CN112617299A - Method for detecting temperature of heating cigarette smoking set and method for analyzing temperature stability - Google Patents

Abstract

The invention discloses a method for detecting the temperature of a heated cigarette smoking set and a method for analyzing the temperature stability, wherein the detection method comprises the following steps: obtaining a temperature interval [ T_ep1,T_ep2](ii) a Using heat-conducting members to limit the temperature interval T_ep1And an upper limit value T of the temperature interval_ep2Carrying out temperature detection to obtain a corrected lower limit temperature T_c‑ep1And an upper limit temperature T_c‑ep2(ii) a According to the corrected lower limit temperature T_c‑ep1And lower limit value T of temperature interval_ep1Is calculated as the lower limit error T_e1According to the corrected upper limit temperature T_c‑ep2And an upper limit value T of the temperature interval_ep2Difference of (4) calculating the upper limit error T_e2(ii) a According to T_i＝[(T_am‑T_ep1)/(T_ep2‑T_ep1)]×(T_e2‑T_e1)+T_amCalculating the calibration temperature T_i. The method for detecting the temperature of the heated cigarette smoking set can calibrate the detected temperature of the heated cigarette smoking set, and is favorable for obtaining more accurate heating temperature.

Description

Method for detecting temperature of heating cigarette smoking set and method for analyzing temperature stability

Technical Field

The invention relates to the field of temperature detection of heated cigarette smoking sets, in particular to a temperature detection method and a temperature stability analysis method of a heated cigarette smoking set.

Background

The heating cigarette is a novel tobacco product, and is heated to a certain temperature by using a special heating cigarette smoking set, so that smoke emitted by the tobacco product is supplied for people to smoke. The heating temperature for heating the cigarette smoking set is a key influence factor for the smoking quality of the heated cigarette.

The heating temperature of the existing heating cigarette smoking set is directly detected by adopting a thermocouple, and the detection mode has certain detection error and can influence the accuracy of heating temperature detection.

Therefore, how to provide a method capable of effectively improving the accuracy of the temperature detection of the heated cigarette smoking set becomes a technical problem which needs to be solved urgently in the field.

Disclosure of Invention

It is an object of the present invention to provide a new technical solution for a method that effectively improves the accuracy of temperature detection of heated cigarette smoking articles.

According to a first aspect of the present invention, a method of detecting the temperature of a heated cigarette smoking article is provided.

The method for detecting the temperature of the heated cigarette smoking set comprises the following steps:

obtaining a temperature interval [ T_ep1,T_ep2]；

Using heat-conducting members to limit the temperature interval T_ep1And an upper limit value T of the temperature interval_ep2Carrying out temperature detection to obtain a corrected lower limit temperature T_c-ep1And the upper limit temperature T is corrected_c-ep2；

According to the corrected lower limit temperature T_c-ep1And lower limit value T of temperature interval_ep1Is calculated as the lower limit error T_e1According to the corrected upper limit temperature T_c-ep2And an upper limit value T of the temperature interval_ep2Difference of (4) calculating the upper limit error T_e2；

According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amCalculating the calibration temperature T_iWherein, T_amFor the temperature measured using a heat-conducting member, and T_amIs a temperature interval [ T_ep1,T_ep2]The value of (d).

Optionally, the lower limit value T of the temperature interval_ep1And an upper limit value T of the temperature interval_ep2The difference in (A) was 50 ℃.

Optionally, the heat conducting member includes at least two members, and different heat conducting members are made of different heat conducting materials;

the method for detecting the temperature of the heated cigarette smoking set further comprises the following steps:

calibrated temperature T measured for heat-conducting members of different materials_iTaking the mean value

To be provided with

For heating the detected temperature of the cigarette smoking set.

Optionally, the material of the heat conducting member includes silver, graphene, and copper.

Optionally, the lower limit value T of the temperature interval is determined by adopting the heat-conducting piece_ep1And an upper limit value T of the temperature interval_ep2And a dry well temperature measuring furnace is used for temperature detection.

According to a second aspect of the present invention, a method of temperature stability analysis is provided.

The temperature stability analysis method comprises the following steps:

obtaining a temperature interval [ T_ep1,T_ep2]；

The lower limit value T of the temperature range is determined by adopting N heat-conducting pieces made of different heat-conducting materials_ep1And an upper limit value T of the temperature interval_ep2Carrying out temperature detection to obtain a corrected lower limit temperature T_c-ep1And the upper limit temperature T is corrected_c-ep2Wherein N is more than or equal to 2;

according to the corrected lower limit temperature T_c-ep1And lower limit value T of temperature interval_ep1Is calculated as the lower limit error T_e1According to the corrected upper limit temperature T_c-ep2And an upper limit value T of the temperature interval_ep2Difference of (4) calculating the upper limit error T_e2；

According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amCalculating the calibration temperature T_iWherein, T_amFor the temperature measured using a heat-conducting member, and T_amIs a temperature interval [ T_ep1,T_ep2]A value of;

calibrated temperature T measured for heat-conducting members of different materials_iTaking the mean value

According to

Acquiring a deviation parameter S;

if S is more than 2 ℃, obtaining the result of unstable temperature of the heated cigarette smoking set, and if S is less than or equal to 2 ℃, obtaining the result of unstable temperature of the heated cigarette smoking set

For heating the detected temperature of the cigarette smoking set.

Optionally, the lower limit value T of the temperature interval_ep1And an upper limit value T of the temperature interval_ep2The difference in (A) was 50 ℃.

Optionally, N is 3.

Optionally, the material of the heat conducting member includes silver, graphene, and copper.

Optionally, the lower limit value T of the temperature range is determined by adopting a heat conducting piece made of N heat conducting materials_ep1And an upper limit value T of the temperature interval_ep2And a dry well temperature measuring furnace is used for temperature detection.

The method for detecting the temperature of the heated cigarette smoking set can calibrate the detected temperature of the heated cigarette smoking set, and is favorable for obtaining more accurate heating temperature.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail. It should be noted that: the relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

The present disclosure provides a method for detecting the temperature of a heated cigarette smoking set, which comprises the following steps:

obtaining a temperature interval [ T_ep1,T_ep2]。

In order to detect the temperature of the heated cigarette smoking set more quickly and accurately, the lower limit value T of the temperature interval_ep1And an upper limit value T of the temperature interval_ep2The difference in (A) was 50 ℃. In specific implementation, a plurality of temperature intervals can be set. For example, 0 ℃ to 600 ℃ is divided into 12 temperature intervals.

Using heat-conducting members to limit the temperature interval T_ep1And an upper limit value T of the temperature interval_ep2Carrying out temperature detection to obtain a corrected lower limit temperature T_c-ep1And the upper limit temperature T is corrected_c-ep2。

In order to detect the temperature of the heated cigarette smoking set more accurately, the heat conducting member comprises at least two pieces, and different heat conducting members are made of different heat conducting materials.

When a plurality of heat conducting pieces made of different materials are arranged, the method for detecting the temperature of the heated cigarette smoking set further comprises the following steps:

calibrated temperature T measured for heat-conducting members of different materials_iTaking the mean value

To be provided with

For heating the detected temperature of the cigarette smoking set.

The heat conducting pieces made of different materials can realize temperature detection through the high-precision platinum resistor. The heat conducting member is made of silver, graphene and copper.

In one embodiment, the lower limit value T of the temperature range is determined by adopting the heat-conducting member_ep1And an upper limit value T of the temperature interval_ep2And a dry well temperature measuring furnace is used for temperature detection. During specific implementation, the heat conducting piece is placed in an inserting cylinder of the dry well temperature measuring furnace, and the temperature of the heat conducting piece is detected through the platinum resistor, so that the temperature detected by the heat conducting piece can be obtained.

According to the corrected lower limit temperature T_c-ep1And lower limit value T of temperature interval_ep1Is calculated as the lower limit error T_e1According to the corrected upper limit temperature T_c-ep2And an upper limit value T of the temperature interval_ep2Difference of (4) calculating the upper limit error T_e2。

According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amCalculating the calibration temperature T_iWherein, T_amFor the temperature measured using a heat-conducting member, and T_amIs a temperature interval [ T_ep1,T_ep2]The value of (d).

For example, the temperature value measured by the heat-conducting member made of silver is 420 ℃, the temperature is in the range of 400 ℃ and 450 ℃, the temperature detected by the heat-conducting member at 400 ℃ is 400.6 ℃, and the temperature detected by the heat-conducting member at 450 ℃ is 450.4 ℃. According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amThe calibration temperature of 420 ℃ which can be calculated to obtain the measured temperature value of the silver heat conducting piece is 419.92 ℃.

The method for detecting the temperature of the heated cigarette smoking set can calibrate the detected temperature of the heated cigarette smoking set, and is favorable for obtaining more accurate heating temperature.

The present disclosure also provides a temperature stability analysis method, including the following steps:

obtaining a temperature interval [ T_ep1,T_ep2]。

To more quickly and accurately judge the stability of the temperature of a heated cigarette smoking setLower limit value T of temperature range_ep1And an upper limit value T of the temperature interval_ep2The difference in (A) was 50 ℃. In specific implementation, a plurality of temperature intervals can be set. For example, 0 ℃ to 600 ℃ is divided into 12 temperature intervals.

The lower limit value T of the temperature range is determined by adopting N heat-conducting pieces made of different heat-conducting materials_ep1And an upper limit value T of the temperature interval_ep2Carrying out temperature detection to obtain a corrected lower limit temperature T_c-ep1And the upper limit temperature T is corrected_c-ep2Wherein N is more than or equal to 2.

In specific implementation, N is 3. For example, the material of the heat conducting member includes silver, graphene, and copper.

In one embodiment, N heat-conducting members made of different heat-conducting materials are adopted to carry out temperature range lower limit value T_ep1And an upper limit value T of the temperature interval_ep2And a dry well temperature measuring furnace is used for temperature detection. During specific implementation, the heat conducting piece is placed in an inserting cylinder of the dry well temperature measuring furnace, and the temperature of the heat conducting piece is detected through the platinum resistor, so that the temperature detected by the heat conducting piece can be obtained.

According to the corrected lower limit temperature T_c-ep1And lower limit value T of temperature interval_ep1Is calculated as the lower limit error T_e1According to the corrected upper limit temperature T_c-ep2And an upper limit value T of the temperature interval_ep2Difference of (4) calculating the upper limit error T_e2。

According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amCalculating the calibration temperature T_iWherein, T_amFor the temperature measured using a heat-conducting member, and T_amIs a temperature interval [ T_ep1,T_ep2]The value of (d).

For example, the temperature value measured by the heat-conducting member made of silver is 420 ℃, the temperature is in the range of 400 ℃ and 450 ℃, the temperature detected by the heat-conducting member at 400 ℃ is 400.6 ℃, and the temperature detected by the heat-conducting member at 450 ℃ is 450.4 ℃. According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amHeat conducting member measurement capable of calculating silver materialTemperature value 420 ℃ the calibration temperature was 419.92 ℃.

Calibrated temperature T measured for heat-conducting members of different materials_iTaking the mean value

According to

And acquiring a deviation parameter S.

If S is more than 2 ℃, the result that the temperature for heating the cigarette smoking set is unstable is obtained. If S is less than or equal to 2 ℃, then

For heating the detected temperature of the cigarette smoking set.

According to the deviation parameter S, whether the temperature of the heating cigarette smoking set is stable or not can be accurately judged, so that the performance of the heating cigarette smoking set is more accurately evaluated.

Although some specific embodiments of the present invention have been described in detail by way of examples, it should be understood by those skilled in the art that the above examples are for illustrative purposes only and are not intended to limit the scope of the present invention. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims (10)

1. A method for detecting the temperature of a heated cigarette smoking set is characterized by comprising the following steps:

obtaining a temperature interval [ T_ep1,T_ep2]；

Using heat-conducting members to limit the temperature interval T_ep1And an upper limit value T of the temperature interval_ep2Carrying out temperature detection to obtain a corrected lower limit temperature T_c-ep1And the upper limit temperature T is corrected_c-ep2；

According to the corrected lower limit temperature T_c-ep1And lower limit value T of temperature interval_ep1Is calculated as the lower limit error T_e1According to the corrected upper limit temperature T_c-ep2And an upper limit value T of the temperature interval_ep2Difference of (4) calculating the upper limit error T_e2；

According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amCalculating the calibration temperature T_iWherein, T_amFor the temperature measured using a heat-conducting member, and T_amIs a temperature interval [ T_ep1,T_ep2]The value of (d).

2. The method of claim 1, wherein the temperature interval lower limit value T is_ep1And an upper limit value T of the temperature interval_ep2The difference in (A) was 50 ℃.

3. The method of claim 1, wherein the heat conducting member comprises at least two members, and wherein different ones of the heat conducting members are made of different heat conducting materials;

the method for detecting the temperature of the heated cigarette smoking set further comprises the following steps:

calibrated temperature T measured for heat-conducting members of different materials_iTaking the mean value

To be provided with

For heating the detected temperature of the cigarette smoking set.

4. The method of claim 3, wherein the heat conducting member comprises silver, graphene, and copper.

5. The method of claim 3, wherein the temperature of the heated cigarette smoking set is measured by the heat conducting member for a lower limit T of the temperature range_ep1And temperature intervalLimit value T_ep2And a dry well temperature measuring furnace is used for temperature detection.

6. A method for analyzing temperature stability is characterized by comprising the following steps:

obtaining a temperature interval [ T_ep1,T_ep2]；

The lower limit value T of the temperature range is determined by adopting N heat-conducting pieces made of different heat-conducting materials_ep1And an upper limit value T of the temperature interval_ep2Carrying out temperature detection to obtain a corrected lower limit temperature T_c-ep1And the upper limit temperature T is corrected_c-ep2Wherein N is more than or equal to 2;

according to the corrected lower limit temperature T_c-ep1And lower limit value T of temperature interval_ep1Is calculated as the lower limit error T_e1According to the corrected upper limit temperature T_c-ep2And an upper limit value T of the temperature interval_ep2Difference of (4) calculating the upper limit error T_e2；

According to T_i＝[(T_am-T_ep1)/(T_ep2-T_ep1)]×(T_e2-T_e1)+T_amCalculating the calibration temperature T_iWherein, T_amFor the temperature measured using a heat-conducting member, and T_amIs a temperature interval [ T_ep1,T_ep2]A value of;

calibrated temperature T measured for heat-conducting members of different materials_iTaking the mean value

According to

Acquiring a deviation parameter S;

if S is more than 2 ℃, obtaining the result of unstable temperature of the heated cigarette smoking set, and if S is less than or equal to 2 ℃, obtaining the result of unstable temperature of the heated cigarette smoking set

For heating the detected temperature of the cigarette smoking set.

7. The method for analyzing temperature stability according to claim 6, wherein the temperature interval lower limit value T_ep1And an upper limit value T of the temperature interval_ep2The difference in (A) was 50 ℃.

8. The method for analyzing temperature stability according to claim 6, wherein N is 3.

9. The method according to claim 8, wherein the material of the heat conducting member includes silver, graphene, and copper.

10. The method according to claim 6, wherein the lower limit T of the temperature range is determined by using a heat-conducting member made of N kinds of heat-conducting materials_ep1And an upper limit value T of the temperature interval_ep2And a dry well temperature measuring furnace is used for temperature detection.