KR20230105131A - Calibration method of a cigarette detection sensor - Google Patents

Abstract

The present invention relates to a technology for preventing malfunction of a sensor which can be installed in an aerosol generating device. In particular, the present invention relates to a calibration method for a cigarette sensor. The calibration method of a cigarette sensor according to an embodiment of the present invention comprises: a step of setting a change amount of a reference detection value; a step of recognizing the amount of change in the detected value during the process; a correction value calculation step during the process; a step of applying the correction value during the process and calculating the change in the final detected value; a step of recognizing the amount of change in the detected value when used; a correction value calculation step when used; and a step of applying correction values when in use and calculating the final detection value change.

Description

Calibration method of a sensor for detecting cigarette {CALIBRATION METHOD OF A CIGARETTE DETECTION SENSOR}

The present invention relates to a detection error preventing technology of a sensor that can be provided in an aerosol generating device, and more particularly, to a method for calibrating a sensor for detecting a cigarette.

Aerosols are small liquid or solid particles suspended in the air and usually have a size of 0.001 to 1.0 μm. In particular, there are cases in which people inhale aerosols derived from various types of cigarette-type aerosol-generating articles.

As a prior art, Korean Patent Publication No. 10-2020-0127892 discloses a cavity into which a cigarette-type aerosol-forming material can be inserted; a magnetic field sensor and/or a capacitance sensor installed near the cavity; a sensing module electrically connected to the magnetic field sensor and/or the capacitance sensor; A portable aerosol generator including an MCU for determining whether to detect an aerosol forming material in the form of a cigarette according to signals and data input from the sensing module is disclosed.

In the prior art described above, deviations in detection values for each sensor may occur due to errors in the manufacturing process of the aerosol generator and the sensor, and when the aerosol generator is used for a long time, the detected value of the sensor may be caused by foreign substances attached to the sensor or the aerosol generator. There is a problem in that a deviation of , which may result in a detection error.

Republic of Korea Patent Publication No. 10-2020-0127892

An object of the present invention is to provide a calibration method capable of preventing a detection error of a sensor for detecting a cigarette provided in an aerosol generating device.

A method for calibrating a sensor for detecting a cigarette according to an embodiment of the present invention includes setting a reference detection value variation; Recognizing the amount of change in the detected value during the process; Calculating a correction value during processing; Applying a correction value during the process and calculating a change in the final detected value; Recognizing the amount of change in the detected value during use; Calculating a correction value during use; In use, applying a correction value and calculating a change in the final detected value; includes.

Here, in the step of calculating the correction value during processing, a correction value is calculated by a difference between the amount of change in the reference sensing value and the amount of change in the sensing value in the process.

Here, the calculation of the correction value during use is calculated by adding the difference between the change amount of the reference detection value and the change amount of the detection value during use to the correction value during the process.

In addition, according to the embodiment, the step of setting a reference detection value when there is no cigarette, setting the detection range of the sensor for detecting the cigarette, recognizing the detection value upon resetting, and resetting the detection range of the sensor for detecting the cigarette may be further included.

Here, in the step of resetting the detection range of the sensor for detecting cigarettes, when there is no set cigarette, the difference between the reference detection value and the detection value upon reset is added to or subtracted from the preset detection range of the cigarette detection sensor and reset.

According to the present invention, it is possible to prevent detection errors of the cigarette detection sensor in the aerosol generator by providing a method for calibrating the cigarette detection sensor provided in the aerosol generator.

1 is a view for schematically explaining an aerosol generating device to which the present invention can be applied;
2 is a schematic circuit block diagram of an aerosol generating device to which the present invention can be applied;
3 is a flowchart showing that the method for calibrating a sensor for detecting a cigarette according to the present invention is applied to a process inspection process;
4 is a flowchart showing that the method for calibrating a sensor for detecting a cigarette according to the present invention is applied when an aerosol generating device is used;
5 is a flowchart for explaining a calibration method of a sensor for detecting cigarettes according to an embodiment of the present invention;
6 is a flowchart showing that a method for calibrating a sensor for detecting cigarettes is applied to a reset process according to an embodiment of the present invention;
7 is a flowchart illustrating a method of calibrating a sensor for detecting cigarettes during reset according to an embodiment of the present invention;

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a diagram for schematically explaining an aerosol generating device to which the present invention can be applied, and FIG. 2 is a schematic circuit block diagram of an aerosol generating device to which the present invention can be applied.

Referring to FIGS. 1 and 2, the aerosol generating device 100 includes a body housing 20. Provided in the body housing 20, the cavity 30 into which the cigarette 10 is inserted, provided in the body housing 20, the heater 40 for heating the cigarette 10 inserted into the cavity 30 and , a battery 50 provided in the main housing 20 to supply power to the heater 40, a power supply unit 60 provided in the main housing 20 to turn on/off power, and at least one of these It may include a control unit 70 that controls abnormalities. In addition, at least one sensor for detecting the cigarette may be provided in the vicinity of or in the cavity 30 into which the cigarette 10 is inserted. For example, a sensor for detecting a cigarette may be an inductive sensor 80 and/or a capacitance sensor 90 . The inductance sensor 80 detects a change in inductance value when the cigarette 10 is inserted into the cavity 30, and the capacitance sensor 90 detects a change in capacitance value when the cigarette 10 is inserted into the cavity 30. detect The cigarette detection sensor is electrically connected to the control unit 70, and the control unit 70 determines whether the cigarette 10 is inserted according to a signal input from the cigarette detection sensor.

3 is a flow chart showing that the calibration method of the cigarette detection sensor according to the present invention is applied to a process inspection process, and FIG. am.

Referring to FIGS. 3 and 4 , the method for calibrating a sensor for detecting a cigarette according to the present invention is applied during a process inspection process and during use. Referring to FIG. 3, in the process of inspecting the process of the aerosol generating device 100, a sensor calibration (dotted line) for detecting a cigarette according to the present invention is added. As shown in FIG. 3, among various general inspection processes of the aerosol generating device 100, after the inspection of the sensor for detecting cigarettes, the calibration of the sensor for detecting cigarettes (dotted line) is added. In addition, referring to FIG. 4, when the aerosol generating device 100 is used, a sensor calibration (dotted line) for detecting a cigarette according to the present invention is added. As shown in FIG. 4 , when the aerosol generating device 100 is used, a cigarette detection sensor calibration (dotted line) is added between the cigarette detection sensor detection and the cigarette insertion determination operation.

5 is a flowchart illustrating a calibration method of a sensor for detecting a cigarette according to an embodiment of the present invention.

Referring to FIG. 5 , a method for calibrating a sensor for detecting a cigarette according to an embodiment of the present invention includes setting a change amount of a reference detection value; Recognizing the amount of change in the detected value during the process; Calculating a correction value during processing; Applying a correction value during the process and calculating a change in the final detected value; Recognizing the amount of change in the detected value during use; Calculating a correction value during use; In use, applying a correction value and calculating a change in the final detected value; includes. In the present invention, the amount of change is the difference between the detection value of the cigarette detection sensor when the cigarette 10 is not inserted into the cavity 30 and the detection value of the cigarette detection sensor when the cigarette 10 is inserted into the cavity 30 it means.

In the process inspection process shown in FIG. 3, the reference detection value change amount ΔA is set in the control unit 70 in the reference detection value change amount setting step (A) of the calibration of the cigarette detection sensor. Denotes the amount of change in the detection value when the cigarette detection sensor operates normally. After that, in the step of recognizing the change in the detected value during the process (b), the control unit 70 operates the sensor for detecting cigarettes as many times as the predetermined number of tests, and then recognizes the change in the detected value of the sensor for detecting the cigarette to detect the change in the detected value during the process ( ΔB) is recognized, and the correction value C during processing is calculated by the difference between the reference detection value change amount (ΔA) and the detection value change amount during processing (ΔB) in the step of calculating the correction value during processing (C). For example, when the reference detection value variation is 15 and the detection value variation (ΔB) during processing is 8, +7 is calculated as the correction value (C) during processing. In addition, for example, when the reference detection value change amount (ΔA) is 15 and the detection value change amount (ΔB) during processing is 19, -4 is calculated as the correction value (C) during processing. Subsequently, in the step of applying the correction value during the process and calculating the change in the final detected value in (D), the control unit 70 calculates the final detected value change (ΔNa) by adding the correction value (C) to the detected value change (ΔB) during the process. . Thereafter, when the aerosol generating device 100 is shipped and the aerosol generating device 100 is used for a predetermined number of times (for example, 30 times), the control unit 70 calculates a correction value ( C) is added to calculate the final detection value variation (ΔNa) to determine whether the cigarette 10 is inserted or not, and after using the aerosol generating device 100 a predetermined number of times (for example, 30 times) of (e) In the step of recognizing the change in the detected value during use, the control unit 70 recognizes the change in the detected value when in use by recognizing the change in the detected value of the sensor for detecting the cigarette during use, and in the step of calculating the corrected value during use (F), the correction value during use (D ), the correction value (D) when used is calculated by adding the difference between the reference detection value change (ΔA) and the detection value change (ΔC) to the correction value (C) during the process. For example, if the correction value (C) during processing is +7, the standard detection value change amount (ΔA) is 15, and the detection value change amount (ΔC) during use is 13, the reference detection value change amount (C) +7 during processing +9 is calculated as the correction value (D) when using +9 by adding the difference +2 between ΔA) 15 and the change in detected value (ΔC) 13 during use. In addition, for example, if the correction value (C) during processing is -4, the standard detection value change amount (ΔA) is 15, and the detection value change amount (ΔC) during use is 20, the correction value (C) during processing is -4 and the standard detection value change amount -9 is calculated as the correction value (D) when using (ΔA) 15 and the difference between -5 of the change in the detected value (ΔC) 20 during use.

Subsequently, in the step of applying the correction value at use and calculating the change in the final detected value in step (g), the control unit 70 calculates the final detected value change (ΔNb) by adding the correction value (D) to the detected value change (ΔC) when in use, By determining whether or not the cigarette 10 is inserted by the final detection value variation ΔNb, for example, the control unit 70 controls the power unit 60 to turn on the power when it is determined that the cigarette 10 is inserted. ), and if it is determined that the cigarette 10 is not inserted, the power unit 60 is controlled to turn off the power, or an error is displayed on a display unit that may be provided in the aerosol generating device 100.

6 is a flowchart showing that a method for calibrating a sensor for detecting cigarettes is applied to a reset process according to an embodiment of the present invention, and FIG. 7 is a flowchart illustrating a method for calibrating a sensor for detecting cigarettes during reset according to an embodiment of the present invention. It is a flow chart for

When the aerosol generating device 100 is frequently used, foreign substances may be attached to the cigarette detection sensor, causing a deviation in the detection range of the cigarette detection sensor. For example, if the detection range of the cigarette detection sensor during normal operation is 5 when there is no cigarette and 15 when there is a cigarette, foreign matter is attached to the cigarette detection sensor and the cigarette detection sensor detects A deviation occurs in the range, so that, for example, the detection range of the cigarette detection sensor may be 1 when there is no cigarette and 11 when there is a cigarette. Therefore, when a deviation occurs in the detection range of the cigarette detection sensor, it is necessary to reset the detection range of the cigarette detection sensor accordingly. Referring to FIG. 6, during the reset operation of the aerosol generating device 100, a sensor calibration (dotted line) for detecting a cigarette according to an embodiment of the present invention is added. As shown in FIG. 6 , during a general reset operation of the aerosol generating device 100, a sensor calibration (dotted line) for detecting a cigarette according to an embodiment of the present invention may be added. Referring to FIG. 7 , a method for calibrating a sensor for detecting a cigarette according to an embodiment includes setting a reference detection value when there is no cigarette; Setting a detection range of a sensor for detecting cigarettes; recognizing the sensed value upon resetting; It further includes; resetting the detection range of the sensor for detecting cigarettes.

In the step of setting the standard detection value when there is no cigarette in (A), the control unit 70 sets the detection value detected when there is no cigarette when the cigarette detection sensor is normally operated as the reference detection value (A) when there is no cigarette In step (B) of setting the detection range of the cigarette detection sensor, when the cigarette detection sensor operates normally, the detection range of the cigarette detection sensor is set to the cigarette detection sensor detection range (A to B). For example, if the standard detection value (A) is 5 when there is no cigarette, the control unit 70 determines that there is a cigarette by a preset difference value (for example, 10) from the reference detection value (A) when there is no cigarette. Set the detection value (B) to 15 and set the detection range (A to B) of the cigarette detection sensor to 5 to 15. Then, in step (c) of recognizing the detection value upon reset, the control unit 70 resets the detection value of the cigarette detection sensor during the reset operation of the aerosol generating device 100 (the state in which the cigarette is not inserted). ), and in the step of resetting the sensor detection range for cigarette detection in (D), the control unit 70 sets the difference value (F) between the reference detection value (A) and the reset detection value (E) when there is no set cigarette. The set cigarette detection sensor detection range (A to B) is added or subtracted to reset the cigarette detection sensor detection range (A to B). If the reset detection value (E) is greater than the reference detection value (A) when there is no cigarette, for example, if the reset detection value (E) is 8, the control unit 70 controls the reference detection value (A) when there is no cigarette. ) and 3, which is the difference value (F) of 8, which is the detection value (E) at reset, is added to the set detection range of the cigarette detection sensor (A to B), 5 to 15, to obtain the detection range of the cigarette detection sensor (A to B) reset to 8~18. In addition, if the reset detection value (E) is smaller than the reference detection value (A) when there is no cigarette, for example, if the reset detection value (E) is 1, the control unit 70 determines the reference detection value when there is no cigarette By subtracting 4, the difference value (F) between (A) 5 and the detection value (E) 1 at reset, from the set cigarette detection sensor detection range (A to B) 5 to 15, the cigarette detection sensor detection range ( A~B) are reset to 1~11.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes are within the scope of the claims.

Claims (5)

setting a reference detection value variation;
Recognizing the amount of change in the detected value during the process;
Calculating a correction value during processing;
Applying a correction value during the process and calculating a change in the final detected value;
Recognizing the amount of change in the detected value during use;
Calculating a correction value during use;
A method for calibrating a sensor for detecting a cigarette, comprising the steps of applying a correction value during use and calculating a change in the final detected value. According to claim 1
Calculation method of the sensor for detecting a cigarette, characterized in that the step of calculating the correction value during the process calculates the correction value by the difference between the change amount of the reference detection value and the change amount of the detection value during the process. According to claim 1 or 2,
The step of calculating the correction value during use is a method for calibrating a sensor for detecting a cigarette, characterized in that the calculation is calculated by adding the difference between the change in the reference detection value and the change in the detection value during use to the correction value during the process. According to claim 1,
The step of setting a reference detection value when there is no cigarette, setting the detection range of the sensor for detecting cigarettes, recognizing the detection value upon reset, and resetting the detection range of the sensor for detecting cigarettes. Calibration method. According to claim 4,
In the step of resetting the detection range of the sensor for detecting cigarettes, when there is no set cigarette, the difference between the reference detection value and the detection value at reset is added to or subtracted from the preset detection range of the cigarette detection sensor. calibration method.

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