CN108663450A - The detection device and detection method of a kind of colorant migration amount for extraordinary filter tip - Google Patents

Abstract

The invention relates to a detection device and a detection method for the colorant migration amount of a special filter tip, belonging to the technical field of physical and chemical inspection of cigarette auxiliary materials. The device includes an air inlet, an air heating chamber, a ten-way valve, a filter holder, a smoke trap and a smoking machine; the ten-way valve includes a plurality of rotatable air communication ports, a fixed air communication port and a numerical control turntable ; The number of rotatable air communication ports is the same as the number of air heating chambers; each rotatable air communication port is connected to one end of an air heating chamber, and the other end of each air heating chamber is connected to the air inlet; The numerical control turntable is used to control whether each rotatable air communication port and the fixed air communication port are connected or not; the fixed air communication port, the filter holder, the smoke trap and the smoking machine are sequentially connected. The invention has simple structure, convenient operation, reduces the influence of complex smoke, and can be used as a new analysis technology and method for colorant migration of special filters.

Description

A detection device and detection method for colorant migration of special filters

technical field

The invention belongs to the technical field of physical and chemical testing of cigarette auxiliary materials, and in particular relates to a detection device for colorant migration of special filters. At the same time, the invention also relates to a detection method using the detection device.

Background technique

With the international call for smoking ban and cigarette consumers' increasing concern for their own health, low-tar and low-hazard cigarettes will become the mainstream of cigarettes in the future, but the reduction of harm and coke will inevitably be accompanied by the loss of cigarette aroma and poor comfort. Cigarette flavoring and adding materials can set off and supplement the aroma of cigarettes, increase the concentration of smoke, improve taste, remove and cover up miscellaneous gases, reduce irritation, and can also give products a beautiful characteristic fragrance, highlighting the personalized style of cigarette products, cigarette flavoring The development and application of additives is becoming one of the most critical technologies for maintaining the taste of cigarettes in the work of harm reduction and coke reduction. Filter flavoring is an important way of flavoring. Adding flavors and fragrances directly to cigarette filters has the following advantages: first, it can avoid the loss and pyrolysis of flavors during cigarette storage and smoking; second, it can avoid the loss of flavors during cigarette static burning; third, it can reduce tobacco and filter. Wait for the retention of spices to increase the transfer efficiency; 4. A variety of flavoring methods can be used.

At present, the commonly used special filters include multi-component composite filter, pop-bead filter, fragrant filter, flavored thread filter, granular filter, formed paper flavored filter, triacetin flavored filter, etc. During the use of special filter rods, due to the migration of colorants added in the material preparation process, safety risk substances such as colorants may be produced.

Synthetic colorants are widely used in the field of food. my country's national standard stipulates that nine water-soluble synthetic colorants can be used in food, namely carmine red, miraculous red, new red, allure red, lemon yellow, sunset yellow, Indigo, Brilliant Blue, New Red. However, its abuse and excessive use will pose a potential threat to human health, so countries have corresponding regulations to limit the use of synthetic colorants.

At present, the test method for the migration of special filter ingredients into cigarette smoke usually uses a smoking machine to suck cigarettes, and then capture the smoke components for analysis. Due to the very complex background produced when the cigarette is burned, it will seriously interfere with the determination of the migration components of the special filter. The determination of its components is very difficult, and the error of the analysis results is also very large. How to truly and accurately analyze and detect the safety components of special filters has become the focus of tobacco analysis research.

Contents of the invention

The object of the present invention is to provide a detection device and detection method for colorant migration of special filters in order to solve the deficiencies of the prior art. The invention has simple structure, convenient operation, reduces the influence of complex smoke, and can be used as a new analysis technology and method for the colorant migration of special filters.

To achieve the above object, the technical scheme adopted in the present invention is as follows:

A detection device for colorant migration of special filters, comprising:

Air inlet, air heating chamber, ten-way valve, filter holder, smoke trap and smoking machine;

There are multiple air heating chambers;

The ten-way valve includes a plurality of rotatable air communication ports, a fixed air communication port and a numerical control turntable, wherein the number of rotatable air communication ports is the same as the number of air heating chambers;

Each rotatable air communication port is connected to one end of an air heating cavity through a heat-insulating pipeline, and the other end of each air heating cavity is connected to an air inlet through a heat-insulating pipeline;

The numerical control turntable is used to control whether each rotatable air communication port and the fixed air communication port are connected or not;

The inlet end of the filter holder is connected to the fixed air communication port through a heat-insulating pipe, and the suction end of the filter holder is connected to the gas inlet end of the smoke trap through a heat-insulation pipe; The gas outlet end of the smoke trap is connected with the gas inlet end of the smoking machine through a heat insulation pipe.

Further, preferably, there are 10 air heating chambers.

Further, preferably, the heating temperature range of the air heating chamber is 30-200°C.

Further, preferably, the trapping method of the smoke trap is Cambridge filter trapping, cold trap trapping, absorption liquid trapping or simulated artificial saliva trapping.

Further, preferably, the heat-insulated pipe is a metal or glass heat-insulated pipe.

Further, preferably, the filter holder is a circumferentially adjustable filter holder.

A method for detecting the amount of colorant migration of special filters, using any of the above detection devices for colorant migration of special filters, including the following steps:

Step (1), insert the temperature measuring probe into the cigarette with special flavoring filter at the far lip end of the special flavoring filter, smoke it on an ordinary smoking machine, and measure the temperature of each puff through the temperature measuring probe The temperature of the flue gas at the starting point of feeding through the far lip end of the special filter tip at that time, and the number of puffs of the whole cigarette is obtained;

Step (2), according to the suction temperature and the number of suction ports measured in step (1), set the detection device for the migration of phthalates and tributyl phosphate used in special filters, set Air temperature and number of suction ports in each air heating chamber;

Step (3), remove the special filter from the cigarette containing the special filter, install it on the filter rod holder, start the smoking machine to smoke according to the ISO suction mode, and when you take the first puff, pass The special filter is the hot air in the first air heating chamber; then switch through the ten-way valve, and the hot air in the second air heating chamber is passed through the special filter when sucking the second port, and so on. Switch in turn according to the number of suction ports;

In step (4), the Cambridge filter is used for capture, and the captured Cambridge filter is extracted with a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra- High performance liquid chromatography for analysis;

The chromatographic conditions are: Geminni C18 column (inner diameter×length=4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C , the injection volume is 10 μL; the gradient elution procedure: 0-3min elution with acetonitrile, 3min later with a volume ratio of 1:2:1 acetonitrile-methanol-0.02mol/L ammonium acetate mixed solution elution.

Further, it is preferred that the coloring agent includes carmine, ravenous red, new red, allura red, lemon yellow, sunset yellow, indigo, brilliant blue and new red.

The present invention has no limitation on the specific detection means used when cold trap capture, absorption liquid capture or simulated artificial saliva capture is used.

Those skilled in the art should know that the air heating chamber in the present invention contains heating components, which may be electronic heating components, but not limited thereto; the air heating chamber can precisely control the temperature and quickly heat the air in the chamber to a specified temperature. And the temperature of the air heating chamber can be independently controlled, but not limited thereto, for example, multiple air heating chambers are centrally controlled by a controller.

The numerical control turntable in the present invention can be automatically rotated and switched, and is consistent with the cigarette smoking process of the smoking machine, that is, when the first mouth is sucked, the first rotatable air communication port communicates with the fixed communication port; When switching to the second rotatable air communication port and the fixed communication port; and so on, when the tenth port is drawn, the tenth rotatable air communication port communicates with the fixed communication port;

The rotatable air communication ports described in the present invention are respectively connected with the corresponding air heating chambers through heat-insulating pipes, that is, the first rotatable air communication port is connected with the first air heating chamber, and the second rotatable The air communication port of the first air connection is connected with the second air heating chamber, and so on, and the tenth rotatable air communication port is connected with the tenth air heating chamber.

The circumference of the filter holder of the present invention is adjustable, by adjusting the size of the circumference that can hold the filter to meet all the circumference specifications of commercially available cigarettes;

When the invention detects, the digital control rotary table is used to switch, so that the temperature of the airflow through the filter tip is consistent with the airflow temperature when the cigarette smoking machine actually smokes. The air flow through the filter simulates the smoke flow when smoking a cigarette, and elutes the components in the special filter.

Compared with the prior art, the present invention has the beneficial effects of:

The device of the invention can be used for the detection of the migration amount of the colorant of the special filter tip, and eliminates background interference of complex smoke components generated in the actual cigarette burning process because the purified air flow is used for elution. The determination of the colorant becomes very easy, and it can be directly analyzed by simple solvent extraction; it avoids the complicated sample purification and enrichment operations in the analysis and detection of conventional special filter components to the smoke migration. As complex background interferences are avoided, the precision and accuracy of assay results are significantly improved. The invention has simple structure, convenient operation, reduces the influence of complex smoke, and can be used as a new analysis technology and method for the colorant migration of special filters.

Description of drawings

Fig. 1 is the detection device and the detection method that the present invention is used for the migration amount of the coloring agent of special filter;

Among them, I is a ten-way valve; II is a filter holder; III is a smoke trap; IV is a smoking machine; V is an air inlet; 1 is the first rotatable air connection port; 1' is the second One air heating cavity; 2 is the second rotatable air communication port; 2' is the second air heating cavity; 3 is the third rotatable air communication port; 3' is the third air heating cavity; 4 is the fourth rotatable air communication port; 4' is the fourth air heating cavity; 5 is the fifth rotatable air communication port, 5' is the fifth air heating cavity; 6 is the sixth rotatable Rotating air connection port; 6' is the sixth air heating chamber; 7 is the seventh rotatable air connection port, 7' is the seventh air heating chamber; 8 is the eighth rotatable air communication port; 8' is the eighth air heating cavity; 9 is the ninth rotatable air connection port; 9' is the ninth air heating cavity; 10 is the tenth rotatable air connection port, and 10' is the tenth Air heating cavity; a is the fixed air connection port; b is the CNC turntable; the dotted line is the schematic diagram when the CNC turntable is switched.

Detailed ways

The present invention will be further described in detail below in conjunction with the examples.

Those skilled in the art will understand that the following examples are only for illustrating the present invention and should not be considered as limiting the scope of the present invention. If no specific technique or condition is indicated in the examples, it shall be carried out according to the technique or condition described in the literature in this field or according to the product specification. The materials or equipment used are not indicated by the manufacturer, and they are all conventional products that can be obtained through purchase.

In the description of the present invention, it should be noted that unless otherwise specified and limited, the terms "connected" and "connected" should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral Ground connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediary, and it can be the internal communication of two components. Those of ordinary skill in the art can understand the specific meanings of the above terms in the present invention in specific situations.

In addition, in the description of the invention, unless otherwise specified, "plurality" means two or more.

As shown in Figure 1, a detection device for colorant migration of special filters includes:

Air inlet Ⅴ, air heating chamber (1’~10’), ten-way valve I, filter holder II, smoke trap III and smoking machine IV;

There are multiple air heating chambers, preferably 10, namely the first air heating chamber 1', the second air heating chamber 2', the third air heating chamber 3', ..., the tenth air heating chamber Heating chamber 10'; preferably, the heating temperature range of the air heating chamber is 30-200°C;

The ten-way valve I includes a plurality of rotatable air communication ports (1~10), a fixed air communication port a and a numerically controlled turntable b, wherein the number of rotatable air communication ports (1~10) is the same as that of the air The number of heating chambers (1'~10') is the same, preferably 10;

The rotatable air communication ports (1~10) are the first rotatable air communication port 1, the second rotatable air communication port 2, the third rotatable air communication port 3, ..., the first Ten rotatable air communication ports 10 .

Each rotatable air communication port is connected to one end of an air heating chamber through a heat-insulating pipe, that is, the first rotatable air communication port 1 is connected to one end of the first air heating chamber 1' through a heat-insulating pipe, The second rotatable air communication port 2 is connected to one end of the second air heating chamber 2' through a thermal insulation pipe, ..., the tenth rotatable air communication port 10 is connected to one end of the tenth air heating chamber 10' connected by insulated pipes.

And the other end of each air heating cavity (1'~10') is connected to the air inlet a through a thermal insulation pipe;

The numerical control turntable b is used to control whether each rotatable air communication port (1-10) is connected to the fixed air communication port a;

The inlet end of the filter holder II is connected to the fixed air communication port a through a heat-insulating pipe, and the suction end of the filter holder II is connected to the gas inlet end of the smoke trap III through a heat-insulated The pipes are connected; the gas outlet end of the smoke trap III is connected with the gas inlet end of the smoking machine IV through a thermal insulation pipe.

Wherein, there are many trapping methods of the smoke trap III, which can be trapping by Cambridge filter, trapping by cold trap, trapping by absorbing liquid or trapping by simulated artificial saliva.

Preferably, the heat-insulated pipeline is a metal or glass heat-insulated pipeline.

Preferably, the filter holder is a circumferentially adjustable filter holder.

At present, the commonly used special filters include multi-component composite filter, granular filter, fragrant filter, flavored thread filter, pop-bead filter, triacetin flavored filter, and formed paper flavored filter. The coloring agent migration of above-mentioned seven kinds of special filters is detected by embodiment 1-7, specifically as follows:

Example 1

Insert the temperature-measuring probe into the cigarette with the A-brand flavored compound filter at the starting point of the far lip end of the special filter, smoke it on an ordinary smoking machine, and use the temperature-measuring probe to measure the temperature passing through the far end of each puff. The temperature of the smoke at the starting point of lip filling, and the number of puffs of the whole cigarette is obtained;

According to the measured suction temperature and the number of suction ports, the detection device for the migration of phthalates and tributyl phosphate used in special filters is set, and the air temperature and temperature in each air heating chamber are set. The number of suction ports; the temperature settings are as follows: the first heating chamber 1' (the first port 36.5°C), the second heating chamber 2' (the second port 37.9°C), the third heating chamber 3' (the third port 41.2°C), the fourth heating chamber 4' (fourth port 43.8°C), the fifth heating chamber 5' (fifth port 45.1°C), the sixth heating chamber 6' (sixth port 46.7°C), the fifth Seven heating chambers 7' (7th port 48.4°C), eighth heating chamber 8' (eighth port 50.3°C). There are 8 suction ports in total.

Remove the filter tip of the brand A flavored compound filter cigarette from the cigarette, install it on the filter rod holder, start the smoking machine and smoke according to the ISO suction mode, and when you take the first puff, pass through the special filter tip The first air heats the hot air in the chamber; then switches through the ten-way valve, and the second air passes through the special filter to heat the hot air in the second air when sucking the second port, and so on, according to the suction The number of mouths is switched in turn; the air flow through the filter simulates the smoke flow when smoking a cigarette, and elutes the flavoring compound filter components;

The Cambridge filter is used for capture, and the captured Cambridge filter is extracted with a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra-high performance liquid chromatography. analyze;

The chromatographic conditions are: Geminni C18 column (4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C, injection volume 10 μL; the described gradient elution procedure: 0-3min for elution with acetonitrile, and 3min later for elution with a mixed solution of acetonitrile-methanol-0.02mol/L ammonium acetate solution in a volume ratio of 1:2:1.

The analysis results are shown in Table 1.

Example 2

Insert a temperature-measuring probe into the starting part of the far lip of the filter with granular material filter on the B brand cigarette, smoke it on an ordinary smoking machine, and use the temperature-measuring probe to measure the passing time of each puff. The temperature of the smoke at the starting point of the particulate material and obtain the number of puffs in the whole cigarette;

According to the measured suction temperature and the number of suction ports, the detection device for the migration of phthalates and tributyl phosphate used in special filters is set, and the air temperature and temperature in each air heating chamber are set. The number of suction ports; the temperature settings are as follows: the first heating chamber 1' (the first port 35.4°C), the second heating chamber 2' (the second port 36.5°C), the third heating chamber 3' (the third port 40.1°C), the fourth heating chamber 4' (fourth port 41.5°C), the fifth heating chamber 5' (fifth port 43.6°C), the sixth heating chamber 6' (sixth port 45.2°C), the fifth Seven heating chambers 7' (7th port 47.1°C). There are 7 suction ports in total.

Remove the filter tip of the brand B cigarette containing particulate material filter tip from the cigarette, install it on the filter rod holder, start the smoking machine to smoke according to the ISO suction mode, and pass through the special filter tip when taking the first puff The first air heats the hot air in the chamber; then switches through the ten-way valve, and the second air passes through the special filter to heat the hot air in the second air when sucking the second port, and so on, according to the suction The number of mouths is switched in turn; the air flow through the filter is to simulate the smoke flow when the cigarette is smoked, and the particulate material components are eluted.

The Cambridge filter is used for capture, and the captured Cambridge filter is extracted with a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra-high performance liquid chromatography. analyze;

The chromatographic conditions are: Geminni C18 column (4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C, injection volume 10 μL; the described gradient elution procedure: 0-3min for elution with acetonitrile, and 3min later for elution with a mixed solution of acetonitrile-methanol-0.02mol/L ammonium acetate solution in a volume ratio of 1:2:1.

The analysis results are shown in Table 1.

Example 3

Insert the temperature-measuring probe into the starting part of the filter tip with the flavor slice at the far lip end of the filter, and smoke it on an ordinary smoking machine, and use the temperature-measuring probe to measure the amount of smoke that passes through the slice during each puff. The temperature of the gas, and the number of puffs of the whole cigarette;

According to the measured suction temperature and the number of suction ports, the detection device for the migration of phthalates and tributyl phosphate used in special filters is set, and the air temperature and temperature in each air heating chamber are set. The number of suction ports; the temperature settings are as follows: the first heating chamber 1' (the first port 36.5°C), the second heating chamber 2' (the second port 37.9°C), the third heating chamber 3' (the third port 41.2°C), the fourth heating chamber 4' (fourth port 43.8°C), the fifth heating chamber 5' (fifth port 45.1°C), the sixth heating chamber 6' (sixth port 46.7°C), the fifth Seven heating chambers 7' (7th port 48.4°C), eighth heating chamber 8' (eighth port 50.3°C). There are 8 suction ports in total.

Remove the filter tip of the brand C cigarette with flavored filter tip from the cigarette, install it on the filter rod holder, start the smoking machine and smoke according to the ISO suction mode. The first air heats the hot air in the cavity; then switches through the ten-way valve, and the hot air in the second air heats the second air through the special filter when sucking the second port, and so on, according to the number of suction ports switch. The air flow through the filter simulates the smoke flow when smoking a cigarette, and elutes the ingredients of the flavor sheet.

The Cambridge filter is used for capture, and the captured Cambridge filter is extracted with a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra-high performance liquid chromatography. analyze;

The chromatographic conditions are: Geminni C18 column (4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C, injection volume 10 μL; the described gradient elution procedure: 0-3min for elution with acetonitrile, and 3min later for elution with a mixed solution of acetonitrile-methanol-0.02mol/L ammonium acetate solution in a volume ratio of 1:2:1.

The analysis results are shown in Table 1.

Example 4

Insert the temperature-measuring probe into the starting part of the filter tip with the flavor thread on the far lip of the filter, and smoke it on an ordinary smoking machine, and use the temperature-measuring probe to measure the amount of flavor passing through each puff. The temperature of the smoke at the line, and the number of puffs of the whole cigarette;

According to the measured suction temperature and the number of suction ports, the detection device for the migration of phthalates and tributyl phosphate used in special filters is set, and the air temperature and temperature in each air heating chamber are set. The number of suction ports; the temperature settings are as follows: the first heating chamber 1' (the first port 36.5°C), the second heating chamber 2' (the second port 37.9°C), the third heating chamber 3' (the third port 41.2 ℃), the fourth heating chamber 4' (fourth port 43.8 ℃), the fifth heating chamber 5' (fifth port 45.1 ℃), the sixth heating chamber 6' (sixth port 46.7 ℃), the Seven heating chambers 7' (7th port 48.4°C), eighth heating chamber 8' (eighth port 50.3°C). There are 8 suction ports in total.

Remove the filter tip of the grade D flavored line filter cigarette from the cigarette, install it on the filter rod holder, start the smoking machine and smoke according to the ISO suction mode. The hot air in the chamber is heated for the first air; then switch through the ten-way valve, and the hot air in the chamber is heated by the special filter when sucking the second port, and so on, according to the number of suction ports Switch in turn. The air flow through the filter simulates the smoke flow when smoking a cigarette, and elutes the fragrance line components.

The Cambridge filter is used for trapping, and the captured Cambridge filter is extracted with 300mL of a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra-high performance liquid chromatography to analyze;

The chromatographic conditions are: Geminni C18 column (4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C, injection volume 10 μL; the described gradient elution procedure: 0-3min for elution with acetonitrile, and 3min later for elution with a mixed solution of acetonitrile-methanol-0.02mol/L ammonium acetate solution in a volume ratio of 1:2:1.

The analysis results are shown in Table 1.

Example 5

First insert the temperature-measuring probe into the part of the far lip of the filter where the bead is installed, and smoke it on an ordinary smoking machine, and use the temperature-measuring probe to measure the smoke that passes through the bead during each puff. The temperature of the gas, and the number of puffs of the whole cigarette;

According to the measured suction temperature and the number of suction ports, the detection device for the migration of phthalates and tributyl phosphate used in special filters is set, and the air temperature and temperature in each air heating chamber are set. The number of suction ports; the temperature settings are as follows: the first heating chamber 1' (the first port 35.4°C), the second heating chamber 2' (the second port 36.5°C), the third heating chamber 3' (the third port 40.1°C), the fourth heating chamber 4' (fourth port 41.5°C), the fifth heating chamber 5' (fifth port 43.6°C), the sixth heating chamber 6' (sixth port 45.2°C), the fifth Seven heating chambers 7' (7th port 47.1°C). There are 7 suction ports in total.

Remove the filter tip of brand E explosive bead filter cigarette from the cigarette, install it on the filter rod holder, start the smoking machine and smoke according to the ISO suction mode. The first air heats the hot air in the cavity; then switches through the ten-way valve, and the hot air in the second air heats the second air through the special filter when sucking the second port, and so on, according to the number of suction ports Switching; the air flow through the filter simulates the smoke flow when the cigarette is smoked, and the added ingredients in the popping beads are eluted.

The Cambridge filter is used for trapping, and the captured Cambridge filter is extracted with 300mL of a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra-high performance liquid chromatography to analyze;

The chromatographic conditions are: Geminni C18 column (4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C, injection volume 10 μL; the described gradient elution procedure: 0-3min for elution with acetonitrile, and 3min later for elution with a mixed solution of acetonitrile-methanol-0.02mol/L ammonium acetate solution in a volume ratio of 1:2:1.

The analysis results are shown in Table 1.

Example 6

Insert the temperature measuring probe into the F brand triacetin flavored filter cigarette at the beginning of the far lip of the filter, smoke it on an ordinary smoking machine, and use the temperature measuring probe to measure the temperature at the beginning of each puff through the filter. The temperature of the smoke at the site and determine the number of puffs for the whole cigarette.

According to the measured suction temperature and the number of suction ports, the detection device for the migration of phthalates and tributyl phosphate used in special filters is set, and the air temperature and temperature in each air heating chamber are set. The number of suction ports; the temperature settings are as follows: the first heating chamber 1' (the first port 35.4°C), the second heating chamber 2' (the second port 36.5°C), the third heating chamber 3' (the third port 40.1°C), the fourth heating chamber 4' (fourth port 41.5°C), the fifth heating chamber 5' (fifth port 43.6°C), the sixth heating chamber 6' (sixth port 45.2°C), the fifth Seven heating chambers 7' (7th port 47.1°C). There are 7 suction ports in total.

Remove the filter tip of the brand F triacetin flavored filter cigarette from the cigarette, install it on the filter rod holder, start the smoking machine to smoke according to the ISO suction mode, and when taking the first puff, pass through the special The filter is the hot air in the first air heating chamber; then switch through the ten-way valve, and when the second port is sucked, the hot air in the second air heating chamber is passed through the special filter, and so on, according to The number of suction ports is switched sequentially; the air flow through the filter is similar to the smoke flow when smoking a cigarette, and the aromatized triacetin component is eluted.

The Cambridge filter is used for trapping, and the captured Cambridge filter is extracted with 300mL of a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra-high performance liquid chromatography to analyze;

The chromatographic conditions are: Geminni C18 column (4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C, injection volume 10 μL; the described gradient elution procedure: 0-3min for elution with acetonitrile, and 3min later for elution with a mixed solution of acetonitrile-methanol-0.02mol/L ammonium acetate solution in a volume ratio of 1:2:1.

The analysis results are shown in Table 1.

Example 7

Insert a temperature measuring probe into a cigarette with a G-brand forming paper flavored filter at the beginning of the far lip of the filter where the forming paper is installed, smoke it on an ordinary smoking machine, and use the temperature measuring probe to measure the puffing time of each puff. The temperature of the smoke passing through the starting part of the forming paper, and the number of puffs of the whole cigarette is obtained;

According to the measured suction temperature and the number of suction ports, the detection device for the migration of phthalates and tributyl phosphate used in special filters is set, and the air temperature and temperature in each air heating chamber are set. The number of suction ports; the temperature settings are as follows: the first heating chamber 1' (the first port 35.4°C), the second heating chamber 2' (the second port 36.5°C), the third heating chamber 3' (the third port 40.1°C), the fourth heating chamber 4' (fourth port 41.5°C), the fifth heating chamber 5' (fifth port 43.6°C), the sixth heating chamber 6' (sixth port 45.2°C), the fifth Seven heating chambers 7' (7th port 47.1°C). There are 7 suction ports in total.

Remove the filter tip of the brand G shaped paper flavored filter cigarette from the cigarette, install it on the filter rod holder, start the smoking machine and smoke according to the ISO suction mode. The hot air in the first air heating chamber is heated by the mouth; then it is switched through the ten-way valve, and the hot air in the second air is heated by the special filter when sucking the second mouth, and so on, according to the pumping method The number of suction ports is switched sequentially. The air flow through the filter simulates the smoke flow when the cigarette is smoked, and the components of the flavored molding paper are eluted.

The Cambridge filter is used for trapping, and the captured Cambridge filter is extracted with 300mL of a mixed solution of ammonia water with a volume ratio of 1:1 and a urea solution with a mass percent concentration of 15%, and then ultra-high performance liquid chromatography to analyze;

The chromatographic conditions are: Geminni C18 column (4.6mm×250mm), the detector is VWD variable wavelength detector and DAD diode array detector in series detection, gradient elution, flow rate 1.0mL/min, column temperature 35°C, injection volume 10 μL; the described gradient elution procedure: 0-3min for elution with acetonitrile, and 3min later for elution with a mixed solution of acetonitrile-methanol-0.02mol/L ammonium acetate solution in a volume ratio of 1:2:1.

The analysis results are shown in Table 1.

Table 1 Pigment migration data

Conclusion: The device and method of the present invention can effectively improve the analysis of the colorant migration in the flavored composite filter, improve the analysis sensitivity of the sample, the sample is not affected by complex smoke, and truly reflect the composition and composition of the colorant in the filter. Its migration rules can effectively guide product development and design. The detection method of the invention can simultaneously measure the contents of 9 pigments, has high accuracy and recovery rate, and the analysis efficiency is obviously improved compared with the efficiency of the current standard method. The method of the invention is feasible, easy to operate, accurate and sensitive, and has popularization and application value.

In addition, comparing the method of the present invention with the existing detection method, it is found that the test time period is shortened by 15 minutes, and the precision is higher.

The basic principles, main features and advantages of the present invention have been shown and described above. Those skilled in the industry should understand that the present invention is not limited by the above-mentioned embodiments. What are described in the above-mentioned embodiments and the description only illustrate the principle of the present invention. Without departing from the spirit and scope of the present invention, the present invention will also have Variations and improvements are possible, which fall within the scope of the claimed invention. The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (8)

1. a kind of detection device of colorant migration amount for extraordinary filter tip, which is characterized in that including：

Air intake, air heating chamber, ten-way valve, filter tip clamper, Fume collector and smoking machine；

The air heating chamber has multiple；

The ten-way valve includes multiple rotatable air communication mouths, a fixed air communication mouth and numerical control turntable, wherein The quantity of rotatable air communication mouth is identical as the quantity of air heating chamber；

Each rotatable air communication mouth is connected with one end of an air heating chamber by heat-insulating pipeline, and each air The other end of heating chamber is connected with air intake by heat-insulating pipeline；

The numerical control turntable is for controlling each rotatable air communication mouth and fixed whether connection of air communication mouth；

The inlet end of the filter tip clamper is connected with fixed air communication mouth by heat-insulating pipeline, the pumping of filter tip clamper End is inhaled with the gas access end of Fume collector to be connected by heat-insulating pipeline；The gas outlet end and smoking machine of Fume collector Gas access end be connected by heat-insulating pipeline.

2. the detection device of the colorant migration amount according to claim 1 for extraordinary filter tip, which is characterized in that described Air heating chamber have 10.

3. the detection device of the colorant migration amount according to claim 1 for extraordinary filter tip, which is characterized in that described Air heating chamber heating temperature range be 30-200 DEG C.

4. the detection device of the colorant migration amount according to claim 1 for extraordinary filter tip, which is characterized in that described Fume collector Trapping ways be cambridge filter trapping, cold trap trapping, absorbing liquid trapping or simulation artificial saliva trap.

5. the detection device of the colorant migration amount according to claim 1 for extraordinary filter tip, which is characterized in that described Heat-insulating pipeline be metal or glass heat-proof pipeline.

6. the detection device of the colorant migration amount according to claim 1 for extraordinary filter tip, which is characterized in that described Filter tip clamper be circumference adjustable type filter tip clamper.

7. a kind of method for detecting the colorant migration amount of extraordinary filter tip, described in claim 1-6 any one The detection device of colorant migration amount for extraordinary filter tip, which is characterized in that include the following steps：

Step（1）, the cigarette containing extraordinary filter tip is first inserted into thermometric at the remote lip end of extraordinary Flavoring filter charging starting position Probe aspirates on common smoking machine, by the remote lip end charging starting of extraordinary filter tip when measuring every mouthful of suction by thermoprobe The temperature of position flue gas, and obtain the puff number of whole branch cigarette；

Step（2）, according to step（1）The suction temperatures and puff number measured, to the phthalic acid ester for extraordinary filter tip The detection device of class and tributyl phosphate the amount of migration is set, and air themperature and pump orifice in each air heating chamber are set Number；

Step（3）, the extraordinary filter tip of the cigarette containing extraordinary filter tip is removed from cigarette, is installed on filter stick clamper, opens Dynamic smoking machine is aspirated by ISO suction modes, is the heat in first air heating chamber by extraordinary filter tip when aspirating first Air；Then switched by ten-way valve, by extraordinary filter tip be that heat in second air heating chamber is empty when second mouthful of suction Gas, and so on, switch successively according to puff number；

Step（4）, trapped using cambridge filter, use volume ratio for 1 the cambridge filter after trapping：1 ammonium hydroxide and matter The mixed solution for the urea liquid that amount percentage concentration is 15% is extracted, and is analyzed afterwards using ultra performance liquid chromatography；

Chromatographic condition is：Geminni C18 columns (4.6mm × 250mm), detector are bis- pole of VWD variable-wavelenght detectors and DAD Pipe array detector Series detectors, gradient elution, flow velocity 1.0mL/min, 35 DEG C of column temperature, 10 μ L of sample size；The gradient is washed De- program：0-3min is eluted with acetonitrile, and it is 1 that volume ratio is used after 3min：2：1 acetonitrile-methanol -0.02mol/L ammonium acetate solutions Mixed solution elutes.

8. the method according to claim 7 for detecting the colorant migration amount of extraordinary filter tip, which is characterized in that described Colorant include carmine, look for red dish, newly red, temptation are red, Chinese catalpa lemon Huang, sunset yellow, indigo, brilliant blue and newly red.