CN111650133B - Method for detecting and controlling harmful substances in solution to be atomized by electronic atomization equipment and electronic atomization equipment - Google Patents

Abstract

The invention discloses a method for detecting and controlling harmful substances in a solution to be atomized by electronic atomization equipment and the electronic atomization equipment thereof, wherein the method comprises the following steps: carrying out spectrum detection on a sample solution containing harmful substances to obtain calibration spectrum information, arranging a light source assembly and a spectrum sensor assembly in an interface of a power supply device, detecting the solution to be atomized by the spectrum sensor assembly to obtain detection spectrum information, analyzing and comparing the detection spectrum information with the calibration spectrum information, if the detection spectrum information can be matched with the calibration spectrum information, determining that the atomizer contains the harmful substances, entering a shutdown unusable state, and simultaneously sending out a warning prompt by a prompt unit; if the detected spectrum information cannot be matched with the calibrated spectrum information, the microcontroller determines that the atomizer does not contain harmful substances, and enters a standby usable state; the method has the advantages that whether the solution to be atomized in the atomizer contains harmful substances can be identified, and harm to a user caused by the harmful substances is avoided.

Description

Method for detecting and controlling harmful substances in solution to be atomized by electronic atomization equipment and electronic atomization equipment

Technical Field

The invention relates to the technical field of electronic atomization equipment, in particular to a method for detecting and controlling harmful substances in solution to be atomized by the electronic atomization equipment and the electronic atomization equipment.

Background

The electronic atomization device comprises an electronic cigarette, medical medicine atomization device and the like, and the basic task of the electronic atomization device is to provide a heating process to convert solutions such as tobacco juice or liquid medicine stored in the electronic atomization device into vapor, aerosol, steam or electronic cigarette smoke and the like.

Electronic atomizing devices generally include a power supply device and an atomizer.

When the prior electronic atomization equipment is high in awareness, the atomizer is a consumed product, the demand is large, the prior electronic atomization equipment is easily replaced by a bad non-genuine atomizer or replaced by atomizers with different tastes on the market, the problem that the quality of the solution to be atomized is bad exists in the counterfeited and non-genuine atomizers, bad use experience is brought when the electronic atomization equipment is used, and especially the solution to be atomized of the bad atomizer with the non-genuine quality possibly contains some harmful substances, so that the consumer can cause bad influence on the body when using the electronic atomization equipment. Thus, there is a need for an electronic atomizing device that can identify harmful substances in an atomizer solution.

Disclosure of Invention

The invention aims to overcome the defects of the technology and provide a method for detecting and controlling harmful substances in a solution to be atomized by electronic atomization equipment and the electronic atomization equipment.

The technical scheme of the invention is realized as follows: a method for detecting and controlling harmful substances in a solution to be atomized by electronic atomization equipment comprises the following steps: a light source component and a spectrum sensor component are arranged in an interface of the power supply device, which is used for inserting and connecting a plug-in part of the atomizer; carrying out spectrum detection on a sample solution containing harmful substances to obtain calibration spectrum information, and writing the calibration spectrum information into a microcontroller arranged in a power supply device; when the atomizer is connected with a power supply device, the spectrum sensor component detects the solution to be atomized by the atomizer to obtain detection spectrum information; the microcontroller analyzes and compares the detection spectrum information with the calibration spectrum information, if the detection spectrum information can be matched with the calibration spectrum information, the microcontroller determines that the atomizer contains harmful substances, the electronic atomization equipment enters a shutdown unusable state, and a prompt unit arranged on the power supply device simultaneously sends out a warning prompt; if the detection spectrum information cannot be matched with the calibration spectrum information, the microcontroller determines that the atomizer does not contain harmful substances, and the electronic atomization device enters a standby usable state.

Preferably, the method further comprises: and the light source component and the spectrum sensor component are respectively arranged on battery brackets at two opposite sides in the interface.

Preferably, the method further comprises: the light source component and the spectrum sensor component are respectively arranged on the battery support at the same side in the interface, and the plug-in part is also internally provided with a reflecting material for reflecting the light rays emitted by the light source component to the spectrum sensor component.

Preferably, the method further comprises: the housing of the plug-in part of the atomizer is made of a light-transmitting material and is used as a light-transmitting window.

Preferably, the method further comprises: and setting the wavelength range of the light rays emitted by the light source assembly to be 350-1000 nm.

Preferably, the method further comprises: and setting the light rays emitted by the light source assembly as visible light and setting the spectrum sensor assembly as a spectrum sensor assembly with visible light color.

Preferably, the method further comprises: and a display unit is arranged on the power supply device, and the microcontroller displays analysis and comparison result information through the display unit.

Preferably, the method further comprises: the intelligent terminal comprises a power supply device, a microcontroller, a Bluetooth communication unit, a microcontroller and related parameters, wherein the Bluetooth communication unit is arranged in the power supply device, the Bluetooth communication unit is connected with the Bluetooth communication unit of the intelligent terminal device in a wireless signal mode, the microcontroller displays analysis and comparison result information on the intelligent terminal through the Bluetooth communication unit, and the intelligent terminal controls or sets the related parameters for the microcontroller through the Bluetooth communication unit.

Preferably, the method further comprises the following specific operation steps:

(1) A light-transmitting window is arranged on the plug-in part of the atomizer, and a light source assembly and a spectrum sensor assembly are arranged in an interface of the power supply device, so that light rays emitted by the light source assembly can be received by the spectrum sensor assembly through the light-transmitting window and the solution to be atomized;

(2) Carrying out spectrum detection on a sample solution containing harmful substances to obtain calibration spectrum information;

(3) Writing the calibration spectrum information into a microcontroller arranged in the power supply device;

(4) Setting other parameters of the electronic atomization device and initializing;

(5) Inserting the plug-in part of the atomizer into an interface connected to the power supply device;

(6) The microcontroller judges whether the atomizer is connected to the power supply device, if so, the next step is carried out; if not, returning to the previous step;

(7) The microcontroller controls the light source assembly to be powered on and emit light;

(8) The spectrum sensor component senses the light transmitted through the solution to be atomized and then generates detection spectrum information;

(9) The microcontroller analyzes and compares the detection spectrum information with the calibration spectrum information;

(10) The microcontroller judges whether the detected spectrum information can be matched with the calibrated spectrum information, if so, the next step is carried out; if not, go to step (12);

(11) The microcontroller determines that the solution to be atomized contains harmful substances, the electronic atomization device enters a shutdown unusable state, and the prompting unit sends out a warning prompt;

(12) And the microcontroller determines that the solution to be atomized does not contain harmful substances, and the electronic atomization device enters a standby usable state.

The other technical scheme of the invention is realized as follows: the utility model provides an electronic atomizing equipment for realizing detection and control method of harmful substance in electronic atomizing equipment solution that waits to atomize, includes detachable connection's atomizer and power supply unit, the atomizer includes suction nozzle portion and grafting portion, power supply unit is including being used for holding the interface that grafting portion inserts and connect, be equipped with stock solution chamber and atomizing unit in the atomizer, the solution that waits to atomize is equipped with light source subassembly and spectral sensor subassembly in the stock solution intracavity, be equipped with the light window that the printing opacity material was made on the grafting portion, light that the light source subassembly sent can permeate light window and wait to atomize the solution is received by spectral sensor subassembly, still be equipped with microcontroller and power control circuit in the power supply unit, power control circuit output power gives atomizing unit, microcontroller includes memory cell, analysis comparison unit and control unit.

The beneficial effects of the invention are as follows: the sample solution containing harmful substances is subjected to spectrum detection to obtain calibration spectrum information, the to-be-atomized solution in the atomizer is subjected to spectrum detection through the spectrum sensor assembly, and the measured spectrum information is compared with the calibrated spectrum information of the calibrated harmful substances, so that whether the to-be-atomized solution in the atomizer contains the harmful substances can be identified, the use of the atomizer containing the harmful substances can be further avoided, and the harm of the harmful substances to a user is avoided.

Drawings

Fig. 1 is a perspective exploded view of an electronic atomizing apparatus of the present invention;

fig. 2 is a cross-sectional view of a power supply device housing of the present invention;

fig. 3 is a cross-sectional view of an electronic atomizing apparatus of the present invention;

FIG. 4 is a first exploded perspective view of the atomizer of the present invention;

fig. 5 is a second cross-sectional view of the electronic atomizing apparatus of the present invention;

FIG. 6 is a second perspective exploded view of the atomizer of the present invention;

fig. 7 is a functional block diagram of an electronic atomizing apparatus of the present invention;

FIG. 8 is a flow chart of a method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomizing apparatus according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Examples:

as shown in fig. 1 to 4, the electronic atomizing device for realizing the method of the invention comprises an atomizer 1 and a power supply device 2 which are detachably connected, wherein the atomizer 1 comprises a nozzle part 11 and a plug part 10, the power supply device 2 comprises an interface 20 for accommodating the plug part 10 to be inserted and connected, and a liquid storage cavity 12 and an atomizing unit 13 are arranged in the atomizer 1. The interface 20 is internally provided with a light source assembly 24 and a spectrum sensor assembly 25, the plug-in part 10 is provided with a light transmission window 100 made of light transmission materials, and light rays emitted by the light source assembly 24 can be received by the spectrum sensor assembly 25 through the light transmission window 100 and the solution to be atomized. The solution 120 to be atomized is contained in the liquid storage cavity 12, and the solution 120 to be atomized can be liquid substances such as liquid medicine, electronic cigarette liquid and the like.

As shown in fig. 7, the power supply device 2 is further provided with a microcontroller 27 and a power control circuit 28, the microcontroller 27 includes a storage unit 271, an analysis and comparison unit 272 and a control unit 273, and the control unit 273 can send control signals, such as controlling the output power of the power control circuit 28, and the power control circuit 28 outputs power to the atomizing unit 13. The power control circuit outputs power to the atomization unit 13, and the atomization unit 13 heats and atomizes the solution 120 to be atomized.

In the invention, the sample solution refers to a solution which is sampled in advance for the to-be-atomized solution in the atomizers with different taste types to be sold, the to-be-atomized solution with different tastes is stored in the atomizers with each taste type, and solute components contained in the to-be-atomized solution with different tastes are different, so that the corresponding sample solution of the atomizers with each taste needs to be subjected to spectral detection and calibration in advance so as to obtain calibration spectral information.

As shown in fig. 1-4 and 7, the method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomizing device according to the embodiment includes: a light-transmitting window 100 made of a light-transmitting material is arranged on the plug-in part 10, and a light source assembly 24 and a spectrum sensor assembly 25 are arranged in the interface 20, so that light rays (shown by continuous arrows from left to right in fig. 3) emitted by the light source assembly 25 can be received by the spectrum sensor assembly 25 through the light-transmitting window 100 and the solution; carrying out spectrum detection on a sample solution containing harmful substances to obtain calibration spectrum information of the harmful substances, and writing the calibration spectrum information into a microcontroller 27 arranged in the power supply device 2; when the atomizer 1 is connected to the power supply device 2, the light source assembly 24 and the spectrum sensor assembly 25 are activated to work, and the spectrum sensor assembly 25 detects the solution 120 to be atomized in the atomizer 1 to obtain detection spectrum information of various solutes in the solution; the detected spectrum information is transmitted to the microcontroller 27, the microcontroller 27 analyzes and compares the detected spectrum information with the calibration spectrum information, if the detected spectrum information can be matched with the calibration spectrum information, and the detected spectrum information comprises part of spectrum curve information, of which part of spectrum curve information accords with the calibration spectrum information, and as one spectrum curve information represents one substance, the microcontroller 27 can determine that the atomizer contains the harmful substance, and the microcontroller 27 controls the electronic atomization device to enter a shutdown unusable state, namely the power control unit 28 cannot output power to the atomization unit 13, the atomization unit 13 cannot be used, and a prompt unit arranged on the power supply device 2 simultaneously sends out a warning prompt; if the detected spectrum information cannot be matched with the calibrated spectrum information, the microcontroller determines that the atomizer does not contain harmful substances, the microcontroller 27 controls the electronic atomization device to enter a standby usable state, namely, only the suction nozzle part 11 for a user generates actions of sucking vapor and mist, and the power control circuit 28 can output power to the atomization unit 13 for heating and atomizing.

As shown in fig. 1 to 4, the method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomization device according to the embodiment further includes: the light source assembly 24 and the spectrum sensor assembly 25 are respectively arranged on the battery brackets 26 at two opposite sides in the interface 20, so that the light emitted by the light source assembly 24 can transversely penetrate through the light transmission window 100 and the solution to be atomized in the liquid storage cavity, and then the light is received and sensed by the spectrum sensor assembly 25.

In another embodiment, as shown in fig. 5 to fig. 6, the method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomizing apparatus further includes: the light source assembly 24 and the spectrum sensor assembly 25 are respectively arranged on a battery bracket 26 on the same side in the interface 20, and the light reflecting material 14 is further arranged in the plug-in part 10 to reflect the light emitted by the light source assembly to the spectrum sensor assembly 26. The light source assembly 24 emits light from the lower portion at an incident angle and the spectral sensor assembly 25 receives light reflected by the reflective material 14 from the upper portion at a reflection angle.

As shown in fig. 1 to 4, the method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomization device according to the embodiment further includes: the entire housing of the plug-in part 10 is made of a light-transmitting material and is used as the light-transmitting window 100, i.e. the light-transmitting window 100 is formed by the entire housing of the plug-in part 10, which is entirely made of a light-transmitting material.

As shown in fig. 1 to 4, the method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomization device according to the embodiment further includes: the light emitted from the light source unit 24 is visible light, and the spectrum sensor unit 25 is a spectrum sensor unit of visible light color.

As shown in fig. 1 to 4, the method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomization device according to the embodiment further includes: the wavelength range of the light emitted from the light source assembly 25 is set to 350nm to 1000nm.

The anti-counterfeiting method of the electronic atomization device of the embodiment further comprises the following steps: a display unit (not shown) is provided in the power supply device 2, and the microcontroller displays information of the analysis and comparison result through the display unit.

The anti-counterfeiting method of the electronic atomization device of the embodiment further comprises the following steps: a bluetooth communication unit (not shown in the figure) is arranged in the power supply device 2, the bluetooth communication unit is in wireless signal connection with the bluetooth communication unit of the intelligent terminal equipment, the microcontroller displays the information of the analysis and comparison result through the intelligent terminal, and the intelligent terminal controls or sets related parameters for the microcontroller.

As shown in fig. 1 to 8, the method for detecting and controlling harmful substances in a solution to be atomized by the electronic atomizing device of the present embodiment includes the following specific operation steps:

(1) A light-transmitting window 100 made of light-transmitting material is arranged on the plug-in part 10 of the atomizer 1, and a light source assembly 24 and a spectrum sensor assembly 25 are arranged in the interface 20 of the power supply device 2, so that light rays emitted by the light source assembly 24 can be received by the spectrum sensor assembly 25 through the light-transmitting window 100 and the solution to be atomized;

(2) Carrying out spectrum detection on a sample solution containing harmful substances to obtain calibration spectrum information;

(3) Writing calibration spectrum information into a microcontroller 27 arranged in the power supply device 2;

(4) Setting other parameters of the electronic atomization device and initializing;

(5) A connector 20 for inserting the plug-in part 10 of the atomizer 1 into the power supply device 2;

(6) The microcontroller 27 determines whether the atomizer 1 is connected to the power supply means 2, and if so, proceeds to the next step; if not, returning to the previous step;

(7) The microcontroller 27 controls the light source assembly 24 to be powered on and emit light;

(8) The spectrum sensor assembly 25 senses the light transmitted through the solution to be atomized to generate detection spectrum information;

(9) The microcontroller 27 performs analysis and comparison of the detected spectrum information and the calibrated spectrum information;

(10) The microcontroller 27 judges whether the detected spectrum information can be matched with the calibrated spectrum information, and if so, the next step is carried out; if not, go to step (12);

(11) The microcontroller 27 determines that the solution to be atomized contains harmful substances, so that the electronic atomization device enters a shutdown unusable state, and the prompting unit sends out a warning prompt;

(12) The microcontroller 27 determines that the solution to be nebulized does not contain harmful substances and brings the electronic nebulizing device into a standby usable state.

The foregoing description is only of the preferred embodiments of the invention, and the above-described embodiments are not intended to limit the invention. Various changes and modifications may be made within the scope of the technical idea of the present invention, and any person skilled in the art may make any modification, modification or equivalent substitution according to the above description, which falls within the scope of the present invention.

Claims (9)

1. The method for detecting and controlling the harmful substances in the solution to be atomized of the electronic atomizing equipment is characterized by comprising the following steps: a light source component and a spectrum sensor component are arranged in an interface of the power supply device, which is used for inserting and connecting a plug-in part of the atomizer; carrying out spectrum detection on a sample solution containing harmful substances to obtain calibration spectrum information, and writing the calibration spectrum information into a microcontroller arranged in a power supply device; when the atomizer is connected with a power supply device, the spectrum sensor component detects the solution to be atomized by the atomizer to obtain detection spectrum information; the microcontroller analyzes and compares the detection spectrum information with the calibration spectrum information, if the detection spectrum information can be matched with the calibration spectrum information, the microcontroller determines that the atomizer contains harmful substances, the electronic atomization equipment enters a shutdown unusable state, and a prompt unit arranged on the power supply device simultaneously sends out a warning prompt; if the detection spectrum information cannot be matched with the calibration spectrum information, the microcontroller determines that the atomizer does not contain harmful substances, and the electronic atomization device enters a standby usable state;

the method also comprises the following specific operation steps:

(1) A light-transmitting window is arranged on the plug-in part of the atomizer, and a light source assembly and a spectrum sensor assembly are arranged in an interface of the power supply device, so that light rays emitted by the light source assembly can be received by the spectrum sensor assembly through the light-transmitting window and the solution to be atomized;

(2) Carrying out spectrum detection on a sample solution containing harmful substances to obtain calibration spectrum information;

(3) Writing the calibration spectrum information into a microcontroller;

(4) Setting other parameters of the electronic atomization device and initializing;

(5) Inserting the plug-in part of the atomizer into an interface connected to the power supply device;

(6) The microcontroller judges whether the atomizer is connected to the power supply device, if so, the next step is carried out; if not, returning to the previous step;

(7) The microcontroller controls the light source assembly to be powered on and emit light;

(8) The spectrum sensor component senses the light transmitted through the solution to be atomized and then generates detection spectrum information;

(9) The microcontroller analyzes and compares the detection spectrum information with the calibration spectrum information;

(10) The microcontroller judges whether the detected spectrum information can be matched with the calibrated spectrum information, if so, the next step is carried out; if not, go to step (12);

(11) The microcontroller determines that the solution to be atomized contains harmful substances, the electronic atomization device enters a shutdown unusable state, and the prompting unit sends out a warning prompt;

(12) And the microcontroller determines that the solution to be atomized does not contain harmful substances, and the electronic atomization device enters a standby usable state.

2. The method for detecting and controlling harmful substances in a solution to be atomized by an electronic atomizing apparatus according to claim 1, further comprising: and the light source component and the spectrum sensor component are respectively arranged on battery brackets at two opposite sides in the interface.

3. The method for detecting and controlling harmful substances in a solution to be atomized by an electronic atomizing apparatus according to claim 1, further comprising: the light source component and the spectrum sensor component are respectively arranged on the battery support at the same side in the interface, and the plug-in part is also internally provided with a reflecting material for reflecting the light rays emitted by the light source component to the spectrum sensor component.

4. The method for detecting and controlling harmful substances in a solution to be atomized by an electronic atomizing apparatus according to claim 1, further comprising: the housing of the plug-in part of the atomizer is made of a light-transmitting material and is used as a light-transmitting window.

5. The method for detecting and controlling harmful substances in a solution to be atomized by an electronic atomizing apparatus according to claim 1, further comprising: and setting the wavelength range of the light rays emitted by the light source assembly to be 350-1000 nm.

6. The method for detecting and controlling harmful substances in a solution to be atomized by an electronic atomizing apparatus according to claim 1, further comprising: and setting the light rays emitted by the light source assembly as visible light and setting the spectrum sensor assembly as a spectrum sensor assembly with visible light color.

7. The method for detecting and controlling harmful substances in a solution to be atomized by an electronic atomizing apparatus according to claim 1, further comprising: and a display unit is arranged on the power supply device, and the microcontroller displays analysis and comparison result information through the display unit.

8. The method for detecting and controlling harmful substances in a solution to be atomized by an electronic atomizing apparatus according to claim 1, further comprising: the intelligent terminal comprises a power supply device, a microcontroller, a Bluetooth communication unit, a microcontroller and related parameters, wherein the Bluetooth communication unit is arranged in the power supply device, the Bluetooth communication unit is connected with the Bluetooth communication unit of the intelligent terminal device in a wireless signal mode, the microcontroller displays analysis and comparison result information on the intelligent terminal through the Bluetooth communication unit, and the intelligent terminal controls or sets the related parameters for the microcontroller through the Bluetooth communication unit.

9. An electronic atomizing device for implementing the method of claim 1, comprising a detachably connected atomizer and a power supply device, wherein the atomizer comprises a nozzle and a plug-in part, the power supply device comprises an interface for accommodating the insertion and connection of the plug-in part, a liquid storage cavity and an atomizing unit are arranged in the atomizer, a solution to be atomized is arranged in the liquid storage cavity, a light source component and a spectrum sensor component are arranged in the interface, a light transmission window made of a light transmission material is arranged on the plug-in part, light rays emitted by the light source component can be received by the spectrum sensor component through the light transmission window and the solution to be atomized, a microcontroller and a power control circuit are further arranged in the power supply device, and the power control circuit outputs power to the atomizing unit, and the microcontroller comprises a storage unit, an analysis comparison unit and a control unit.