electronic smoking set.

In one embodiment, the step of determining whether at least one of the plurality of voltage values between the first temperature detection port and the second temperature detection port is 0 may include:

and judging whether at least one of the fourth voltage values is 0, if so, judging that the adaptation of the heating needle fails, stopping heating, otherwise, judging that the adaptation of the heating needle is successful, and stopping heating or entering a sucking stage.

The fourth period of time may be a period of time from 10 seconds to 20 seconds from the start of heating. The number of the first voltage values can be flexibly set according to different interval time according to actual needs, for example, 50, 100, and the like.

Between the step of determining that the heating pin fails to fit and the step of stopping heating, the method further includes: and outputting adaptation failure information.

Between the step of determining that the heating needle determines that the fitting is successful and the step of stopping heating or entering a sucking stage, the method further comprises the following steps: and outputting the adaptation success information.

Between the step of outputting the information of successful adaptation and the step of stopping heating or entering the sucking stage, the method further comprises the following steps: judging whether to enter a sucking stage according to user selection; if not, stopping heating; if yes, entering the sucking stage.

The application provides an electronic smoking set, the electronic smoking set can carry out adaptation detection on a heating needle installed in the electronic smoking set, the electronic smoking set is provided with a first temperature detection port and a second temperature detection port, the method judges whether the initial voltage value between the first temperature detection port and the second temperature detection port is 0 or not to judge whether the heating needle is an identified heating needle or not, if the heating needle is not the identified heating needle, then the heating needle is heated, judges whether the voltage change between the first temperature detection port and the second temperature detection port is positive change or not to judge whether the basic type of the heating needle is matched with the electronic smoking set or not, and if the basic type is matched, judges whether the temperature change rate of the heating needle is in a preset rate range or not, to determine whether the temperature variation law of the heating pin is matched with an electronic smoking set, if so, to determine whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range, to determine whether the voltage fluctuation of the temperature sensor within a certain time period is matched with the preset fluctuation range of the electronic smoking set within a certain time period, if so, to determine whether at least one of a plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, to determine whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are disconnected at a certain time point in the heating process, that is, whether the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin are stably connected, if at least one of the plurality of voltage values between the first temperature detection port and the second temperature detection port is 0, that is, there is a problem of disconnection at a certain time point, and if the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is unstable, it is determined that the adaptation is failed, and the heating pin is stopped being heated, and if the plurality of voltage values between the first temperature detection port and the second temperature detection port are not 0, that is, there is no problem of disconnection, and the connection between the first temperature detection port and the second temperature detection port of the electronic smoking set and the temperature sensor of the heating pin is stable, it is determined that the adaptation is successful, and then the heating is stopped or the smoking stage is entered, and therefore, the electronic smoking set provided by the present application, for the detachable heating pin, in the process of replacing the heating needle, the problem of how to carry out adaptation detection on the heating needle is solved.

The embodiment of the present invention further provides a storage medium, where a plurality of instructions are stored in the storage medium, and the instructions are suitable for being loaded by a processor to execute the application management and control method according to any of the above embodiments.

The application program control method, device, storage medium and terminal device provided by the embodiment of the invention belong to the same concept, and the specific implementation process is detailed in the whole specification and is not described herein again.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable storage medium, and the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

The application management and control method, device, storage medium, and terminal device provided in the embodiments of the present application are described in detail above, and a specific example is applied in the description to explain the principles and embodiments of the present application. Meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A heating needle adaptation detection method is used for carrying out adaptation detection on a heating needle installed in an electronic smoking set, the electronic smoking set is provided with a first temperature detection port and a second temperature detection port, and the method is characterized by comprising the following steps:

heating the heating needle;

stopping heating or entering a sucking stage.

2. The heating pin fitting detection method according to claim 1, characterized in that: the step of determining whether the initial voltage value between the first temperature detection port and the second temperature detection port is 0 includes:

3. The heating pin fitting detection method according to claim 1, wherein the step of heating the heating pin includes:

4. The heating needle fitting detection method according to claim 3, wherein the step of generating an alternating magnetic field at the preset voltage value by the power control circuit according to the initial temperature to heat the heating needle comprises:

5. The heating pin adaptation detecting method according to claim 1, wherein the step of determining whether the voltage variation between the first temperature detecting port and the second temperature detecting port is a positive variation includes:

6. The heating needle fitting detection method according to claim 1, wherein the step of determining whether the rate of change in temperature of the heating needle is within a preset rate range comprises:

7. The heating pin fitting detection method according to claim 1, wherein the step of determining whether the voltage fluctuation between the first temperature detection port and the second temperature detection port is within a preset fluctuation range includes:

8. The heater pin fitting detection method of claim 1, wherein the step of determining whether at least one of the plurality of voltage values between the first temperature detection port and the second temperature detection port is 0 comprises:

9. The heating needle fitting detection method according to claim 1, further comprising, between the step of determining that the heating needle fitting has failed and the step of stopping heating:

and outputting adaptation failure information.

10. The heating pin fitting detection method according to claim 1, further comprising, between the step of determining that the heating pin is determined to be successfully fitted and the step of stopping heating or entering a suction phase:

and outputting the adaptation success information.

11. The heating pin fitting detection method according to claim 1, further comprising, between the step of outputting the fitting success information and the step of stopping heating or entering a sucking stage:

12. The utility model provides a heating needle adaptation detection device for carry out the adaptation to the heating needle of installing in the electron smoking set and detect, the electron cigarette has first temperature detection port and second temperature detection port, its characterized in that includes:

starting a heating module for heating the heating needle;

13. A storage medium, characterized by: the storage medium has stored therein a plurality of instructions adapted to be loaded by a processor to perform the heater pin fitting detection method according to any one of claims 1 to 11.

14. An electronic smoking article, comprising:

a housing;

a memory disposed within the housing;

a processor disposed within the housing, the processor configured to perform the heater pin fitting detection method of any of claims 1-11.