CN113804260A - Method for detecting cut tobacco quantity of cigarette end - Google Patents

Abstract

The invention relates to a method for detecting the cut quantity of cigarette ends, which comprises the following steps: preparing a plurality of finished cigarette sample products to be detected, uniformly dividing the finished cigarette sample products to be detected into 13 parts, wherein the number of each part is S, preparing a tester for measuring the cut-off quantity of the cigarette end part, preparing 13 sealed experimental boxes and respectively marking the sealed experimental boxes as C₁～C₁₃And the sealing experiment box is matched with a cigarette end cut-off tester for use. By adopting the detection method, the tobacco shred dropping amount of the single cigarette end under a plurality of temperature and humidity environments can be simulated and detected, and the tobacco shred dropping amount of each single cigarette end corresponds to a specific temperature and humidity value, so that the obtained tobacco shred dropping amount value of the single cigarette end is more targeted and more accurate; according to the detection result report, technicians can early warn about the exceeding of the tobacco shred dropping amount of the cigarette ends of the cigarettes in batches possibly occurring in the upcoming month of high temperature and high humidity, so that quality accidents are avoided.

Description

Method for detecting cut tobacco quantity of cigarette end

Technical Field

The invention belongs to the technical field of cigarette detection, and particularly relates to a method for detecting the cut tobacco quantity of cigarette ends.

Background

During the whole process of rolling, packaging, storing and transporting of cigarettes in cigarette manufacturing enterprises, a certain amount of cut tobacco of the cigarettes in the packaging box can drop more or less. The tobacco shreds of the cigarette are dropped, which not only influences the personal interests of consumers, but also loses the product quality image of cigarette production enterprises. Both the producer and the consumer are sensitive to the dropping of the cut tobacco from the end of the cigarette, especially to the resulting empty ends. Therefore, the cut tobacco quantity of the cigarette end is an important index for measuring the quality of cigarette products.

The existing detection method is to carry out single detection at room temperature under a conventional state, so that the obtained detection data is often larger than the actual cigarette production link. The wire falling amount data obtained after detection according to the existing detection method can obtain results with large differences when the data are reviewed at different times. For example, in Guangzhou, the cut tobacco amount of a certain cigarette product detected in the coldest winter season is 2.3 mg/count, and when the cigarette product is detected again in summer, the cut tobacco amount of the cigarette product under the same specification is 3.4 mg/count, the cut tobacco amount is increased by nearly 50%, and obviously, the influence of different temperatures and humidity on the cut tobacco amount is very large. Therefore, the cut tobacco quantity value obtained by the method for detecting the cut tobacco quantity of the cigarette end in the prior art is only a specific cut tobacco quantity value under the temperature and the humidity of the detection state, and cannot be used as a representative value of the cut tobacco quantity of the single cigarette end of a product delivered from a factory, if a manufacturer adjusts the production process and equipment according to the measured value, beneficial effects can be generated only at the moment of detection time, and if the time span is too long, even unqualified quality accidents of batch products can be generated. For example, the cut tobacco amount of the cigarette products with the same specification measured in winter is just in accordance with the national standard, so that the manufacturer keeps the existing production process without adjustment, and if the cigarette products with the same specification produced by the manufacturer are rechecked in summer, the cut tobacco amount of the cigarette products with the same specification produced by the manufacturer is definitely in an overproof state, so that the quality accidents that the batch products are unqualified are likely to be generated.

With respect to the above-described related art, there are the following drawbacks: the existing detection method for the tobacco shred dropping amount of the cigarette end has a single detection result, can not accurately reflect the tobacco shred dropping amount of the cigarette end under different temperature and humidity states, and can not meet the requirement of a manufacturer for timely adjusting a production process according to the tobacco shred dropping amount detection result of the cigarette end, so that improvement is needed.

Disclosure of Invention

The invention aims to provide a method for detecting the cut tobacco quantity of the cigarette end, which aims to solve the problems that the existing method for detecting the cut tobacco quantity of the cigarette end has single detection result and can not accurately reflect the cut tobacco quantity of the cigarette end under different temperature and humidity states.

In order to realize the purpose, the invention is realized by the following technical scheme:

a method for detecting the cut tobacco quantity of the cigarette end comprises the following steps:

step 1, preparing a cigarette sample to be detected, and averagely dividing the cigarette sample to be detected into 13 shares, wherein the quantity of each share is SPreparing a tester for measuring the cut-off quantity of the cigarette ends, preparing 13 sealed experimental boxes and respectively marking as C₁-C₁₃；

Step 2, inquiring the average temperature T of 1-12 months in one year on the production area of the cigarette to be detected₁～T₁₂And average humidity R₁～R₁₂Putting 12 cigarette samples to be detected prepared in the step 1 into the container C₁-C₁₂In a sealing experiment box, respectively adjusting C₁-C₁₂Sealing the temperature and humidity of the experimental box to the average temperature T of the area₁～T₁₂And average humidity R₁～R₁₂After the setting is finished, sealing the sealing experiment box;

step 3, putting the 13 th cigarette sample to be detected into the sample C₁₃Sealing in a test box, adding C₁₃The number sealing experimental box is placed on a cigarette end cut tobacco quantity tester, the cigarette end cut tobacco quantity tester is started, and the cut tobacco quantity m of the cigarette to be detected corresponding to the part is detected_s13And recording the temperature T during detection₁₃And humidity R₁₃；

Step 4, sequentially mixing C₁～C₁₂The sealing experiment box is placed on a cigarette end cut tobacco quantity tester, the cigarette end cut tobacco quantity tester is started, and the cut tobacco quantity m of the cigarette to be detected corresponding to the part is obtained through detection in sequence_s1～m_s12；

Step 5, calculating the cut tobacco quantity m of the single cigarette end of the 13 th cigarette sample to be detected₁₃，

Step 6, calculating the tobacco shred dropping amount m of a single cigarette end corresponding to 1-12 months respectively₁～m₁₂，

M is calculated in turn₁～m₁₂。

Further, the number S of the 13 cigarette samples to be detected in the step 1 is more than or equal to 20.

Furthermore, the sealing experiment box is matched with a cigarette end cut-off tester for use.

Furthermore, the sealing experiment box is a constant temperature and humidity experiment box.

Further, in the step 2, after the temperature and the humidity of the sealed experimental box are set, standing is carried out for at least 4 hours, and after the standing time is up, the step 4 is carried out.

Further, the step 7 also comprises the steps of calculating the average single cigarette end tobacco shred dropping amount m,

further, the method also comprises a step 8 of making a detection result report, and making the detection result report according to the calculation results of the steps 5 to 7.

The invention has the beneficial effects that:

the detection method can simulate and detect the tobacco shred dropping amount of the single cigarette end under a plurality of temperature and humidity environments, and the tobacco shred dropping amount of each single cigarette end corresponds to a specific temperature and humidity value, so that the obtained tobacco shred dropping amount value of the single cigarette end is more targeted and more accurate.

Technical staff can correspondingly adjust the production process according to the detection result, and the technical staff can adjust the production process by comparing the national standard value according to the tobacco rod end cut-off quantity value of the single cigarette corresponding to the production month according to the detection result report.

According to the detection result report, technicians can early warn about the exceeding of the tobacco shred dropping amount of the cigarette ends of the cigarettes in batches possibly occurring in the upcoming month of high temperature and high humidity, so that quality accidents are avoided.

Drawings

FIG. 1 is a schematic flow diagram of the process of the present invention.

FIG. 2 is a schematic view of the operating state of the cigarette end cut-off tester of the present invention.

FIG. 3 is a diagram illustrating a report of the test results of the present invention.

Description of the reference numerals

1. Detecting a cigarette sample to be detected; 2. a cigarette end cut-off amount tester; 3. and (5) sealing the experimental box.

Detailed Description

The technical solutions of the present invention are described in detail below by examples, and the following examples are only exemplary and can be used only for explaining and explaining the technical solutions of the present invention, but not construed as limiting the technical solutions of the present invention.

The present application is described in detail below with reference to fig. 1 to 3.

The application provides a method for detecting the cut tobacco quantity of cigarette ends, which comprises the following steps:

step 1, preparing a plurality of cigarette samples 1 to be detected, uniformly dividing the cigarette samples 1 into 13 parts, wherein each part is S, preparing a cigarette end cut-off quantity tester 2, preparing 13 sealed experimental boxes 3 and respectively marking as C₁～C₁₃And sealed experimental box 3 uses with cigarette end silk content tester 2 is supporting, and sealed experimental box 3 adopts constant temperature and humidity test box, 3 internal environment of sealed experimental box of adjustment that can be more accurate convenient, and the humiture environment of better simulation settlement guarantees that follow-up detected value can be more accurate.

The number S of the 13 cigarette samples to be detected is more than or equal to 20, at least 20 cigarette samples to be detected in a single cigarette sample are ensured, and the representativeness of the detection samples is ensured.

The sealing experiment box is matched with the cigarette end cut-off tester for use, and the external structures of the sealing experiment box and a standard experiment box body matched with the cigarette end cut-off tester are consistent, so that smooth detection is ensured.

The sealed experimental box that this application used is constant temperature and humidity test box, and the sealed experimental box internal environment of adjustment that can be more accurate convenient, the humiture environment that better simulation was set for guarantees that follow-up detected value can be more accurate.

Step 2, inquiring the average temperature T of the cigarette sample to be tested in the 1-12 months of the year in the production area₁～T₁₂And average humidity R₁～R₁₂Respectively subjecting the steps to1, 12 finished cigarette products to be detected in 13 cigarette samples to be detected prepared in the step C₁～C₁₂In the sealing experiment box 3, C is respectively adjusted₁～C₁₂No. 3 sealing the temperature and humidity of the experimental box, so that the temperature and humidity are set and the average temperature T of the area in the last year obtained by query₁～T₁₂And average humidity R₁～R₁₂And after the setting is finished, sealing the sealing experimental box 3.

And (4) standing for at least 4 hours after the temperature and the humidity of the sealed experimental box are set, and performing subsequent steps after the standing time is up. Standing for 4 hr, detecting to ensure C₁～C₁₂The environment around the cigarette sample to be detected in the number sealing experiment box can be as close as possible to set up the humiture, guarantees the accuracy of survey result.

Step 3, filling 13 th cigarette sample 1 to be detected into the container C₁₃Sealing in a test box 3, and then sealing C₁₃The number sealing experimental box 3 is loaded on the cigarette end cut tobacco quantity tester 2, the cigarette end cut tobacco quantity tester 2 is started, and the cut tobacco quantity m of the corresponding to-be-detected cigarette is obtained through detection_s13And recording the temperature T during detection₁₃And humidity R₁₃. The specific detection method described above is the same as the prior art and is not improved, and therefore, will not be described in detail.

Step 4, sequentially mixing C₁～C₁₂The number sealing experimental box 3 is loaded on the cigarette end cut tobacco quantity tester 2, the cigarette end cut tobacco quantity tester 2 is started, and the cut tobacco quantity m of the corresponding to the to-be-detected cigarette is obtained through detection in sequence_s1～m_s12。

Step 5, calculating the cut tobacco quantity m of the single cigarette end of the 13 th to-be-detected cigarette sample 1₁₃，

Step 6, calculating the tobacco shred dropping amount m of a single cigarette end corresponding to 1-12 months respectively₁～m₁₂，

M is calculated in turn₁～m₁₂。

The average single cigarette end cut tobacco quantity m can also be calculated,

the average single cigarette end tobacco shred dropping amount m can be calculated by using a formula, and the value of m can represent the average cigarette end tobacco shred dropping amount of the batch of to-be-detected cigarette samples.

And making a detection result report according to the calculation results of the step 5, the step 6 and the step 7. A detection result report is made according to the detection calculation result, the whole detection result can be reflected more visually, and technicians can adjust the production process more conveniently according to the detection result report.

The detection result report comprises the tobacco end cut-off amount m of a single cigarette₁～m₁₃And average single cigarette end tobacco shred dropping amount m, wherein the single cigarette end tobacco shred dropping amount m₁～m₁₃Corresponding marked temperature T₁～T₁₃And humidity R₁～R₁₃。

The technician refers to the labeled temperature T of the corresponding month in the detection result report according to the month in which the production is performed₁～T₁₃And humidity R₁～R₁₃The cut tobacco quantity of the end of the corresponding single cigarette is accurately adjusted.

The tester uses the cigarette end cut tobacco quantity tester 2 to test the total cut tobacco quantity m of 13 cigarette samples_s1～m_s13And calculating the corresponding tobacco shred dropping amount m of the single cigarette end according to the detection result₁～m₁₃Wherein m is₁～m₁₂The method comprises the step of corresponding the tobacco end cut tobacco quantity value m of a single cigarette to be detected in the average temperature and humidity simulation environment of 1-12 months of a cigarette production place to be detected_s13Representative detection current temperature and humidity modelThe tobacco shred dropping amount value of the cigarette end of a single cigarette in the simulated environment can be correspondingly adjusted in the corresponding month by a manufacturer according to the tobacco shred dropping amount value in the corresponding month in the detection result, so that the batch quality problem is avoided, and the extra production cost caused by the adjustment of the production process is reduced as much as possible.

Examples

Preparing 260 cigarette samples to be detected 1, uniformly dividing into 13 parts, each part being 20, preparing a cigarette end cut-off tester 2, preparing 13 constant-temperature and constant-humidity test boxes and respectively marking as C₁～C₁₃；

The average temperature T of the cigarette to be detected in 1-12 months in one year on the production area is obtained through query₁～T₁₂And average humidity R₁～R₁₂Respectively filling 12 parts of the finished products of the cigarettes to be detected into the C₁～C₁₂In the constant temperature and humidity test chamber, respectively adjusting C₁～C₁₂The temperature and the humidity of the constant temperature and humidity test box are set according to the temperature and the humidity and the average temperature T of the area in the last year obtained by query₁～T₁₂And average humidity R₁～R₁₂And (4) the temperature and humidity constant test box is sealed after the setting is finished, and the standing is carried out for 4 hours to ensure that the temperature and humidity constant test box C₁～C₁₂The environment around the cigarette sample 1 to be detected in the constant temperature and humidity test box can be as close as possible to the set temperature and humidity;

filling 13 th cigarette sample 1 to be detected into the container C₁₃In the constant temperature and humidity test chamber, the C is put₁₃The constant temperature and humidity test box is loaded on the cigarette end cut tobacco quantity tester 2, the cigarette end cut tobacco quantity tester 2 is started, and the cut tobacco quantity m of the corresponding to-be-detected cigarette is obtained through detection_s13And recording the temperature T during detection₁₃And humidity R₁₃；

Then sequentially adding C₁～C₁₂The constant temperature and humidity test box is loaded on a cigarette end cut tobacco quantity tester 2 and respectively detects to obtain the cut tobacco quantity m of the corresponding to-be-detected cigarette_s1～m_s12；

After the detection is finished, calculating the 13 th roll to be detectedThe tobacco rod end cut amount m13 of the single cigarette rod sample 1,

respectively calculating the tobacco shred dropping amount m of a single cigarette end corresponding to 1-12 months₁～m₁₂，

M is calculated in turn₁～m₁₂；

Calculating the average tobacco shred dropping amount m of the single cigarette end,

and after the detection calculation is finished, making a detection result report according to the detection calculation result and referring to the figure 3. Thus completing the detection of the tobacco shred dropping amount of the cigarette end.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A method for detecting the cut tobacco quantity of the cigarette end is characterized by comprising the following steps:

step 1, preparing a cigarette sample to be detected, averagely dividing the cigarette sample to be detected into 13 parts, wherein the number of each part is S, preparing a cigarette end cut-off tester, and preparing 13 sealed experimental boxes which are respectively marked as C₁-C₁₃；

Step 2, inquiring the average temperature T of 1-12 months in one year on the production area of the cigarette to be detected₁～T₁₂And average humidity R₁～R₁₂Putting 12 cigarette samples to be detected prepared in the step 1 into the container C₁-C₁₂In a sealing experiment box, respectively adjusting C₁-C₁₂Temperature of sealing experimental boxDegree and humidity of the temperature and humidity of the area to make the temperature and humidity of the area equal to the average temperature T of the area₁～T₁₂And average humidity R₁～R₁₂After the setting is finished, sealing the sealing experiment box;

step 3, putting the 13 th cigarette sample to be detected into the sample C₁₃Sealing in a test box, adding C₁₃The number sealing experimental box is placed on a cigarette end cut tobacco quantity tester, the cigarette end cut tobacco quantity tester is started, and the cut tobacco quantity m of the cigarette to be detected corresponding to the part is detected_s13And recording the temperature T during detection₁₃And humidity R₁₃；

Step 4, sequentially mixing C₁～C₁₂The sealing experiment box is placed on a cigarette end cut tobacco quantity tester, the cigarette end cut tobacco quantity tester is started, and the cut tobacco quantity m of the cigarette to be detected corresponding to the part is obtained through detection in sequence_s1～m_s12；

Step 5, calculating the cut tobacco quantity m of the single cigarette end of the 13 th cigarette sample to be detected₁₃，

Step 6, calculating the tobacco shred dropping amount m of a single cigarette end corresponding to 1-12 months respectively₁～m₁₂，

M is calculated in turn₁～m₁₂。

2. The method for detecting the cut tobacco amount of the cigarette end according to claim 1, wherein the number S of 13 cigarette samples to be detected in step 1 is not less than 20.

3. The method for detecting the cut tobacco amount at the cigarette end according to claim 2, wherein the sealing test box is used in cooperation with a cigarette end cut tobacco amount tester.

4. The method for detecting the amount of cut thread falling from an end of a cigarette according to claim 1, wherein the sealing test box is a constant temperature and humidity test box.

5. The method according to claim 1, wherein in step 2, the temperature and humidity of the sealing experimental box are set and then the sealing experimental box is allowed to stand for at least 4 hours, and step 4 is performed after the standing time is up.

6. The method for detecting the tobacco rod end loss amount according to claim 1, further comprising step 7 of calculating an average single cigarette end loss amount m,

7. the method for detecting the cut tobacco amount of cigarette ends according to claim 6, further comprising a step 8 of making a report of detection results, wherein the report of detection results is made according to the calculation results of the steps 5 to 7.

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