CN211746999U - Tobacco product cigarette holder cooling performance testing device - Google Patents

Abstract

The utility model discloses a tobacco product cigarette holder cooling capability test device. The device comprises a support, an electric heating piece, an air inlet pipe, a first temperature sensor, a sealing ring, a computer, a second temperature sensor, an analog quantity signal transmitter, an air outlet pipe, a hose, a flowmeter and an air pump. The device has the advantages of simple structure, convenient operation and accurate measurement result. The temperature measuring element of the temperature sensor is not in contact with tobacco or cigarette holders, the structure of the cigarette holder is not damaged, the influence of the structure and the property of the tobacco and the cigarette of different brands and models on the test is avoided, the cigarette holder is tested independently, and then the cigarette holders of different brands and models can be subjected to cooling performance test. The smoke temperature before entering the cigarette holder and after exiting the cigarette holder is measured to simulate the temperature change of smoke passing through the cigarette holder by simulating the suction action of a smoker, and then the temperature reduction efficiency is obtained by the ratio of the temperature change to the smoke temperature before entering the cigarette holder, so that the temperature reduction performance of the cigarette holder can be accurately and objectively reflected.

Description

Tobacco product cigarette holder cooling performance testing device

Technical Field

The utility model relates to a tobacco products capability test field specifically is a tobacco products cigarette holder cooling capability test device, is particularly useful for the cooling capability test of heating incombustible cigarette holder.

Background

The main harmful substances in the traditional cigarette are generated by high-temperature cracking of tobacco in the combustion process, and the contents of harmful components such as aldehyde, benzene and homologous compounds, polycyclic aromatic hydrocarbon, CO and the like in smoke components are increased along with the increase of temperature. Non-burning cigarettes (also known as electrically heated cigarettes, low-temperature cigarettes and the like) use an electric heating sheet to heat tobacco at low temperature so that the tobacco is not burnt, and nicotine and flavor substances in tobacco shreds are volatilized to generate smoke during heating. Because the tobacco is not burnt, the content of harmful substances in the smoke is reduced, the harm of tobacco products to human bodies is reduced, and meanwhile, the aroma and the taste of the tobacco are not lost.

However, the product has a big problem that the temperature of smoke entering the oral cavity of a human body is higher than that of common cigarettes for various reasons, so that a user feels hot when sucking the cigarette in a large mouth. For the problem, a simple and feasible scheme is to change the material and the structure of the traditional cigarette holder so that the cigarette holder has the function of cooling smoke. Since the smoke cooling cigarette holder is provided, a corresponding temperature testing device and method are needed to evaluate the smoke cooling effect of the cigarette holder.

The document of application No. 201821607114.2 discloses a cigarette smoke temperature measuring device, the purpose of which is to measure the temperature of the mainstream smoke, which cannot be used to measure the mouthpiece cooling performance. Therefore, it is urgently needed to develop a device and a method for testing the cooling performance of the cigarette holder.

SUMMERY OF THE UTILITY MODEL

To the deficiency of the prior art, the utility model aims to solve the technical problem that a tobacco product cigarette holder cooling performance testing device is provided.

The technical scheme of the utility model for solving the technical problems is to provide a tobacco product cigarette holder cooling performance testing device, which is characterized in that the device comprises a bracket, an electric heating piece, an air inlet pipe, a first temperature sensor, a sealing ring, a computer, a second temperature sensor, an analog quantity signal transmitter, an air outlet pipe, a hose, a flow meter and an air pump;

the air inlet pipe and the air outlet pipe are respectively arranged on two sides of the bracket; the pipe wall of the air inlet pipe close to the cigarette holder is provided with an air inlet pipe through hole; the pipe wall of the air outlet pipe close to the cigarette holder is provided with an air outlet pipe through hole; one end of a lead of the first temperature sensor penetrates through a through hole of the air inlet pipe, a temperature measuring element at the tail end of the lead is positioned in the air inlet pipe, and the other end of the lead is connected with a computer through an analog quantity signal transmitter; one end of a lead of the second temperature sensor penetrates through the through hole of the air outlet pipe, the temperature measuring element at the tail end of the lead is positioned in the air outlet pipe, and the other end of the lead is connected with the computer through an analog quantity signal transmitter; the through hole of the air inlet pipe and the through hole of the air outlet pipe are respectively sealed by high-temperature-resistant sealant, and simultaneously, the conducting wires of the first temperature sensor and the second temperature sensor are respectively fixed in the through hole of the air inlet pipe and the through hole of the air outlet pipe, so that the first temperature sensor and the second temperature sensor are installed and positioned; the electric heating sheet is fixed in the air inlet pipe; the sealing rings are arranged at the mouth of the cigarette holder clamping end of the air inlet pipe and the mouth of the cigarette holder clamping end of the air outlet pipe and are used for sealing the cigarette holder, the air inlet pipe and the air outlet pipe; the tail end of the air outlet pipe is connected with a hose, and a flow meter and an air pump are sequentially arranged on the hose.

Compared with the prior art, the utility model discloses beneficial effect lies in:

(1) the device has the advantages of simple structure, convenient operation and accurate measurement result. The temperature measuring element of the temperature sensor is not in contact with tobacco or cigarette holders, the structure of the cigarette holder is not damaged, the influence of the structure and the property of the tobacco and the cigarette of different brands and models on the test is avoided, the cigarette holder is tested independently, and then the cigarette holders of different brands and models can be subjected to cooling performance test.

(2) The device simulates the temperature change of smoke passing through the cigarette holder by simulating the smoking process of a smoker and measuring the smoke temperature before entering the cigarette holder and after exiting the cigarette holder, and then obtains the cooling efficiency by the ratio of the temperature change to the smoke temperature before entering the cigarette holder, can accurately and objectively reflect the cooling performance of the cigarette holder, and provides theoretical basis for improving the overall smoking feeling of tobacco products, particularly tobacco products which are not combusted by heating.

(3) The device can be used for testing the cooling performance of the cigarette holder without burning and can also be used for testing the cooling performance of the common cigarette holder.

Drawings

Fig. 1 is an axial view of an overall structure of an embodiment of the present invention;

fig. 2 is a schematic front view of an overall structure of an embodiment of the present invention;

fig. 3 is a schematic view illustrating installation of a cigarette holder according to an embodiment of the present invention;

fig. 4 is an explosion diagram of a cigarette holder according to an embodiment of the present invention;

fig. 5 is a schematic view of a bracket structure according to an embodiment of the present invention.

In the figure: 1. a support; 2. an electrical heating sheet; 3. an air inlet pipe; 4. a first temperature sensor; 5. a seal ring; 6. a computer; 7. a second temperature sensor; 8. an analog quantity signal transmitter; 9. a gas inlet pipe through hole; 10. an air outlet pipe; 11. a hose; 12. a pressure gauge; 13. a flow meter; 14. an air pump; 15. a fixed block; 16. a vent pipe through hole; 17. a cigarette holder.

Detailed Description

The present invention will be further explained with reference to the following embodiments and accompanying drawings. The specific embodiments are only used for further elaboration of the invention, and do not limit the scope of protection of the claims of the present application.

The utility model provides a tobacco product cigarette holder cooling performance testing device (for short, see fig. 1-5), which is characterized in that the device comprises a bracket 1, an electric heating piece 2, an air inlet pipe 3, a first temperature sensor 4, a sealing ring 5, a computer 6, a second temperature sensor 7, an analog quantity signal transmitter 8, an air outlet pipe 10, a hose 11, a flow meter 13 and an air pump 14;

the air inlet pipe 3 and the air outlet pipe 10 are respectively arranged at two sides of the bracket 1; an air inlet pipe through hole 9 is formed in the pipe wall of the air inlet pipe 3 close to the cigarette holder 17; the pipe wall of the air outlet pipe 10 close to the cigarette holder 17 is provided with an air outlet pipe through hole 16; one end of a lead of the first temperature sensor 4 vertically penetrates through the through hole 9 of the air inlet pipe, a temperature measuring element of the first temperature sensor 4 at the tail end of the lead is positioned at the circle center of the inner section of the air inlet pipe 3, and the other end of the lead is connected with the computer 6 through the analog quantity signal transmitter 8, so that the first temperature sensor 4 is connected with the computer 6, and temperature data is read, recorded and analyzed; one end of a lead of the second temperature sensor 7 vertically penetrates through the through hole 16 of the air outlet pipe, a temperature measuring element of the second temperature sensor 7 at the tail end of the lead is positioned at the circle center of the inner section of the air outlet pipe 10, and the other end of the lead is connected with the computer 6 through the analog quantity signal transmitter 8, so that the second temperature sensor 7 is connected with the computer 6, and temperature data is read, recorded and analyzed; the air inlet pipe through hole 9 and the air outlet pipe through hole 16 are respectively sealed by high-temperature-resistant sealant, and meanwhile, the conducting wires of the first temperature sensor 4 and the second temperature sensor 7 are respectively fixed in the air inlet pipe through hole 9 and the air outlet pipe through hole 16, so that the first temperature sensor 4 and the second temperature sensor 7 are installed and positioned;

the electric heating plate 2 is fixed inside the air inlet pipe 3; the distance between the electric heating sheet 2 and the temperature measuring element of the first temperature sensor 4 is 0.5-2 cm; the sealing rings 5 are arranged at the mouth of the mouthpiece holding end of the air inlet pipe 3 and the mouth of the mouthpiece holding end of the air outlet pipe 10 and are used for sealing the mouthpiece 17 with the air inlet pipe 3 and the air outlet pipe 10; the tail end of the air outlet pipe 10 is connected with a hose 11, and a flow meter 13 and an air pump 14 are sequentially arranged on the hose 11; the distance between the flow meter 13 and the pipe orifices at two ends of the hose 11 is larger than 10cm, and the flow meter is used for measuring and displaying the flue gas flow in the air pipe 10 and the hose 11; the air pump 14 is used as a power source for smoke flowing and simulates the smoking process of smokers; the start and stop, pressure and flow of the air pump 14 are controllable.

The electric heating plate 2, the temperature measuring element of the first temperature sensor 4, the cigarette holder 17 and the temperature measuring element of the second temperature sensor 7 are positioned on the same horizontal plane; the distance between the end part of the cigarette holder 17 in the air inlet pipe 3 and the temperature measuring element of the first temperature sensor 4 is the same as the distance between the end part of the cigarette holder 17 in the air outlet pipe 10 and the temperature measuring element of the second temperature sensor 7, and the distance is 1-2 mm; the distance between the temperature measuring element of the first temperature sensor 4 and the mouth of pipe of the cigarette holder clamping end of the air inlet pipe 3 is the same as the distance between the temperature measuring element of the second temperature sensor 7 and the mouth of pipe of the cigarette holder clamping end of the air outlet pipe 10, and the distance is 2-3 mm.

Preferably, two sides of the bracket 1 are provided with fixing blocks 15, the fixing blocks 15 are provided with horizontal grooves, and the directions of the two grooves are positioned on the same straight line; the air inlet pipe 3 and the air outlet pipe 10 are respectively fixed in the horizontal grooves of the fixing block 15. The distance between the two fixing blocks 15 is 1-7 cm.

Preferably, the device further comprises a pressure gauge 12; the pressure gauge 12 is installed on the hose 11, is located between the air outlet pipe 10 and the flow meter 13, is as close as possible to the air outlet pipe 10, and has a distance less than 20cm from the flow meter 13, and is used for measuring and displaying the air pressure in the air pipe 10 and the hose 11, so that the air pressure is in a safe range through adjustment.

Preferably, the air inlet pipe 3 and the air outlet pipe 10 are both made of airtight high-temperature-resistant heat-insulating materials, the inner diameter is 8-10 mm, and the outer diameter is 10-14 mm. The sealing ring 5 is a high-temperature resistant rubber sealing ring.

In the embodiment, the electric heating plate 2 adopts a micro ceramic heating plate, and the surface temperature is 100-300 ℃ during working; the first temperature sensor 4 and the second temperature sensor 7 adopt pt100 type bare-chip thermocouples; RS15 debugging software, analog quantity signal transmitter matching software and temperature reading software are installed in the computer 6; the analog quantity signal transmitter 8 adopts a fast Lingke RS15 type temperature transmitter; the flow meter 13 adopts an LZB-3WB type glass rotameter of Taizhou Xiangjin instrument factory; the pressure gauge 12 is a TE2000 type micro-pressure gauge manufactured by MAGRFHELIC.

The utility model discloses a work flow is:

(1) after the device is assembled, two ends of a cigarette holder 17 are respectively inserted into the mouth of the cigarette holder clamping end of the air inlet pipe 3 and the mouth of the air outlet pipe 10 until the distances between the two ends of the cigarette holder 17 and the mouth of the cigarette holder clamping end of the air inlet pipe 3 and the mouth of the air outlet pipe 10 are respectively the same as the distances between the two ends of the cigarette holder clamping end of the first temperature sensor 4 and the two ends of the second temperature sensor 7, and the distances between the two ends of the cigarette holder clamping end of the;

(2) setting the flow rate and the start-stop period of the air pump 14 and the cycle number of the start-stop period; setting the flow (1-2L/min) of the air pump 14 to enable the flow measured by the flow meter 13 to be 1050 mL/min; the starting and stopping period of the air pump 14 is the sum of the starting time and the stopping time, wherein the starting time is 1-3 s, and the stopping time is 20-60 s; the start-stop period of the air pump 14 simulates the actions of one smoking and one pause of a smoker, and the whole smoking process of the smoker is simulated through the circulation of the start-stop period;

(3) switching on a power supply of the electric heating sheet 2 to heat the electric heating sheet to the surface temperature of 100-300 ℃;

(4) starting a test, and switching on power supplies of the first temperature sensor 4, the second temperature sensor 7, the computer 6, the analog quantity signal transmitter 8 and the air pump 14; the end part of the air inlet pipe 3 is connected with smoke, the electric heating sheet 2 heats the smoke, the smoke flows through the air inlet pipe 3, the cigarette holder 17, the air outlet pipe 10 and the hose 11 in sequence under the air pumping action of the air pump 14 until the smoke is completely discharged, and in the process, the pressure meter 12 displays a pressure value and the flow meter 13 displays a flow value; starting a start-stop period of the first air pump 14, detecting the temperature value of the air inlet end in real time by the first temperature sensor 4 close to the air inlet end of the cigarette holder, sending the temperature value to the computer 6 through the analog quantity signal transmitter 8, reading and analyzing the temperature data; under the air pumping action of the air pump 14, smoke in the air inlet pipe 3 enters the air outlet pipe 10 through the cigarette holder 17, the second temperature sensor 7 close to the air outlet end of the cigarette holder detects the temperature value of the air outlet end in real time and sends the temperature value to the computer 6 through the analog quantity signal transmitter 8 to read and record temperature data and analyze the temperature data; starting and stopping the circulating air pump 14 until temperature data of all start and stop periods in the cycle number are obtained;

(5) the temperature peak values T1 and T2 acquired by the first temperature sensor 4 and the second temperature sensor 7 in the start-stop period of each air pump 14 are respectively taken, so that the mouthpiece cooling efficiency in the start-stop period of each air pump 14 can be respectively obtained to be (T1-T2)/T1 × 100%.

Examples

(1) Cutting the cigarette holder 17 to a length of 2.5 cm; inserting two ends of a cigarette holder 17 into the mouth of the cigarette holder clamping end of the air inlet pipe 3 and the mouth of the air outlet pipe 10 respectively until the distance between the two ends is 1mm from the temperature measuring elements of the first temperature sensor 4 and the second temperature sensor 7 respectively, wherein the distance between the temperature measuring element of the first temperature sensor 4 and the mouth of the cigarette holder clamping end of the air inlet pipe 3 and the distance between the temperature measuring element of the second temperature sensor 7 and the mouth of the cigarette holder clamping end of the air outlet pipe 10 are both 2mm, and sealing a gap between the cigarette holder 17 and the mouths by using a sealing ring 5;

(2) setting the flow rate and the start-stop period of the air pump 14 and the cycle number of the start-stop period; the flow rate (2L/min) of the air pump 14 is set so that the flow rate measured by the flow meter 13 is 1050 mL/min; the air pressure is in a reasonable range of-60 to-10 kpa; the start-stop period of the air pump 14 is 60s, wherein the start duration is 2s, and the stop duration is 58 s; the start-stop cycle is cycled for 8 times;

(3) switching on a power supply of the electric heating sheet 2, and heating for 30s until the surface temperature is 200 ℃;

(4) starting a test, and switching on power supplies of the first temperature sensor 4, the second temperature sensor 7, the computer 6, the analog quantity signal transmitter 8 and the air pump 14; the end part of the air inlet pipe 3 is connected with smoke, the electric heating sheet 2 heats the smoke, the smoke flows through the air inlet pipe 3, the cigarette holder 17, the air outlet pipe 10 and the hose 11 in sequence under the air pumping action of the air pump 14 until the smoke is completely discharged, and in the process, the pressure meter 12 displays a pressure value and the flow meter 13 displays a flow value; starting a start-stop period of the first air pump 14, detecting the temperature value of the air inlet end in real time by the first temperature sensor 4 close to the air inlet end of the cigarette holder, sending the temperature value to the computer 6 through the analog quantity signal transmitter 8, reading and analyzing the temperature data; under the air pumping action of the air pump 14, smoke in the air inlet pipe 3 enters the air outlet pipe 10 through the cigarette holder 17, the second temperature sensor 7 close to the air outlet end of the cigarette holder detects the temperature value of the air outlet end in real time and sends the temperature value to the computer 6 through the analog quantity signal transmitter 8 to read and record temperature data and analyze the temperature data; starting and stopping the circulating air pump 14 until temperature data of all start and stop periods in the cycle number are obtained;

(5) the temperature peak values T1 and T2 acquired by the first temperature sensor 4 and the second temperature sensor 7 in the start-stop period of each air pump 14 are respectively obtained, so that the mouthpiece cooling efficiencies of the start-stop periods of 8 air pumps 14 can be respectively obtained as shown in the following table:

number of cycles	Inlet end temperature C	Outlet end temperature C	Cooling efficiency
					1 st time	125.7	38.7	69.21％
2 nd time	120.4	47	60.96％
				3 rd time	134	50.8	62.09％
4 th time	145.3	60.6	58.29％
				5 th time	131.2	58.2	55.64％
6 th time	129.9	66.9	48.50％
				7 th time	130.4	66.9	48.70％
8 th time	131	67.1	48.78％

As can be seen from the above table, the device can accurately obtain the temperature data of the smoke before entering the cigarette holder and after exiting the cigarette holder, thereby calculating the cooling efficiency and realizing the accurate evaluation of the cooling performance of the cigarette holder; the data display of cooling efficiency, along with the increase of smoking number of times, the cooling efficiency of cigarette holder generally is the trend of decline gradually, this is because along with the increase of smoking number of times, the cigarette holder itself makes self temperature rise through the heat exchange with the flue gas, according to the heat convection principle, under the unchangeable condition of other conditions, the difference in temperature of flue gas and cigarette holder diminishes and can make heat transfer rate diminish, thereby cooling efficiency diminishes, the law that the device test result shows accords with the theory, the scientificity of device design has been reflected, rationality and accuracy.

The utility model discloses the nothing is mentioned the part and is applicable to prior art.

Claims (10)

1. A tobacco product cigarette holder cooling performance testing device is characterized by comprising a support, an electric heating sheet, an air inlet pipe, a first temperature sensor, a sealing ring, a computer, a second temperature sensor, an analog quantity signal transmitter, an air outlet pipe, a hose, a flow meter and an air pump;

the air inlet pipe and the air outlet pipe are respectively arranged on two sides of the bracket; the pipe wall of the air inlet pipe close to the cigarette holder is provided with an air inlet pipe through hole; the pipe wall of the air outlet pipe close to the cigarette holder is provided with an air outlet pipe through hole; one end of a lead of the first temperature sensor penetrates through a through hole of the air inlet pipe, a temperature measuring element at the tail end of the lead is positioned in the air inlet pipe, and the other end of the lead is connected with a computer through an analog quantity signal transmitter; one end of a lead of the second temperature sensor penetrates through the through hole of the air outlet pipe, the temperature measuring element at the tail end of the lead is positioned in the air outlet pipe, and the other end of the lead is connected with the computer through an analog quantity signal transmitter; the through hole of the air inlet pipe and the through hole of the air outlet pipe are respectively sealed by high-temperature-resistant sealant, and simultaneously, the conducting wires of the first temperature sensor and the second temperature sensor are respectively fixed in the through hole of the air inlet pipe and the through hole of the air outlet pipe, so that the first temperature sensor and the second temperature sensor are installed and positioned; the electric heating sheet is fixed in the air inlet pipe; the sealing rings are arranged at the mouth of the cigarette holder clamping end of the air inlet pipe and the mouth of the cigarette holder clamping end of the air outlet pipe and are used for sealing the cigarette holder, the air inlet pipe and the air outlet pipe; the tail end of the air outlet pipe is connected with a hose, and a flow meter and an air pump are sequentially arranged on the hose.

2. A smoking article mouthpiece cooling performance testing apparatus according to claim 1, wherein the electrical heating sheet, the temperature measuring element of the first temperature sensor, the mouthpiece and the temperature measuring element of the second temperature sensor are located on the same horizontal plane.

3. A tobacco product cigarette holder cooling performance testing device according to claim 2, characterized in that the distance between the end of the cigarette holder in the air inlet pipe and the temperature measuring element of the first temperature sensor is the same as the distance between the end of the cigarette holder in the air outlet pipe and the temperature measuring element of the second temperature sensor, and the distance is 1-2 mm.

4. A tobacco product cigarette holder cooling performance testing device according to claim 3, characterized in that the distance between the temperature measuring element of the first temperature sensor and the mouth of the holder holding end of the air inlet tube is the same as the distance between the temperature measuring element of the second temperature sensor and the mouth of the holder holding end of the air outlet tube, and the distance is 2-3 mm.

5. A tobacco product mouthpiece cooling performance testing device according to claim 2, wherein the distance between the electric heating piece and the temperature measuring element of the first temperature sensor is 0.5-2 cm.

6. A tobacco product mouthpiece cooling performance testing device according to claim 1 or 2, wherein the temperature measuring element of the first temperature sensor is located at the center of the circle of the inner section of the air inlet pipe; the temperature measuring element of the second temperature sensor is positioned at the circle center of the inner section of the air outlet pipe.

7. A tobacco product mouthpiece cooling performance testing apparatus according to claim 1, wherein the distance between the flow meter and the pipe orifices at both ends of the hose is greater than 10 cm.

8. A tobacco product cigarette holder cooling performance testing device according to claim 1, characterized in that fixing blocks are arranged on both sides of the bracket, a horizontal groove is formed on the fixing block, and the directions of the two groove openings are located on the same straight line; the air inlet pipe and the air outlet pipe are respectively fixed in the horizontal grooves of the fixing blocks.

9. A smoking article mouthpiece cooling performance testing apparatus according to claim 1, wherein the apparatus further comprises a pressure gauge; the pressure gauge is arranged on the hose and positioned between the air outlet pipe and the flow meter.

10. A tobacco product mouthpiece cooling performance testing device according to claim 1, wherein the air inlet pipe and the air outlet pipe are both made of airtight high temperature resistant heat insulation materials, the inner diameter is 8-10 mm, and the outer diameter is 10-14 mm; the sealing ring is a high-temperature resistant rubber sealing ring.

Images