WO2016000135A1 - Electronic cigarette performance test device and electronic cigarette performance test method - Google Patents

Abstract

An electronic cigarette performance test device and electronic cigarette performance test method, the electronic cigarette performance test device comprising a first clamping mechanism (10), a tension sensor (20), an inhaling mechanism (30), a negative pressure detector (40), a control module (50) and a base (90); the first clamping mechanism (10) is slidably disposed on the base (90) along the axial direction of a clamped electronic cigarette (100) relative to the base (90); the tension sensor (20) is connected to the first clamping mechanism (10) via a pull rod (21); the inhaling mechanism (30) communicates with a smoking end of the electronic cigarette (100) via an air inlet pipe (31); the negative pressure detector (40) communicates with the air inlet pipe (31) via a branch air inlet pipe (41); the inhaling mechanism (30) is used to enable a user to inhale from the smoking end; the negative pressure detector (40) is used to detect a negative pressure value in the air inlet pipe (31); the control module (50) determines the venting performance of the electronic cigarette (100) according to the negative pressure value; the tension sensor (20) is used to detect the tension applied to the electronic cigarette (100) along the axial direction of the electronic cigarette (100); and the control module (50) is also used to determine the anti-drawing performance of the electronic cigarette (100) according to the tension value. The present invention has accurate test results and high working efficiency.

Description

 Electronic cigarette performance testing device and electronic cigarette performance testing method Technical field

 The invention relates to the field of electronic cigarette testing, and in particular to an electronic cigarette performance testing device and an electronic cigarette performance testing method.

Background technique

 As an alternative to cigarettes, electronic cigarettes are mainly evaluated in the following inventions: 1 Sensitivity performance, which is expressed by the smokers who need to turn on the ignition of electronic cigarettes during smoking; 2 Ventilation and hernia performance, which is reflected in the smoker's inhalation during smoking. Specifically, smokers feel that the inhalation is smooth when smoking e-cigarettes. Generally speaking, good e-cigarettes are more inhaled and sucked. The feeling of real smoke is relatively close; 3 The amount of smoke, the amount of smoke per mouth is enough, generally speaking, the amount of good electronic cigarette smoke feels more; 4) battery life, generally the longer the battery is used, the better the performance of electronic cigarette ; 5 The nebulizer life, the poor quality of the electronic cigarette product atomizer is very easy to damage, the longer the nebulizer life, the better the performance of the electronic cigarette; 5 The capacity of the cartridge, in general, refers to the large capacity of the cartridge, and the better the performance of the e-cigarette. In the prior art, performance tests of electronic cigarettes, such as ventilation performance, smoke circulation performance, and atomization performance, are all tested by manual mouth suction.

The existing electronic cigarette is composed of two major parts, a battery rod portion and an atomizer portion, and the general electronic cigarette is connected by thread or the like between the two parts, and the connection degree is firm and whether it is obtained. There is no strict testing standard for pulling, which is easy to cause the e-cigarette to be easily broken during the customer's use, which will damage the user experience and product image.

 The prior art has drawbacks and needs to be improved.

Summary of the invention

 The technical problem to be solved by the present invention is to provide an electronic cigarette performance testing device and an electronic cigarette performance testing method for the above-mentioned drawbacks of the prior art.

 The technical solution adopted by the present invention to solve the technical problem thereof is to construct an electronic cigarette performance testing device, including a first clamping mechanism, a tension sensor, a suction mechanism, a negative pressure detector, a control module, and a base for holding the electronic cigarette;

The first clamping mechanism is configured to clamp the electronic cigarette and is slidably disposed on the base along the axial direction of the clamped electronic cigarette, and the tension sensor is fixedly disposed on the base And connected to the first clamping mechanism by a pull rod, the air suction mechanism is connected to the smoking end of the electronic cigarette through an air inlet pipe, and the negative pressure detector is connected to the air inlet pipe through an air intake pipe;

The suction mechanism is configured to inhale from the smoking end to simulate a smoking action, the negative pressure detector is configured to detect a negative pressure value in the intake pipe and transmit the negative pressure value to the control module And the control module determines a ventilation performance of the electronic cigarette according to the negative pressure value; and the tensile force sensor is configured to detect a tensile force value of a tensile force applied to the electronic cigarette along an axial direction of the electronic cigarette, The control module is further configured to determine the pull resistance of the electronic cigarette according to the tensile value after determining the ventilation performance.

In the electronic cigarette performance testing device provided by the present invention, the method further includes: clamping the other end of the electronic cigarette and applying an axial direction away from the first clamping mechanism to the electronic cigarette; The driving mechanism of the pulling force is communicatively connected to the control module, and the control module is further configured to control opening and closing of the driving mechanism and a magnitude of the pulling force value.

 In the electronic cigarette performance testing device provided by the present invention, The driving mechanism includes a second clamping mechanism and a third cylinder; the second clamping mechanism is slidably disposed on the base relative to the base along an axial direction of the electronic cigarette, the third The cylinder is fixedly disposed on the base;

The third cylinder is provided with a cylinder pull rod and a third electromagnetic valve for controlling intake and exhaust of the third cylinder, the third electromagnetic valve is electrically connected to the control module, the cylinder rod and the cylinder a second clamping mechanism coupled to drive the second clamping mechanism

 .

In the electronic cigarette performance testing device provided by the present invention, the control module controls the first clamping mechanism and the second clamping mechanism to release the clamped electronic cigarette after determining the tensile resistance.

In the electronic cigarette performance testing device provided by the present invention, the second clamping mechanism includes a second pneumatic finger for clamping the electronic cigarette, and a second for driving the second pneumatic finger to open and close a cylinder and a second solenoid valve for controlling intake and exhaust of the second cylinder, the second solenoid valve being electrically connected to the control module.

In the electronic cigarette performance testing device provided by the present invention, the elastic accommodating member for clamping the smoking end is further included, and the elastic accommodating member is installed in the first clamping mechanism, the elastic accommodating member Communicating with the intake pipe.

In the electronic cigarette performance testing device provided by the present invention, the first clamping mechanism includes a first pneumatic finger for clamping the electronic cigarette, and a first for driving the first pneumatic finger to open and close a cylinder and a first solenoid valve for controlling intake and exhaust of the first cylinder, the first solenoid valve being electrically connected to the control module.

The electronic cigarette performance testing device provided by the present invention further includes a prompting device electrically connected to the control module, wherein the control module determines the pull resistance of the electronic cigarette when the tensile force value is greater than or equal to a preset value Qualifying and controlling the prompting device to issue a first prompting signal, the control module determining that the tensile performance of the electronic cigarette is unsatisfactory and controlling the control when the tensile force value is greater than zero and less than the preset value is decreased to zero The prompting device sends a second prompt signal.

In the electronic cigarette performance testing device provided by the present invention, the control module determines that the ventilation performance is unsatisfactory when the negative pressure value is outside a preset negative pressure value range and controls the prompting device to issue a third prompt signal.

The electronic cigarette performance testing device provided by the present invention further includes a switch electrically connected to the control module, the switch is configured to generate a first trigger signal to the control module, and the control module is configured according to the first trigger The signal controls the first solenoid valve to thereby control opening and closing of the first pneumatic finger and the second pneumatic finger.

In the electronic cigarette performance testing device provided by the present invention, the first pneumatic finger and the second pneumatic finger each include a rigid finger and an elastic sleeve sleeved on the rigid finger.

 In the electronic cigarette performance testing device provided by the present invention, the air suction mechanism is a vacuum generator.

 The invention also provides an electronic cigarette performance testing method, including aeration performance detection and anti-pulling performance detection;

 The ventilation performance test includes the following steps:

 S101, the control module controls the inhalation mechanism to inhale from the smoking end of the electronic cigarette to simulate a smoking action;

 S102, a negative pressure detector detects a negative pressure value in the intake pipe;

 S103. The control module determines, according to the negative pressure value, a ventilation performance of the electronic cigarette;

 The pull resistance test includes the following steps:

 S201. The tension sensor detects a tensile force value of a tensile force applied to the electronic cigarette along an axial direction of the electronic cigarette;

 S202. The control module determines the pull resistance of the electronic cigarette according to the tensile value.

 In the electronic cigarette performance testing method provided by the present invention, the step S103 includes the following sub-steps:

 Setting a range of negative pressure values in the control module;

When the negative pressure value is within the negative pressure value range, the control module determines that the ventilation performance of the electronic cigarette is good; otherwise, the ventilation performance of the electronic cigarette is not good.

 In the electronic cigarette performance testing method provided by the present invention, the ventilation performance detection further includes step S104. The control module sends a third prompt signal when determining that the ventilation performance of the electronic cigarette is not good.

 In the electronic cigarette performance testing method provided by the present invention, in the step S202 The control module determines that the anti-pull performance of the electronic cigarette is qualified, and controls the prompting module to issue a first prompt signal; the pull force value is greater than zero and less than when the pull value is greater than or equal to the preset value. When the preset value falls to zero, the control module determines that the anti-pull performance of the electronic cigarette is unsatisfactory, and controls the prompting module to issue a second prompt signal.

 In the electronic cigarette performance testing method provided by the present invention, the anti-pull performance detection further includes the following steps: S200 The control module controls the driving mechanism to apply a pulling force to the electronic cigarette along an axial direction of the electronic cigarette away from the first clamping mechanism, and control the pulling force value to be increased from small to large.

 In the electronic cigarette performance testing method provided by the present invention, the tensile performance test further includes the following steps:

 S203. The control module controls the first clamping mechanism and the second clamping mechanism of the driving mechanism to release the clamped electronic cigarette.

 The electronic cigarette performance testing device and the electronic cigarette performance testing method embodying the invention have the following beneficial effects:

In the electronic cigarette performance testing device and method of the present invention, a negative pressure detector is set to detect the negative pressure value of the electronic cigarette during smoking, and the detected negative pressure value is judged by the control module, thereby directly characterizing the test data. The venting performance of the electronic cigarette is determined by setting a tensile force to the tensile force applied to the electronic cigarette, and determining the tensile strength of the electronic cigarette by the control module for the detected tensile value; therefore, the test result is accurate and works. Highly efficient, the first clamping mechanism realizes a sliding connection with the base by the cooperation of the sliding groove and the sliding rail, which can prevent the first clamping mechanism from sliding along the direction oblique to the axial direction of the electronic cigarette to break the electronic The smoke or pull test is inaccurate; and the test device and method are reproducible for all e-cigarettes and can therefore be used for batch testing of e-cigarettes.

DRAWINGS

 The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

 1 is a block diagram showing the working principle of the electronic cigarette performance detecting device in the first embodiment of the present invention;

 Figure 2 is a cross-sectional view of the base of the embodiment of Figure 1;

 3 is a block diagram showing the working principle of the electronic cigarette performance detecting device in the second embodiment of the present invention;

 4 is a block diagram showing the operation of the electronic cigarette performance detecting apparatus in a preferred embodiment of the present invention.

detailed description

 For a better understanding of the technical features, objects and effects of the present invention, the embodiments of the present invention are described in detail with reference to the accompanying drawings.

1 shows an electronic cigarette performance detecting apparatus in a first embodiment of the present invention, comprising: a first clamping mechanism 10 for holding an electronic cigarette, a tensile force sensor 20 for detecting a tensile force, a suction mechanism 30, and a negative Pressure detector 40 , control module 50 and base 90;

 The first clamping mechanism 10 is for holding the electronic cigarette 100 and can be along the clamped electronic cigarette 100 with respect to the base 90. The axial sliding member is disposed on the base 90, and the tension sensor 20 is fixedly disposed on the base 90 and connected to the first clamping mechanism 10 via the pull rod 21, and the suction mechanism 30 passes through the intake pipe 31. Connected to the smoking end of the electronic cigarette 100, the negative pressure detector 40 communicates with the intake pipe 31 through the intake manifold 41. In addition, the suction mechanism 30, the negative pressure detector 40, and the control module 50 They are all set on the base 90.

The suction mechanism 30 is configured to inhale from the smoking end to simulate a smoking action, and the negative pressure detector 40 is configured to detect a negative pressure value in the intake pipe 31 and transmit the negative pressure value to the control module 50, and the control module 50 is based on the negative pressure value. Determining the ventilation performance of the electronic cigarette 100; the tension sensor 20 is configured to detect a pulling force value of the pulling force applied to the electronic cigarette 100 along the axial direction of the electronic cigarette 100, and the control module 50 is further configured to determine the tensile value after determining the ventilation performance. The pull resistance of the electronic cigarette 100 is judged.

In the electronic cigarette performance testing device according to the present invention, the negative pressure value of the electronic cigarette 100 during smoking is detected by setting the negative pressure detector 40, and the detected negative pressure value is judged by the control module 50, thereby directly using the test. The data characterizes the ventilation performance of the electronic cigarette 100; the tensile force value of the tensile force applied to the electronic cigarette 100 is detected by the tension sensor 20, and the detected tensile force value is judged by the control module 50, thereby characterizing the resistance of the electronic cigarette 100 with the test data. Pulling ability; therefore, the test result is accurate and the work efficiency is high; and the electronic cigarette performance test device is repetitive for some electronic cigarettes, and thus can be used for batch testing of electronic cigarettes.

Specifically, the electronic cigarette performance testing device further includes a resilient receiving member 60 for accommodating the smoking end of the electronic cigarette 100, a switch 70, and a prompting device (not shown) for generating a prompt signal.

The first clamping mechanism 10 includes a first pneumatic finger 11 for holding the electronic cigarette 100, a first cylinder 12 for driving the first pneumatic finger 11 to open and close, and an intake for controlling the first cylinder 12. The first solenoid valve is electrically coupled to the control module 50 with an outlet first solenoid valve (not shown). The control module 50 controls the intake and exhaust of the first cylinder 12 by controlling the conduction and the off of the first solenoid valve, thereby controlling the first pneumatic finger 11 to open or close. After the control module 50 determines the anti-pull performance of the electronic cigarette 100, the first clamping mechanism 10 is controlled to release the clamped electronic cigarette 100. . Since the cylinder-driven pneumatic finger is used to hold the electronic cigarette 100, the clamping force is relatively uniform and elastic during the clamping process by the looseness, and the inelastic clamping can be prevented to cause the electronic cigarette 100 to be pinched.

The prompting device is electrically connected to the control module 40, which may be an audible alert device or a light alert device. When the tension value is greater than or equal to the preset value, the control module 50 determines that the anti-pull performance of the electronic cigarette is qualified and the control prompting device issues the first prompt signal, and the control module 50 decreases when the tension value is greater than zero and less than the preset value. It is determined that the anti-pull performance of the electronic cigarette is unsatisfactory and the control prompting device issues a second prompt signal. The control module 50 determines that the ventilation performance is unsatisfactory when the negative pressure value is outside the preset negative pressure value range and controls the prompting device to issue a third prompt signal. The control module 50 can be a single chip microcomputer, a microprocessor, or the like.

Since the electronic cigarette 100 breaks during the pulling process, the pulling force value is reduced to zero by a certain threshold value greater than zero and less than the preset value. The control module 40 also counts the critical values of all the unqualified electronic cigarettes 100, so that the technician can find out the reasons for the unsatisfactory pull resistance.

 The air suction device 30 may be a vacuum generator or other common air suction devices such as an air pump or the like.

The elastic receiving member 60 is substantially cylindrical and is made of an elastic material. The elastic receiving member 60 prevents air leakage between the intake pipe 31 and the smoking end when the suction mechanism 30 inhales.

The switch 70 is configured to send a first trigger signal to the control module 50. The control module 50 controls the conduction of the first solenoid valve of the first clamping mechanism 10 and the second solenoid valve of the second clamping mechanism 81 according to the first control. The cutoff, in turn, controls the opening and closing of the first pneumatic finger 11 and the second pneumatic finger 811. The switch 70 is further configured to send a second trigger signal to the control module 50. The control module 50 controls the first pneumatic finger 11 to open and close according to the second trigger signal. After the detection, a second trigger signal can be sent to the control module 50 via the switch 70 to open the first pneumatic finger 11. Of course, it can be understood that when the control module 50 determines that the anti-pull performance of the electronic cigarette 100 is qualified or unqualified, the first pneumatic finger 11 is automatically controlled to be opened, so that the worker removes the electronic cigarette 100.

As shown in FIG. 2, the base 90 is provided with a slide rail 91. Correspondingly, the first pneumatic finger 11 of the first clamping mechanism 10 and the first cylinder 12 are provided with a sliding slot, and the bottom of the first cylinder 12 is provided with A sliding groove (not shown), the first clamping mechanism 10 realizes a sliding connection with the base 90 by the cooperation of the sliding groove and the sliding rail 91. It can prevent the first clamping mechanism 10 from sliding in a direction oblique to the axial direction of the electronic cigarette 100 to break the electronic cigarette 100 or the inaccuracy test is inaccurate. Of course, the sliding connection between the first clamping mechanism 10 and the base 90 can also be achieved by other means. Preferably, the sliding rail 91 has a dovetail mechanism with a large and small cross section, and the sliding groove has a dovetail mechanism adapted to the sliding rail 91 to prevent separation between the first clamping mechanism 10 and the base 90.

3 shows an electronic cigarette performance detecting device in a second embodiment of the present invention. On the basis of the first embodiment, the electronic cigarette performance detecting device further includes an end for holding the electronic cigarette 100 and giving the electronic cigarette. 100 applies a drive mechanism 80 that is pulled away from the first clamping mechanism 10 in the axial direction of the electronic cigarette 100. The drive mechanism 80 is communicatively coupled to the control module 50. The control module 50 is also used to control the opening and closing of the drive mechanism 80 and the magnitude of the pull force value. In the present embodiment, the driving mechanism 80 is used to apply a pulling force to the electronic cigarette 100, and the driving mechanism 80 is used to apply a pulling force to the electronic cigarette 100. The operation is more intelligent and quick, without excessive manual operation, and the pulling force can be prevented from being in the same line as the electronic cigarette 100. It is easy to cause the electronic cigarette 100 to break, which makes the test inaccurate. Moreover, the control module 50 controls the pulling force applied by the driving mechanism 80 to the electronic cigarette 100 to gradually increase, which is advantageous for detecting the critical value when the electronic cigarette 100 is broken.

Specifically, the drive mechanism 80 includes a second clamping mechanism 81 for holding the electronic cigarette 100 and a third cylinder 82 for driving the second clamping mechanism 81 to slide along the axial direction of the electronic cigarette 100. Of course, it can be understood that the driving mechanism 80 is not limited thereto, and other common driving devices, such as motor driving, etc., are all within the protection scope of the present invention.

The third cylinder 82 is provided with a cylinder pull rod and a third electromagnetic valve (not shown) for controlling intake and exhaust of the third cylinder 82. The third electromagnetic valve is electrically connected to the control module 50, and the second clamping mechanism 81 is fixed. Set on the cylinder rod. The control module 50 controls whether the cylinder rod applies a pulling force to the electronic cigarette 100 by controlling the conduction and the closing of the third solenoid valve, and controls the amount of gas entering the third cylinder 82 by controlling the time when the third solenoid valve is turned on, thereby further Control the magnitude of this pull value. Since the second clamping mechanism 81 is driven by the third cylinder 82 to apply a pulling force to the electronic cigarette 100, the pulling force can be made gentle from small to large, the electronic cigarette 100 can be protected, and the tensile force detected by the tension sensor 20 can be made. The value is more accurate, and it is convenient for the tension sensor 20 to detect a critical value when the defective electronic cigarette 100 is broken.

The second clamping mechanism 81 includes a second pneumatic finger 811 for holding the electronic cigarette 100, a second cylinder 812 for driving the second pneumatic finger 811 to open and close, and an intake air for controlling the second cylinder 812. An vented second solenoid valve (not shown) is electrically coupled to the control module 50. The control module 50 controls the opening and closing of the second pneumatic finger 811 by controlling the conduction and the closing of the second solenoid valve. The bottom of the second cylinder 812 of the second clamping mechanism 81 is also provided with a sliding groove adapted to the slide rail 91 on the base 90 to realize that the second clamping mechanism 81 can be along the axis of the electronic cigarette 100 with respect to the base 90. Slidable to the direction. The sliding of the first clamping mechanism 10 and the second clamping mechanism 81 along the slide rail 91 can ensure that the pulling force applied by the second clamping mechanism 81 to the electronic cigarette 100 is along the central axis of the electronic cigarette 100. It improves the accuracy of the tension detection, and also prevents the electronic cigarette 100 from being broken by the pulling force inclined to the axis of the electronic cigarette 100.

In this embodiment, the second pneumatic finger 811 is synchronized with the first pneumatic finger 11 , which is of course not limited thereto. After the control module 50 determines the ventilation performance, a control signal is sent to the third solenoid valve on the third cylinder 82 of the drive unit 80, so that the third solenoid valve is opened, and the third cylinder 82 is inflated, so that the third cylinder 82 is driven. The second clamping mechanism 81 applies a pulling force to the electronic cigarette 100.

 Preferably, the first pneumatic finger 11 and the second pneumatic finger 811 Each includes a rigid finger and an elastic sleeve that is sleeved on the rigid finger. The elastic sleeve makes the clamping of the electronic cigarette 100 tighter and has an anti-slip function.

 As shown in FIG. 4, the present invention also provides an electronic cigarette performance detecting method, including a ventilation performance detection and a pull resistance performance detection;

 Ventilation performance testing includes the following steps:

 S101, the control module 50 controls the suction mechanism 30 to inhale from the smoking end of the electronic cigarette 100 to simulate a smoking action;

 S102, the negative pressure detector 40 detects the negative pressure value in the intake pipe 31, and sends the negative pressure value to the control module 50;

 S103, the control module 50 determines the ventilation performance of the electronic cigarette 100 according to the negative pressure value;

 The pull resistance test includes the following steps:

 S201, tension sensor 20 detects application of electronic cigarettes along the axial direction of the electronic cigarette 100 The pulling force value of the pulling force is sent to the control module 50;

 S202 and the control module 50 determine the pull resistance of the electronic cigarette according to the tensile value.

 Preferably, step S103 comprises the following sub-steps:

 A range of negative pressure values is preset in the control module 50;

 When the negative pressure value is within the range of the negative pressure value, the control module 50 determines that the ventilation performance of the electronic cigarette 100 is good; otherwise, the electronic cigarette 100 The ventilation performance is not good.

 Further, the ventilation performance detection further includes a step S104 after the step S103: the control module 50 determines the electronic cigarette 100 When the ventilation performance is not good, the control prompt module sends a third prompt signal. The third prompt signal may be a sound signal or a light signal. In order to facilitate the technician to study the influencing factors of the failure of the ventilation performance and the calculation pass rate, the control module 50 The results of each ventilation performance are also counted and saved.

 Preferably, in step S202, when the tension value is greater than or equal to the preset value, the control module 50 determines the electronic cigarette 100. The anti-pull performance is qualified, and the control prompting module sends a first prompt signal; when the tensile value is greater than zero and less than the preset value, the control module 50 determines the electronic cigarette 100. The pull resistance is unqualified, and the control prompt module sends a second prompt signal; since the electronic cigarette 100 breaks, The pull value is reduced to zero by a threshold greater than zero and less than the preset value. The control module 40 also counts the critical values of all the unqualified electronic cigarettes 100, so that the technician can find out the reasons for the unsatisfactory pull resistance.

 Preferably, the pull resistance test further includes a step S200 before step S201: the control module 50 controls the drive mechanism 80 A pulling force is applied to the electronic cigarette 100 away from the first holding mechanism 10 in the axial direction of the electronic cigarette 100, and the control pulling force value is increased from small to large. In this embodiment, the drive mechanism 80 includes A second clamping mechanism 81 for holding the electronic cigarette 100 and a third cylinder 82 for driving the second clamping mechanism 81 to slide along the axial direction of the electronic cigarette 100. The third cylinder 82 is provided with a cylinder pull rod and a third electromagnetic valve (not shown) for controlling intake and exhaust of the third cylinder 82. The third electromagnetic valve is electrically connected to the control module 50, and the second clamping mechanism 81 is fixed. Set on the cylinder rod. Therefore, the pulling force applied to the electronic cigarette 100 by the cylinder pulling rod 81 can be continuously increased by continuing to the intake air in the third cylinder 82, and the pulling force value is increased at a relatively uniform speed.

 Preferably, the pull resistance detection further includes a step S203 after the step S202: the control module 50 controls the first clamping mechanism 10 and the second clamping mechanism 81 of the drive mechanism 80 releases the clamped electronic cigarette 100.

The embodiments of the present invention have been described above with reference to the drawings, but the present invention is not limited to the specific embodiments described above, and the specific embodiments described above are merely illustrative and not restrictive, and those skilled in the art In the light of the present invention, many forms may be made without departing from the spirit and scope of the invention as claimed.

Claims (18)

1. An electronic cigarette performance testing device, comprising: a first clamping mechanism (10) for clamping an electronic cigarette, a tension sensor (20), a suction mechanism (30), a negative pressure detector (40), a control module (50), and a base (90);

   The first clamping mechanism (10) is configured to clamp an electronic cigarette and is slidably disposed on the base relative to the base (90) along an axial direction of the clamped electronic cigarette (90) The tension sensor (20) is fixedly disposed on the base (90) and connected to the first clamping mechanism (10) through a tie rod (21), and the suction mechanism (30) passes through the intake pipe ( 31) communicating with the smoking end of the electronic cigarette, the negative pressure detector (40) being in communication with the intake pipe (31) through an intake manifold (41);

   The suction mechanism (30) is configured to inhale from the smoking end to simulate a smoking action, the negative pressure detector (40) is configured to detect a negative pressure value in the intake pipe (31) and The negative pressure value is sent to the control module (50), and the control module (50) determines the ventilation performance of the electronic cigarette according to the negative pressure value;

   The tension sensor (20) is configured to detect a tensile force value applied to the electronic cigarette pulling force along an axial direction of the electronic cigarette, and the control module (50) is further configured to determine the tensile force according to the tensile force The value determines the pull resistance of the electronic cigarette.
2. According to claim 1 An electronic cigarette performance testing device, characterized by further comprising: clamping the other end of the electronic cigarette and applying an electron to the electronic cigarette along the axial direction of the electronic cigarette away from the first clamping mechanism (10) a driving mechanism (80) for pulling force, the driving mechanism (80) is communicatively coupled to the control module (50), the control module (50) is further configured to control opening and closing of the driving mechanism (80) and The magnitude of the pull value.
3.  According to claim 2 An electronic cigarette performance testing device, characterized in that the driving mechanism (80) comprises a second clamping mechanism (81) and a third cylinder (82); the second clamping mechanism (81) can be along the electronic The axial direction of the smoke is slidably disposed on the base (90) relative to the base (90), and the third cylinder (82) is fixedly disposed on the base (90);

   The third cylinder (82) is provided with a cylinder pull rod and a third electromagnetic valve for controlling intake and exhaust of the third cylinder (82), the third electromagnetic valve and the control module (50) Connected, the cylinder rod is coupled to the second clamping mechanism (81) to drive the second clamping mechanism (81).
4.  According to claim 3 The electronic cigarette performance testing device is characterized in that the control module (50) controls the first clamping mechanism (10) and the second clamping mechanism (82) to loosen the clip after determining the anti-pull performance. Tight electronic cigarette.
5. The electronic cigarette performance testing device according to claim 4, wherein said second clamping mechanism (81) includes a second pneumatic finger (811) for holding said electronic cigarette, for driving said a second pneumatic cylinder (812) opens and closes a second cylinder (812) and a second solenoid valve for controlling intake and exhaust of the second cylinder (812), the second solenoid valve The control module (50) is electrically connected.
6. According to claim 5 An electronic cigarette performance testing device, characterized by further comprising an elastic receiving member (60) for clamping the smoking end, the elastic receiving member (60) being mounted in the first clamping mechanism (10) The elastic receiving member (60) is in communication with the intake pipe (31).
7. The electronic cigarette performance testing device according to claim 6, wherein said first clamping mechanism (10) includes a first pneumatic finger (11) for holding said electronic cigarette, for driving said a first pneumatic cylinder (11) opens and closes a first cylinder (12) and a first solenoid valve for controlling intake and exhaust of the first cylinder (12), the first solenoid valve and the first solenoid valve The control module (50) is electrically connected.
8. According to claim 7 An electronic cigarette performance testing device, further comprising a prompting device electrically connected to the control module (50), wherein the control module (50) is configured to determine that the tensile force value is greater than or equal to a preset value The anti-pull performance of the electronic cigarette is qualified and the first prompt signal is sent by the prompting device, and the control module (50) is further configured to determine when the tensile force value is greater than zero and less than the preset value is decreased to zero. The anti-pull performance of the electronic cigarette is unsatisfactory and the prompting device is controlled to issue a second prompt signal.
9. The electronic cigarette performance testing device according to claim 8, wherein the control module (50) is further configured to determine that the ventilation performance is not when the negative pressure value is outside a preset negative pressure value range. Passing and controlling the prompting device to issue a third prompt signal.
10. The electronic cigarette performance testing device according to claim 9, further comprising a switch (70) electrically connected to the control module (50), wherein the switch (70) is configured to send a first trigger signal to the a control module (50), wherein the control module (50) is further configured to control the first solenoid valve according to the trigger signal to control the first pneumatic finger (11) and the second pneumatic finger (811) Open and closed.
11. The electronic cigarette performance testing device according to claim 10, wherein the first pneumatic finger (11) and the second pneumatic finger (12) each comprise a rigid finger and a sleeve disposed on the rigid finger Elastic sleeve.
12. The electronic cigarette performance testing device according to claim 1, wherein the suction mechanism (30) is a vacuum generator.
13. An electronic cigarette performance testing method, comprising: aeration performance detection and anti-pull performance detection;

    The ventilation performance test includes the following steps:

    S101, the control module (50) controls the inhalation mechanism (30) to inhale from the smoking end of the electronic cigarette to simulate a smoking action;

    S102, a negative pressure detector (40) detects a negative pressure value in the intake pipe (31), and sends the negative pressure value to the control module (50) );

    S103, the control module (50) determines a ventilation performance of the electronic cigarette according to the negative pressure value;

    The pull resistance test includes the following steps:

    S201, tension sensor (20 Detecting a tensile force value applied to the e-cigary pulling force along the axial direction of the electronic cigarette, and transmitting the tensile force value to the control module (50);

    S202, the control module (50) determines the pull resistance of the electronic cigarette according to the tensile value.
14. The electronic cigarette performance testing method according to claim 13, wherein the step S103 comprises the following substeps:

    Setting a range of negative pressure values in the control module (50);

    The control module (50) when the negative pressure value is within the range of the negative pressure value It is determined that the ventilation performance of the electronic cigarette is good; otherwise, the ventilation performance of the electronic cigarette is not good.
15. The electronic cigarette performance testing method according to claim 14, wherein the ventilation performance detection further comprises the step S104: the control module (50) The control prompting module issues a third prompt signal when it is determined that the ventilation performance of the electronic cigarette is not good.
16. The electronic cigarette performance testing method according to claim 1, wherein in the step S202 The control module (50) when the pull value is greater than or equal to the preset value Determining that the anti-pull performance of the electronic cigarette is qualified, and controlling the prompting module to issue a first prompting signal; when the pulling force value is greater than zero and less than the preset value, the control module (50) And determining that the anti-pull performance of the electronic cigarette is unsatisfactory, and controlling the prompting module to issue a second prompt signal.
17. The electronic cigarette performance testing method according to claim 16, wherein the anti-pull performance detection further comprises the following step S200: the control module ( 50) controlling the driving mechanism (80) to apply a distance to the electronic cigarette along the axial direction of the electronic cigarette away from the first clamping mechanism (10) The pulling force, and controlling the pulling force value from small to large.
18. The electronic cigarette performance testing method according to claim 17, wherein the tensile performance detection further comprises the following steps:

    S203, the control module (50) controls the first clamping mechanism (10) and the second clamping mechanism of the driving mechanism (80) (81) ) Release the clamped electronic cigarette.