KR20190129758A - Method for preventing over-heating and malfunction of fine particle generator - Google Patents

Abstract

The present invention is to provide a method for preventing overheating and malfunctions of a fine particle generator, which analyzes a signal of a temperature sensor to block accidents due to overheating or malfunctions. According to the present invention, a temperature of a heater by resistance heating is sensed by a temperature sensor in real time to be output as an analog signal. Also, the output analog signal is converted into a digital signal by an analog-to-digital converter to be output as an ADC value. In addition, an operation of the heater is controlled based on a determined result by determining at least one of whether the output ADC value is increased in a temperature increase section, is maintained in a temperature maintaining section, and is decreased in a temperature decrease section.

Description

METHOD FOR PREVENTING OVER-HEATING AND MALFUNCTION OF FINE PARTICLE GENERATOR}

The present invention relates to a fine particle generating device of the electric resistance heating method, and more particularly to a fine particle generating device to analyze the signal of the temperature sensor in real time to prevent overheating or malfunction.

Inhalation of preference substances such as smoking, commonly referred to as inhalation of fine particles in the air, ie aerosols, can be achieved. In the past, cigarette-type cigarettes were almost the only means of inhaling these preference substances, but in recent years, electronic cigarettes have become another means. E-cigarettes are completely different from conventional cigarette-type cigarettes in which smoke is generated by vaporizing the inhaled substance by vapor by applying heat or ultrasonic waves to a cartridge containing the inhaled substance in liquid form. It has the advantage that it can prevent the generation of various harmful substances that can be caused by combustion, in particular.

In addition, according to the demands of consumers who prefer ordinary cigarettes in the form of cigarettes, an electronic cigarette having a filter part of a normal cigarette and a shape of a cigarette part has also been proposed. It has a structure which a user inhales through the filter part which has a structure equivalent to a normal cigarette, while vaporizing with a resistance heater. In such an electronic cigarette, as in a normal cigarette, the cigarette portion is filled with dry tobacco leaves, or with a paper impregnated with an inhalation substance or buried on the surface. When the electronic cigarette is inserted into the holder and the heater inside the holder is heated to vaporize the dry tobacco leaf or the suction material inside the cigarette part, the user may suck the suction material vaporized through the filter part. As with conventional electronic cigarettes, the combustion does not occur, but the same mechanism as when smoking cigarettes allows the inhalation of vaporized inhalation substance aerosol through the filter part, so the user feels like smoking a normal cigarette. It becomes possible.

Referring to FIG. 1, when the user presses a button provided on the electronic cigarette to use the electronic cigarette, the user enters a preheating step of rapidly raising the temperature until the change point (t) time, and the change point of the temperature change (c). At the end of the preheating step, the temperature falls between the change point t and the change point t + 1 of the time axis to the change point C + 2, and then the change point at the time axis change point t + 1. The vaporization temperature is maintained while increasing the fine slope from the change point c + 2 of the temperature axis to the change point c + 1 until (t + 2), and the use is terminated at the change point t + 2 of the time axis. The temperature drops rapidly. By the way, in the conventional electronic cigarette, the heater temperature is overheated due to an abnormal operation, or even if a malfunction occurs, the electronic cigarette is not provided with a function of detecting or blocking the electronic cigarette, which may damage the electronic cigarette.

An object of the present invention is to provide a method for preventing overheating and malfunctioning of a fine particle generating device which can block overheating or malfunctioning by sensing and controlling the temperature of an electric resistance heater.

It is an object of the present invention to provide a method for blocking overheating and malfunctioning of a fine particle generating device which analyzes a signal of a temperature sensor and blocks an accident due to overheating or malfunctioning.

Accordingly, the present invention, by detecting the temperature of the heater by the resistance heating in real time with a temperature sensor and output as an analog signal, converts the output analog signal to a digital signal by an analog-digital converter and outputs the ADC value, the output Generation of fine particles that control the operation of the heater based on the determination result by determining one or more of whether the ADC value rises in the temperature rising section, is maintained in the temperature holding section, and falls in the temperature falling section. Provides a method for preventing overheating and malfunction of the device.

Here, preferably, when the ADC value rises in the temperature increase section, the heater is determined to be normal, and if the ADC value does not rise in the temperature increase section, the operation of the heater may be blocked. More preferably, the temperature increase section If the ADC value does not rise even after a predetermined time elapses, the operation of the heater may be blocked.

In addition, preferably, if the ADC value is maintained in the temperature maintenance section, it is determined that the heater operates normally, and if the ADC value is not maintained, the operation of the heater may be cut off. If not maintained even after a predetermined time elapses, the operation of the heater can be interrupted.

In addition, preferably, if the ADC value is falling in the temperature falling section, it is determined that the heater is operating normally, and if the ADC value is not falling, the operation of the heater may be blocked, more preferably, the ADC value in the temperature falling section. The operation of the heater can be interrupted if the drop is not lowered even after this predetermined time elapses.

In any case, the method further includes determining whether the ADC value is outside the limited range in each of the temperature rising section, the temperature holding section, and the temperature falling section, and the heater is overheated when the ADC value exceeds the limited range. And determining that the heater pattern is disconnected when the ACD value is less than the limited range, and blocking the operation of the heater.

In addition, when blocking the operation of the heater may further include generating an alarm or vibration.

According to the present invention, it is possible to block overheating and malfunction of the fine particle generator by sensing and controlling the temperature of the heater.

According to the present invention, it is possible to provide a method for blocking overheating and malfunctioning of a fine particle generating device which blocks an accident due to overheating or malfunctioning by analyzing a signal of a temperature sensor.

1 is a schematic diagram showing the temperature control characteristics of a general electronic cigarette.
2 is a cross-sectional view showing an embodiment of a fine particle generating apparatus to which the present invention can be applied.
3 is a schematic block diagram of a fine particle generating apparatus to which the present invention is applied.
4 is a flowchart illustrating a method for blocking overheating and malfunctioning of a fine particle generating device according to an exemplary embodiment of the present invention.
5 is a flowchart illustrating a method for blocking overheating and malfunctioning of a fine particle generating device according to another exemplary embodiment of the present invention.

Method for blocking overheating and malfunction of the fine particle generating device according to the present invention comprises the steps of determining whether the ADC value rises in the temperature rise section; and if the ADC value rises in the temperature rise section, if the ADC value does not rise, Blocking operation; and determining whether the ADC value is maintained in the temperature maintenance section; and normal operation if the ADC value is maintained in the temperature maintenance section, and blocking the operation of the heater if the ADC value is not maintained. And determining whether the ADC value falls in the temperature falling section; and if the ADC value falls in the temperature falling section, operating normally, and blocking the operation of the heater if the ADC value is not falling.

In addition, the method for blocking overheating and malfunction of the fine particle generating device according to the present invention may include determining whether the ADC value is outside the limited range in each of the temperature rising section, the temperature holding section, and the temperature falling section; And determining that the heater is overheated when the ADC value exceeds the limited range, and blocking the operation of the heater by determining that the heater pattern is disconnected when the ACD value is less than the limited range.

In the following, the invention is described in detail with reference to the embodiments and drawings.

2 is a cross-sectional view showing an embodiment of a fine particle generating apparatus to which the present invention can be applied.

3 is a schematic block diagram of a fine particle generating apparatus to which the present invention is applied.

4 is a flowchart illustrating a method for blocking overheating and malfunctioning of a fine particle generating device according to an exemplary embodiment of the present invention.

5 is a flowchart illustrating a method for blocking overheating and malfunctioning of a fine particle generating device according to another exemplary embodiment of the present invention.

Referring to FIG. 2, the fine particle generating device 100 to which the present invention is applied includes a button 30 that can be pressed to preheat the fine particle generating device 100, and generates heat by resistance when a current is applied. An electric resistance heater 20, a power storage device 50 capable of supplying instantaneously high power to the heater 20, and a control device 40 for controlling the heater 20. The heater 20 generates fine particles by heating a vaporized material in the form of a cigarette including a substance (vaporizing material) which vaporizes the cigarette accommodated in the holder 10 at a predetermined temperature or more. As described above, when a cigarette-type electronic cigarette filled with dry tobacco leaves, impregnated with an inhalation material, or filled with paper is inserted into the holder 10, as shown in the drawing, the heater 20 is heated to the inside of the cigarette part. Vaporizing the inhalation material of the aerosol allows the user to inhale the inhalation material aerosol vaporized through the filter portion of the electronic cigarette. The control device 40 is vibrated when the heater 20 is insufficient to operate the fine particle generating device 100 due to lack of power and needs to be charged, or when the fine particle generating device 100 is ready for operation. By driving the motor 60 to vibrate the fine particle generating device 100 helps the user to recognize.

Referring to FIG. 3, in the fine particle generating apparatus 100 to which the present invention is applied, in the fine particle generating apparatus generating fine particles so that the fine particles (aerosol) can be sucked by a user's suction action, A heater 20 which generates heat by resistance; A temperature sensor 70 for measuring the temperature of the heater; A power storage device 50 capable of supplying high power to the heater 20 instantaneously; It includes; a control device 40 for controlling at least one of these. The heater 20 generates fine particles by heating a cigarette or a vaporizing material containing a vaporizing material (vaporizing material) when heated above a predetermined temperature, the fine particles become fine particles, that is, an aerosol to float in the air. Can be. The temperature sensor 70 detects the temperature of the heater 20 in real time and outputs an analog signal. The analog signal is converted into a digital signal by an analog-digital converter (ADC) 71 and output. In addition, the alarm device 72 is provided, so that the control device 50 determines the ADC value output from the analog-to-digital converter (ADC) 71 to determine the alarm signal 72 when it is determined to be overheating or malfunction. The warning sound may be generated through the vibration motor 60, or the user may be notified of the vibration.

4 is a flowchart illustrating a method for blocking overheating and malfunctioning of a fine particle generating device according to an exemplary embodiment of the present invention.

Referring to FIG. 4, when a user operates a button of the fine particle generating device 100, the controller 40 measures the temperature through the temperature sensor 70 and outputs the ADC from the analog-digital converter (ADC) 71. It is determined whether the value rises in the temperature rise section. If the ADC value rises in the temperature rise section, the heater 20 operates normally. If the ADC value does not rise, the ADC value rises by determining whether the ADC value rises after a predetermined time. If the heater 20 is operated normally, and the ADC value does not increase, the operation of the heater 20 is blocked.

In addition, the controller 40 measures the temperature through the temperature sensor 70 to determine whether the ADC value output from the analog-to-digital converter (ADC) 71 is maintained in the temperature maintenance section, and the ADC value in the temperature maintenance section is determined. If it is maintained, the heater 20 is operated normally. If the ADC value is not maintained, it is determined whether the ADC value is maintained after a predetermined time elapses. If the ADC value is maintained, the heater 20 is operated normally and the ADC value is maintained. If not, the operation of the heater 20 is interrupted.

In addition, the controller 40 measures the temperature through the temperature sensor 70 to determine whether the ADC value output from the analog-to-digital converter (ADC) 71 falls in the temperature drop section, and the ADC value in the temperature drop section. When lowering, the heater 20 is operated normally.If the ADC value does not fall, it is determined whether the ADC value falls after a predetermined time elapses, and when the ADC value falls, the heater 20 is operated normally.If the ADC value does not fall, the heater ( Block operation of 20).

In addition, according to the embodiment, the control device 50 may notify that the failure by generating an alarm or vibration through the alarm means 72 or the vibration motor 60 when blocking the operation of the heater 20.

5 is a flowchart illustrating a method for blocking overheating and malfunctioning of a fine particle generating device according to another exemplary embodiment of the present invention.

Referring to FIG. 5, when a user operates a button of the fine particle generating device 100, the controller 40 measures the temperature through the temperature sensor 70 and outputs an ADC from the analog-digital converter (ADC) 71. It is determined whether the value rises in the temperature increase section, and when the ADC value rises in the temperature increase section, it is determined whether the ADC value exceeds the preset limit range, and when it exceeds the preset limit range, the heater 20 is determined to be overheated. By interrupting the operation of the heater 20, if the predetermined limit does not exceed the heater 20 is operated normally. If the ADC value does not rise in the temperature increase period, the controller 40 determines whether the ADC value falls below the preset limit range, and if the ADC value falls below the preset limit range, the controller 40 determines that the pattern of the heater 20 is disconnected. Block the operation of (20).

In addition, the control device 40 measures the temperature through the temperature sensor 70 to determine whether the ADC value output from the analog-to-digital converter (ADC) 71 is maintained in the temperature maintenance section, and the ADC in the temperature maintenance section. If the value is maintained, it is determined whether the ADC value exceeds the preset limit range. If the ADC value exceeds the preset limit range, the heater 20 is determined to be overheated, and the operation of the heater 20 is cut off. If not exceeded, the heater 20 is operated normally. If the ADC value is not maintained in the temperature maintenance section, the controller 40 determines whether the ADC value falls below a preset limit range, and if the ADC value falls below the preset limit range, determines that the pattern of the heater 20 is disconnected. The operation of the heater 20 is blocked.

In addition, the controller 40 measures the temperature through the temperature sensor 70 to determine whether the ADC value output from the analog-to-digital converter (ADC) 71 falls in the temperature drop section, and the ADC value in the temperature drop section. If it is lowered, it is determined whether the ADC value is less than the preset limit range. If the ADC value is less than the preset limit range, it is determined that the pattern of the heater 20 is disconnected and the operation of the heater 20 is cut off. If it does not fall below, the heater 20 is operated normally. If the ADC value does not fall in the temperature lowering period, the control device 40 determines whether the ADC value exceeds the preset limit range, and if the ADC value exceeds the preset limit range, the controller 20 determines that the heater 20 is overheated. ) To block the operation.

In addition, according to the embodiment, the control device 40 may notify the failure by generating an alarm or vibration through the alarm means 72 or the vibration motor 60 when the operation of the heater 20 is blocked.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

100 fine particle generator 10 cartridge
20: heater 30: button
40: control device 50: power storage device
60: motor 70: temperature sensor
71: analog-to-digital converter 72: alarm means

Claims (9)

The temperature of the heater by resistance heating is detected in real time by the temperature sensor and output as an analog signal,
Convert the output analog signal to digital signal by analog-digital converter and output as ADC value,
Controlling the operation of the heater based on the determination result by determining one or more of whether the output ADC value rises in the temperature rising section, is maintained in the temperature holding section, and falls in the temperature falling section. A method for preventing overheating and malfunction of a fine particle generating device. The method of claim 1,
When the ADC value rises in the temperature rise section, it is determined that the heater is operating normally, and if the ADC value does not rise in the temperature rise section, overheating and malfunction blocking method of the fine particle generating device, characterized in that. The method of claim 2,
A method of preventing overheating and malfunctioning of a fine particle generating device, characterized in that the operation of the heater is blocked if the ADC value does not rise even after a predetermined time elapses in a temperature rising section. The method of claim 1,
When the ADC value is maintained in the temperature maintenance section, it is determined that the heater is operating normally, and if the ADC value is not maintained, the method for preventing overheating and malfunction of the fine particle generating device, characterized in that the heater is blocked. The method of claim 4, wherein
A method for preventing overheating and malfunctioning of a fine particle generating device, characterized in that the operation of the heater is interrupted if the ADC value is not maintained even after a predetermined time elapses in the temperature maintenance section. The method of claim 1,
If the ADC value is falling in the temperature falling section, it is determined that the heater is operating normally, and if the ADC value is not falling, overheating and malfunction blocking method of the fine particle generating device, characterized in that for blocking the operation of the heater. The method of claim 6,
A method for preventing overheating and malfunctioning of a fine particle generating device, characterized in that the operation of the heater is interrupted if the ADC value does not fall even after a predetermined time elapses in the temperature lowering period. The method according to any one of claims 1 to 7,
And determining whether the ADC value is outside the limited range in each section of the temperature rising section, the temperature holding section, and the temperature falling section,
Determining that the heater is overheated when the ADC value exceeds the limited range, and determining that the heater pattern is disconnected when the ACD value is less than the limited range, and blocking the operation of the heater. How to prevent overheating and malfunction of particle generators. The method of claim 8,
Method for blocking overheating and malfunction of the fine particle generating device further comprises generating an alarm or vibration when blocking the operation of the heater.

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