WO2020150890A1 - Temperature control method for heat-not-burn vapor generation apparatus, and vapor generation apparatus - Google Patents

Abstract

A temperature control method for a heat-not-burn vapor generation apparatus, and a vapor generation apparatus. The method comprises: detecting an internal temperature value of a heat generator within the vapor generation apparatus and an external temperature value of an external environment of the vapor generation apparatus; comparing the internal temperature value against the external temperature value; if the internal temperature value is less than or equal to the external temperature value, determining that a low-temperature vapor device is in a cool state, and activating a heating mode having a high heating temperature to heat the heat-not-burn vapor generation apparatus; and if the internal temperature value is greater than the external temperature value, determining that the low-temperature vapor device is in a warm state, and activating a heating mode having a low heating temperature to heat the low-temperature vapor device. The temperature control method for a heat-not-burn vapor generation apparatus and the vapor generation apparatus achieve precise temperature control, and ensure a consistent mouthfeel for vapor generated in the cool and warm state.

Description

Temperature control method for heating non-combustion smoke generating equipment and smoke generating equipment Technical field

The invention belongs to the technical field of heating and non-combustion smoking equipment, and in particular relates to a temperature control method of the heating and non-combustion smoking equipment and the smoking equipment.

Background technique

Existing low-temperature cigarettes (such as IQOS) only support one cigarette and must be charged. There is no heat engine (that is, the structure of the smoking device is hot), only the case of a cold engine (the structure of the smoking device is cold), so No need to deal with the heat engine situation. If it corresponds to a low-temperature smoking device that can continuously smoke multiple cigarettes, with the current temperature control technology, the warm-up time of the hot machine will be as long as the time of the cold machine, and there will be a few puffs of cigarettes when continuously smoking multiple cigarettes The mouth feels hotter, and the user experience is not good enough. In other words, the temperature control method of the existing heating and non-combustion smoking equipment is not accurate enough, and there is no difference between the cooling and heating machines. This will lead to the taste in the warm state than in the cold state The taste is poor, and the experience effect is even worse when users who are addicted to smoking need to smoke continuously.

technical problem

The purpose of the embodiments of the present invention is to provide a temperature control method for heating non-combustion smoke generating equipment and the smoke generating equipment, which can accurately control the temperature and ensure the consistent taste of smoke under cold and hot engine conditions.

Technical solutions

The embodiment of the present invention is implemented as follows:

A temperature control method for heating non-combustion smoke generating equipment, including:

101. Detect the internal temperature value of the heating element in the smoking device and the external temperature value of the external environment of the smoking device;

102. Compare the magnitude of the inner temperature value and the outer temperature value;

103. If the internal temperature value is less than or equal to the external temperature value, and it is concluded that the low-temperature smoke is in a cold state, a heating method with a higher heating temperature is activated to heat the heating non-combustion smoke generating device;

104. If the value of the inner temperature is greater than the value of the outer temperature, it is concluded that the low-temperature smoke is in a heat engine state, and then a heating method with a lower heating temperature is activated to heat the low-temperature smoke.

Wherein, heating in step 103 specifically includes:

The first t1 second is the first stage of the cold machine preheating, the range of t1 is 5-20s, the heating temperature is T1, and the range of T1 is 360-380 degrees Celsius;

Seconds from t1 to t2 are the second stage of cold machine preheating. The range of t2 is 20~30s, the heating temperature is T2, and the range of T2 is 340~360 degrees Celsius;

After t2 seconds, the process tends to be thermally stable, and the heating temperature is 300 to 340 degrees Celsius.

Wherein, heating in step 104 specifically includes:

The first t1 second is the first stage of preheating of the heat engine, the range of t1 is 5-20s, the heating temperature is less than T1, and the range of T1 is 360-380 degrees Celsius;

Seconds from t1 to t2 are the second stage of the heat engine preheating. The range of t2 is 20~30s, the heating temperature is less than T2, and the range of T2 is 340~360 degrees Celsius;

After t2 seconds, the process tends to be thermally stable, and the heating temperature is 300-340 degrees Celsius.

Wherein, the preheating in step 104 specifically includes:

The heating temperature and heating time of the first stage of the heat engine preheating and the second stage of the heat engine preheating can be adjusted according to the magnitude of the inner temperature value and the outer temperature value.

Wherein, before step 103 or step 104, it further includes: before heating, according to the size of the internal temperature value, preset the heating temperature change curve to obtain the heating temperature and heating time, and divide the heating into pre-heating in chronological order. The preheating phase is divided into an initial preheating phase and a heat preservation preheating phase according to the time sequence.

Wherein, the set heating temperature change curve is divided into three stages:

In the first stage, the temperature of the heating element is increased from the initial temperature to the highest first temperature and kept stable for a certain period of time;

In the second stage, the temperature of the heating element is reduced to a second temperature lower than the first temperature;

In the third stage, the temperature of the heating element is maintained at the second temperature and enters a thermal stabilization process.

Wherein, the range of t2 is 20-30s. After t2 seconds, the heating temperature in step 103 is the same as the heating temperature in step 104 or the temperature difference is within plus or minus 10 degrees.

The heating non-combustion smoking device adopting the temperature control method includes: a heating element, a temperature detection module, a comparison module and a control module, the temperature detection module is connected to the heating element, and the temperature detection module is electrically connected to the comparison module , The comparison module is electrically connected with the control module, and the control module is electrically connected with the heating element;

The temperature detection module detects the internal temperature value of the heating element and the external temperature value of the external environment of the smoking device;

The comparison module compares the internal temperature value and the external temperature value, and outputs the comparison result to the control module;

The control module controls the heating temperature and heating time of the heating element according to the comparison result.

Wherein, the temperature detection module includes an internal temperature detection module installed in the heating body and an external temperature detection module installed on the casing of the smoking device.

The heating non-combustion smoking device further includes a power supply module for supplying power to the smoking device, the control module includes a timer and a power control module connected to each other, and the heating element is connected to the power supply through the power control module. Module connection.

Wherein, the heating element is a heating sheet, a heating rod or a heating tube.

Beneficial effect

In the embodiment of the present invention, by detecting the temperature values inside and outside the smoking device, it is judged whether the smoking device is in a cold state or a warm state, and then different heating methods are activated for heating, and different heating temperatures and heating times are selected for preheating, and the cooling machine is activated A higher temperature is used for preheating, and a heat engine is used for a lower temperature for preheating. The temperature and time can be specifically set according to the internal temperature value of the smoking device, so as to achieve precise temperature control and ensure that the user is in the warm state The taste of continuous smoking is consistent with the taste of smoking in the cold state, which can achieve the first puff of the hot machine without burning the mouth, which greatly increases the perfection of the user experience, and in the hot state, the preheating temperature is relatively lower. Correspondence can also save energy.

Description of the drawings

Fig. 1 is a flow chart of the temperature control method of a heating non-combustion smoking device of the present invention;

Figure 2 is a temperature curve diagram of the temperature control method of a heating and non-combustion smoking device of the present invention;

Fig. 3 is a schematic block diagram of a heating non-combustion smoking device of the present invention.

The best mode of the invention

In order to make the objectives, technical solutions, and advantages of the present invention clearer, the following further describes the present invention in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, but not to limit the present invention.

The specific implementation of the present invention will be described in detail below in conjunction with specific embodiments:

As shown in Figure 1 and Figure 2, a temperature control method for heating non-combustion smoke generating equipment includes:

101. Detect the internal temperature value of the heating element in the smoking device and the external temperature value of the external environment of the smoking device;

102. Compare the magnitude of the inner temperature value and the outer temperature value;

103. If the internal temperature value is less than or equal to the external temperature value, and it is concluded that the low-temperature smoke is in a cold state, the heating method with a higher heating temperature is activated to heat the heating non-combustion smoke generating device; wherein, when it is cold In the machine state, the heating in step 103 specifically includes: the first t1 second is the first stage of cold machine preheating, the range of t1 is 5-20s, the heating temperature is T1, and the range of T1 is 360-380 degrees Celsius; t1 to t2 seconds are The second stage of the cooler preheats, the range of t2 is 20~30s, the heating temperature is T2, the range of T2 is 340~360 degrees Celsius; after t2 seconds, it tends to the thermal stability process, and the heating temperature is 300~340 degrees Celsius.

104. If the value of the inner temperature is greater than the value of the outer temperature, it is concluded that the low-temperature smoke is in a heat engine state, and then a heating method with a lower heating temperature is activated to heat the low-temperature smoke. Among them, when it is in the heat engine state, the heating in step 104 specifically includes: the first t1 second is the first stage of the heat engine preheating, the range of t1 is 5-20s, the heating temperature is less than T1, and the range of T1 is 360-380 degrees Celsius; t1 to t2 second is the second stage of heat engine preheating, the range of t2 is 20-30s, the heating temperature is less than T2, the range of T2 is 340-360 degrees Celsius; after t2 seconds, it tends to the thermal stability process, and the heating temperature is 300-340 degrees Celsius.

In the heat engine state, the preheating in step 104 specifically includes:

The heating temperature and heating time of the first stage of the heat engine preheating and the second stage of the heat engine preheating can be adjusted according to the magnitude of the inner temperature value and the outer temperature value.

It can be seen from the above scheme that the preheating temperature in the warm state is less than the warm-up temperature in the cold state, no matter it is in the cold state or the warm state, after the warm-up action is completed (the range of t2 is 20~30s, after t2 seconds ), the heating temperature is the same or the temperature difference is within plus or minus 10 degrees, that is, the heating temperature in step 103 is the same as the heating temperature in step 104 or the temperature difference is within plus or minus 10 degrees, so as to ensure that the state of the cooling and heating engine , The temperature of the smoked smoke is basically the same, and the taste is the same.

In Figure 1, the device starts to work, detects the temperature, and obtains the current temperature of the smoking appliance to determine the state of the cooling and heating machine, calculates different heating curves, calculates the preheating time, and then starts the preheating. After the preheating is completed You can start smoking, and the entire preheating process is automatically completed.

Regarding the heating temperature and heating time, it can be specifically obtained as follows:

In Fig. 2, before step 103 or step 104, it further includes: before heating, according to the value of the internal temperature, preset the heating temperature change curve to obtain the heating temperature and heating time, and set the heating in chronological order It is divided into a preheating stage and a heat preservation stage, and the preheating stage is divided into an initial preheating stage and a heat preservation preheating stage in chronological order. Wherein, the set heating temperature change curve is divided into three stages:

In the first stage, the temperature of the heating element is increased from the initial temperature to the highest first temperature and kept stable for a certain period of time (the first stage of holding time);

In the second stage, the temperature of the heating element is reduced to a second temperature lower than the first temperature;

In the third stage, the temperature of the heating element is maintained at the second temperature and enters a thermal stabilization process.

According to the set heating temperature change curve;

Get the preheating time of the preheating stage, t2=A+(T4-T3)*B;

Get the target temperature of the initial warm-up stage, Tt1=Tw+(T4-T3)*C, which is the first temperature mentioned above;

Obtain the holding time of the holding preheating stage, t2-t1=(T4-T3)*D.

Among them, A represents the minimum preheating time; B represents the proportional coefficient of the preheating time to the temperature of the smoking fixture; C represents the coefficient between the target temperature and the temperature of the smoking fixture when starting up; D represents the coefficient between the holding time of the first stage and the temperature of the smoking fixture when starting up; both ABCD It is related to the material and structure of the cigarette and smoking set; T3 represents the temperature value of the smoking set at normal temperature; T4 represents the temperature value of the smoking set when the device is turned on; Tw represents the minimum temperature of the second stage of heat preservation, which is the second temperature mentioned above.

Among them, the preheating stage is divided into two stages. In the initial preheating stage, the heating temperature in this stage is the highest, and the temperature curve shows an upward trend. When it rises to the highest point, it enters the heat preservation and preheating stage. At this time, the heating is continued at the medium heating temperature. , Due to the superimposed effect of temperature, the temperature is kept at the highest temperature for a period of time, and the temperature curve is flat. After the preheating is completed, it enters the heat preservation stage. At this time, heating is continued at the lowest temperature, and the temperature curve shows a downward trend. At the lowest temperature, it tends to be in a straight state. The user can suck after the preheating is completed, or wait for the temperature to drop to the lowest temperature and tend to be straight. The temperature of the smoking product itself is much lower than the temperature of the smoking device, so there is not much difference in taste. Whether it is in a warm state or a cold state, the temperature curve roughly goes through these stages, and the specific temperature value can be adjusted according to the situation The above specific examples have already given the temperature range, so I won’t repeat them here.

As shown in Figure 3, the present invention also provides a heating and non-combustion smoke generating device, including: a heating element, a temperature detection module, a comparison module and a control module. The temperature detection module is connected to the heating element, and the temperature detection module is connected to the comparison module. The module is electrically connected, the comparison module is electrically connected to the control module, and the control module is electrically connected to the heating element;

The temperature detection module detects the internal temperature value of the heating element and the external temperature value of the external environment of the smoking device;

The comparison module compares the internal temperature value and the external temperature value, and outputs the comparison result to the control module;

The control module controls the heating temperature and heating time of the heating element according to the comparison result.

Wherein, the temperature detection module includes an internal temperature detection module installed in the heating body and an external temperature detection module installed on the casing of the smoking device, so that the temperature environment of the two places can be detected, and the cold and warm state of the device can be determined. Data basis.

The heating non-combustion smoking device further includes a power supply module for supplying power to the smoking device, the control module includes a timer and a power control module connected to each other, and the heating element is connected to the power supply through the power control module. Module connection. The timer is used to time the heating or preheating time, and the power control module is used to control the amount of power added to the heating element to control the heating temperature.

Wherein, the heating element is a heating sheet, a heating rod or a heating tube, which ensures more uniform heating and reduces local temperature differences.

The specific control principle of the heating non-combustion smoking device refers to the process of the above control method.

In the embodiment of the present invention, by detecting the temperature values inside and outside the smoking device, it is determined whether the smoking device is in a cold state or a warm state, and then different heating methods are activated for heating, and different heating temperatures and heating times are selected for preheating, and the cooling machine is activated A higher temperature is used for preheating, and a heat engine is used for a lower temperature for preheating. The temperature and time can be specifically set according to the internal temperature value of the smoking device, so as to achieve precise temperature control and ensure that the user is in the warm state The taste of continuous smoking is the same as the taste of smoking in the cold state. It can achieve that when the first puff of the hot machine is drawn, the smoke does not burn the mouth, which greatly increases the perfection of the user experience, and in the hot state, the preheating temperature is relatively Reduced, corresponding can also save energy.

The above are only the preferred embodiments of the present invention and are not used to limit the present invention. Any modification, equivalent replacement and improvement made within the spirit and principle of the present invention shall be included in the protection of the present invention. Within range.

Embodiments of the invention

See the best embodiment of the present invention.

Industrial applicability

The invention provides a temperature control method for heating non-combustion smoking equipment and the smoking equipment, which can accurately control the temperature and ensure the consistency of the smoking taste under cold and hot engine states.

Claims (11)

A temperature control method for heating non-combustion smoke generating equipment, characterized in that it comprises: 101. Detect the internal temperature value of the heating element in the smoking device and the external temperature value of the external environment of the smoking device; 102. Compare the magnitude of the inner temperature value and the outer temperature value; 103. If the internal temperature value is less than or equal to the external temperature value, and it is concluded that the low-temperature smoke is in a cold state, a heating method with a higher heating temperature is activated to heat the heating non-combustion smoke generating device; 104. If the value of the inner temperature is greater than the value of the outer temperature, it is concluded that the low-temperature smoke is in a heat engine state, and then a heating method with a lower heating temperature is activated to heat the low-temperature smoke. The temperature control method for heating non-combustion smoking equipment according to claim 1, wherein the heating in step 103 specifically includes: The first t1 second is the first stage of the cold machine preheating, the range of t1 is 5-20s, the heating temperature is T1, and the range of T1 is 360-380 degrees Celsius; Seconds from t1 to t2 are the second stage of cold machine preheating. The range of t2 is 20~30s, the heating temperature is T2, and the range of T2 is 340~360 degrees Celsius; After t2 seconds, the process tends to be thermally stable, and the heating temperature is 300-340 degrees Celsius. The temperature control method for heating and non-combustion smoking equipment according to claim 1, wherein the heating in step 104 specifically includes: The first t1 second is the first stage of preheating of the heat engine, the range of t1 is 5-20s, the heating temperature is less than T1, and the range of T1 is 360-380 degrees Celsius; Seconds from t1 to t2 are the second stage of the heat engine preheating. The range of t2 is 20~30s, the heating temperature is less than T2, and the range of T2 is 340~360 degrees Celsius; After t2 seconds, the process tends to be thermally stable, and the heating temperature is 300-340 degrees Celsius. The temperature control method for heating non-combustion smoking equipment according to claim 3, wherein the preheating in step 104 specifically includes: The heating temperature and heating time of the first stage of the heat engine preheating and the second stage of the heat engine preheating can be adjusted according to the magnitude of the inner temperature value and the outer temperature value. The temperature control method for heating non-combustion smoking equipment according to claim 1, characterized in that, before step 103 or step 104, it further comprises: before heating, preset heating according to the value of the internal temperature In order to obtain the heating temperature and heating time, the heating is divided into a preheating stage and a heat preservation stage in chronological order, and the preheating stage is divided into an initial preheating stage and a heat preservation preheating stage according to the time sequence. The temperature control method of a heating and non-combustion smoking device according to claim 5, characterized in that: the set heating temperature change curve is divided into three stages: In the first stage, the temperature of the heating element is increased from the initial temperature to the highest first temperature and kept stable for a certain period of time; In the second stage, the temperature of the heating element is reduced to a second temperature lower than the first temperature; In the third stage, the temperature of the heating element is maintained at the second temperature and enters a thermal stabilization process. The temperature control method for heating non-combustion smoking equipment according to claim 1, characterized in that: the range of t2 is 20~30s, after t2 seconds, the heating temperature in step 103 and the heating temperature in step 104 The same or the temperature difference is within plus or minus 10 degrees. The heating non-combustion smoking device adopting the temperature control method of claim 1, characterized in that it comprises a heating element, a temperature detection module, a comparison module and a control module, the temperature detection module is connected to the heating element, and the temperature The detection module is electrically connected with the comparison module, the comparison module is electrically connected with the control module, and the control module is electrically connected with the heating element; The temperature detection module detects the internal temperature value of the heating element and the external temperature value of the external environment of the smoking device; The comparison module compares the internal temperature value and the external temperature value, and outputs the comparison result to the control module; The control module controls the heating temperature and heating time of the heating element according to the comparison result. The heating non-combustion smoking device according to claim 8, wherein the temperature detection module includes an inner temperature detection module installed in the heating body and an outer temperature detection module installed on the casing of the smoking device. The heat-not-burn smoking device according to claim 8, further comprising a power supply module for supplying power to the smoking device, the control module includes a timer and a power control module connected to each other, and The heating element is connected with the power supply module through the power control module. The heating non-combustion smoking device according to claim 8, characterized in that the heating element is a heating sheet, a heating rod or a heating tube.