CN106814005B - A kind of detection and labeling method of electronic smog - Google Patents

Abstract

The invention relates to a method for detecting and labeling the amount of electronic cigarettes, and belongs to the technical field of electronic cigarettes. The main steps include: (1) setting the parameters of the smoking machine; (2) weighing the quality of the electronic cigarette to obtain M0; (3) installing the electronic cigarette on the smoking machine and turning on the smoking machine; (4) recording a smoking The number of puffs A in the puff unit, and the mass difference ΔMn of the electronic cigarette before and after a single puff unit is calculated, and then the average atomization amount Cn at the end of a single puff cycle is calculated; where n is equal to the number of puff units; ( 5) Repeat step (3) and step (4), the number of repetitions is n times, and obtain a plurality of average atomization amounts Cn; (6) calculate the average atomization amount C at the end of all suction cycles; (7) in The average value of the atomization volume D is marked on the electronic cigarette. The method can detect and mark the amount of electronic cigarettes, which is convenient for consumers to make reasonable choices and improves the effect of smoking cessation.

Description

A kind of detection and labeling method of electronic smog

technical field

The invention relates to the technical field of electronic cigarettes, in particular to a method for detecting and labeling the amount of electronic cigarettes.

Background technique

At present, the battery power and the amount of e-liquid of commercially available electronic cigarettes are quite different, and the amount of atomization that consumers take in each puff is different, but they are not specifically marked, and the amount of atomization affects consumers' satisfaction. key indicators. If the amount of atomization is small, the taste is not good; if the amount of atomization is large, it will be more choking, affecting the health of consumers.

Therefore, labeling the amount of atomization for electronic cigarettes will help consumers to choose the electronic cigarette that suits them according to their actual needs.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide a method for detecting and marking the amount of electronic cigarette smoke in order to overcome the deficiencies of the above-mentioned prior art. Using this method, the amount of electronic cigarettes can be detected and marked, which is convenient for consumers to make reasonable choices.

In order to achieve the above object, the present invention adopts the following technical solutions:

A method for detecting and labeling the amount of electronic cigarettes, the method is suitable for use when electronic cigarettes are weighed offline, and is characterized in that, it includes the following steps:

(1) Set the parameters of the smoking machine;

(2) Weigh the quality of the electronic cigarette to obtain M0;

(3) Install the electronic cigarette on the smoking machine and turn on the smoking machine;

(4) Record the number of puffs A in a puff unit, calculate the quality difference ΔMi of the electronic cigarette before and after a single puff unit, and then calculate the average atomization amount Ci at the end of a single puff cycle, where i=1 , 2, ... n, n is an integer;

where n equals the number of suction units;

(5) repeating step (4) and step (5), the number of repetitions is n times, and obtains a plurality of average atomization amounts Cn;

(6) Calculate the average atomization amount C at the end of all suction cycles;

(7) Mark the average value of atomization D on the electronic cigarette.

In the above method, preferably, the parameters set for the smoking machine in step (1) include the number of times of puffing A, and the interval time T between puffs.

In the above method, preferably, in step (4), the average atomization amount at the end of a single suction cycle is Ci=ΔMi/A.

In the above method, preferably, in step (4), the number of suction cycles n is not less than 20 times.

In the above method, preferably, in step (6), the average atomization amount C=(C1+C2+C3+C4+...+Cn)/n.

A method for detecting and labeling the amount of electronic cigarettes, the method is suitable for use in online weighing of electronic cigarettes, and includes the following steps:

(1) Set the parameters of the smoking machine, and connect the smoking machine with the online monitor;

(2) Place the electronic cigarette on the smoking machine, smoke the electronic cigarette and calculate the data by the online monitor;

(3) Data collection is carried out after the suction is completed, and the average atomization volume C is obtained;

(4) Mark the average value of atomization D on the electronic cigarette.

In the above method, preferably, in the step (2), the electronic cigarette performs n puff cycles, and A puff cycle is performed in each puff cycle, and the quality difference Δ between the e-cigarettes before and after puffing is calculated. Mi, and then calculate the average atomization amount Ci at the end of a single suction cycle;

where n equals the number of suction units;

Repeat the cycle n times to obtain a plurality of average atomization amounts Ci.

In the above method, preferably, the average atomization amount in the step is C=(C1+C2+C3+C4+...+Cn)/n.

The beneficial effects of the present invention are:

The average amount of atomization of different electronic cigarettes can be calculated, and then marked on the electronic cigarette, which is convenient for consumers to choose and improve the effect of smoking cessation.

Description of drawings

Fig. 1 is the schematic flow chart of embodiment 1 in the present invention;

Fig. 2 is the schematic flow chart of embodiment 2 in the present invention;

Detailed ways

The present invention will be described in detail below with reference to the accompanying drawings.

Embodiment 1: As shown in Figure 1, a method for detecting and labeling the amount of electronic cigarettes, the method is suitable for use when electronic cigarettes are weighed offline, and is characterized in that it includes the following steps:

(1) Set the parameters of the smoking machine; the parameters set by the smoking machine include the number of puffs A, A can be selected as 10 times, 15 times or 20 times as appropriate, and the puff interval time T, such as 2 seconds , 3 seconds or 4 seconds, the suction volume of each mouth is Xml, for example, X can be selected as 35, 40 or 45, etc., and the temperature S;

(2) Place the electronic cigarette on a precision electronic weighing device and weigh it to obtain M0;

(3) Install the electronic cigarette on the smoking machine and turn on the smoking machine;

(4) Record the number of puffs A in a puff unit, calculate the quality difference ΔMi of the electronic cigarette before and after a single puff unit, and then calculate the average atomization amount Ci at the end of a single puff cycle, where i=1 , 2, ... n, n is an integer;

where n equals the number of suction units;

The average atomization amount Ci = △Mi/A at the end of a single suction cycle;

The number of suction cycles n is generally not less than 20 times, but it can also be adjusted as needed;

(5) repeating step (4) and step (5), the number of repetitions is n times, and obtains a plurality of average atomization amounts Ci;

(6) Calculate the average atomization amount C at the end of all suction cycles;

Average atomization amount C=(C1+C2+C3+C4+...+Cn)/n;

(7) Mark the average value of atomization D on the electronic cigarette;

The marked unit of the atomization volume is (x±5%) mg/mouth, for example: the atomization volume is (5±0.25) mg/mouth.

Embodiment 2: As shown in Figure 2, a method for detecting and labeling the amount of electronic cigarettes, the method is suitable for use in online weighing of electronic cigarettes, and includes the following steps:

(1) Set the parameters of the smoking machine, and connect the smoking machine with the online monitor;

The parameters set by the smoking machine include the number of puffs A, A can be selected as 10 times, 15 times or 20 times as appropriate, and the puff interval time T, such as 2 seconds, 3 seconds or 4 seconds, each puff is puffed The amount Xml, for example, X can be selected as 35, 40 or 45, etc., and the temperature S;

(2) Place the electronic cigarette on the smoking machine, smoke the electronic cigarette and calculate the data by the online monitor;

The electronic cigarette performs n puff cycles, and performs A puffs in each puff cycle, and calculates the quality difference △Mi of the e-cigarette before and after puffing, and then calculates the average atomization amount Ci at the end of a single puff cycle;

where n equals the number of suction units;

Repeat the cycle for n times to obtain multiple average atomization amounts Ci, which are automatically calculated and output by the online monitor;

(3) After the suction is completed, data collection is carried out to obtain the average atomization volume C, which is automatically calculated and output by the online monitor;

C=(C1+C2+C3+C4+...+Cn)/n;

(4) Mark the average value D of the atomization volume on the electronic cigarette; the unit of the atomization volume is (x±5%) mg/mouth, for example: the atomization volume is (5±0.25) mg/mouth.

The above description of the disclosed embodiments enables any person skilled in the art to make or use the present invention. Various modifications to the embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. The detailed description and the part presented in an enlarged manner belong to the prior art, and are not described in detail here. Thus, the present invention is not intended to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and features disclosed herein.

Claims (4)

1. a detection and labeling method of the amount of electronic cigarette, the method is suitable for use when electronic cigarette off-line weighing, it is characterized in that, step is as follows: (1) Set the parameters of the smoking machine, and connect the smoking machine with the online monitor; (2) Weigh the quality of the electronic cigarette to obtain M0; (3) Install the electronic cigarette on the smoking machine and turn on the smoking machine; (4) Record the number of puffs A in a puff unit, calculate the quality difference ΔMi of the electronic cigarette before and after a single puff unit, and then calculate the average atomization amount Ci at the end of a single puff cycle, where i=1 , 2, ... n, n is an integer; where n is equal to the number of suctions of the suction unit; (5) repeating step (3) and step (4), the number of repetitions is n times, and obtains a plurality of average atomization amounts Ci; (6) Calculate the average atomization amount C at the end of all suction cycles; (7) Mark the average value D of the atomization volume on the electronic cigarette, and the labeling unit of the atomization volume is (x±5%) mg/mouth; The parameters set to the smoking machine in step (1) include the number of times of puffing A, the puffing interval time T, the amount of puffing X per mouth, and the temperature S; In step (4), the average atomization amount Ci=ΔMi/A at the end of a single suction cycle; In step (6), the average atomization amount C=(C1+C2+C3+C4+...+Cn)/n. 2 . The method for detecting and marking the amount of electronic cigarette smoke according to claim 1 , wherein, in step (4), n is not less than 20 times. 3 . 3. A detection and labeling method for the amount of electronic cigarettes, the method is suitable for use when electronic cigarettes are weighed online, it is characterized in that, the steps are as follows: (1) Set the parameters of the smoking machine; (2) Place the electronic cigarette on the smoking machine, smoke the electronic cigarette and calculate the data by the online monitor; (3) Data collection is carried out after the suction is completed, and the average atomization volume C is obtained; (4) Mark the average value D of the atomization amount on the electronic cigarette, and the unit of the atomization amount is (x ± 5%) mg/mouth; In the step (2), the electronic cigarette performs i puff cycles, and A puff cycle is performed in each puff cycle, and the quality difference ΔMi of the e-cigarette before and after puffing is calculated, and then a single puff cycle is calculated. The average atomization amount Ci at the end; where i is equal to 1, 2, . . . n, n is an integer, repeating n cycles to obtain multiple average atomization amounts Ci. 4 . The method for detecting and labeling the atomization amount of electronic cigarettes according to claim 3 , wherein the average atomization amount C=(C1+C2+C3+C4+...+Cn)/n in the step. 5 .

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