WO2016000135A1 - 电子烟性能测试装置以及电子烟性能测试方法 - Google Patents
电子烟性能测试装置以及电子烟性能测试方法 Download PDFInfo
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- WO2016000135A1 WO2016000135A1 PCT/CN2014/081175 CN2014081175W WO2016000135A1 WO 2016000135 A1 WO2016000135 A1 WO 2016000135A1 CN 2014081175 W CN2014081175 W CN 2014081175W WO 2016000135 A1 WO2016000135 A1 WO 2016000135A1
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- electronic cigarette
- control module
- performance
- negative pressure
- clamping mechanism
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N3/00—Investigating strength properties of solid materials by application of mechanical stress
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N7/00—Analysing materials by measuring the pressure or volume of a gas or vapour
Definitions
- 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.
- Sensitivity performance which is expressed by the smokers who need to turn on the ignition of electronic cigarettes during smoking
- 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;
- battery life generally the longer the battery is used, the better the performance of electronic cigarette ;
- 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.
- 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.
- 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
- the control module determines a ventilation performance of the electronic cigarette according to the negative pressure value
- 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.
- 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.
- 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
- control module controls the first clamping mechanism and the second clamping mechanism to release the clamped electronic cigarette after determining the tensile resistance.
- 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.
- 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.
- 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 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.
- 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 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.
- the first pneumatic finger and the second pneumatic finger each include a rigid finger and an elastic sleeve sleeved on the rigid finger.
- 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:
- control module controls the inhalation mechanism to inhale from the smoking end of the electronic cigarette to simulate a smoking action
- a negative pressure detector detects a negative pressure value in the intake pipe
- 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:
- 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;
- the control module determines the pull resistance of the electronic cigarette according to the tensile value.
- the step S103 includes the following sub-steps:
- control module determines that the ventilation performance of the electronic cigarette is good; otherwise, the ventilation performance of the electronic cigarette is not good.
- 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.
- 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.
- 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.
- the tensile performance test further includes the following steps:
- the control module controls the first clamping mechanism and the second clamping mechanism of the driving mechanism to release the clamped electronic cigarette.
- 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.
- 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.
- FIG. 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;
- FIG. 3 is a block diagram showing the working principle of the electronic cigarette performance detecting device in the second embodiment of the present invention.
- FIG. 4 is a block diagram showing the operation of the electronic cigarette performance detecting apparatus in a preferred embodiment of the present invention.
- FIG. 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.
- the negative pressure detector 40 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.
- 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
- 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.
- 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.
- 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.
- 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.
- 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.
- 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 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.
- 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.
- the base 90 is provided with a slide rail 91.
- the first pneumatic finger 11 of the first clamping mechanism 10 and the first cylinder 12 are provided with a sliding slot
- 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.
- the sliding connection between the first clamping mechanism 10 and the base 90 can also be achieved by other means.
- the sliding rail 91 has a dovetail mechanism with a large and small cross section
- 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.
- 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.
- the driving mechanism 80 is used to apply a pulling force to the electronic cigarette 100
- 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.
- 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 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.
- 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.
- the second pneumatic finger 811 is synchronized with the first pneumatic finger 11 , which is of course not limited thereto.
- 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.
- 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.
- 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:
- control module 50 controls the suction mechanism 30 to inhale from the smoking end of the electronic cigarette 100 to simulate a smoking action
- 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;
- 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:
- 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.
- step S103 comprises the following sub-steps:
- a range of negative pressure values is preset in the control module 50;
- 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.
- the ventilation performance detection further includes a step S104 after the step S103: the control module 50 determines the electronic cigarette 100
- the control prompt module sends a third prompt signal.
- the third prompt signal may be a sound signal or a light signal.
- the control module 50 The results of each ventilation performance are also counted and saved.
- 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.
- 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.
- 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.
- 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.
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Abstract
一种电子烟性能测试装置及电子烟性能测试方法,该电子烟性能测试装置包括:第一夹持机构(10)、拉力传感器(20)、吸气机构(30)、负压检测仪(40)、控制模块(50)以及底座(90);第一夹持机构(10)可相对底座(90)沿着被夹持的电子烟(100)的轴向滑动地设置于底座(90)上,拉力传感器(20)通过拉杆(21)与第一夹持机构(10)连接,吸气机构(30)通过进气管(31)与电子烟(100)的吸烟端连通,负压检测仪(40)通过进气分管(41)与进气管(31)连通;所述吸气机构(30)用于从吸烟端吸气,负压检测仪(40)用于检测所述进气管(31)中的负压值,控制模块(50)根据负压值判断电子烟(100)的通气性能;拉力传感器(20)用于检测沿着电子烟(100)的轴向施加给所述电子烟(100)的拉力,控制模块(50)还用于根据所述拉力值判断所述电子烟(100)的抗拉扯性能。具有测试结果准确、工作效率高的有益效果。
Description
本发明涉及电子烟测试领域,具体涉及一种电子烟性能测试装置以及电子烟性能测试方法。
电子烟作为香烟的替代,对其性能的评价主要集中在以下几个发明: 1
)灵敏度性能,表现为吸烟者在吸烟中开启点燃电子烟所需要的力度; 2
)通气和憋气性能,表现为吸烟者在吸烟过程中吸气的轻重,具体为吸烟者在吸电子烟时感觉吸气顺畅与否,一般而言,好的电子烟吸气比较顺畅,与吸真烟的感觉比较接近; 3
)烟雾量,每口吸到的烟雾量是否足够,一般来说,好的电子烟烟雾量感觉更大一些; 4 )电池寿命,一般来说电池用的时间越长的,电子烟性能越好; 5
)雾化器寿命,质量较差的电子烟产品雾化器非常容易损坏,雾化器的寿命越长,电子烟的性能越好; 5
)烟弹的容量,一般来说指烟弹容量大的,电子烟的性能越好。现有技术中,电子烟的性能测试,如通气性能、烟雾流通性能、雾化性能等都是采用人工口吸来进行测试的。
现有的电子烟是由两大部分组成,电池杆部分和雾化器部分,而且一般的电子烟其两部分之间都是通过螺纹等方式连接在一起,其连接的牢固程度以及是否经得起拉扯都没有严格的检测标准,容易造成后期在客户使用过程中很容易就拉断电子烟的情况发生,有损用户体验和产品形象。
现有技术存在缺陷,亟需改进。
本发明要解决的技术问题在于,针对现有技术的上述缺陷,提供电子烟性能测试装置以及电子烟性能测试方法。
本发明解决其技术问题所采用的技术方案是:构造一种电子烟性能测试装置,包括
:用于夹持电子烟的第一夹持机构、拉力传感器、吸气机构、 负压检测仪、控制模块以及底座;
所述第一夹持机构用于夹持电子烟并可相对所述底座沿着被夹持的电子烟的轴向滑动地设置于所述底座上,所述拉力传感器固定设置于所述底座上并通过拉杆与所述第一夹持机构连接,所述吸气机构)通过进气管与所述电子烟的吸烟端连通,所述负压检测仪通过进气分管与所述进气管连通;
所述吸气机构用于从所述吸烟端吸气以模拟吸烟动作,所述负压检测仪用于检测所述进气管中的负压值并将所述负压值发送给所述控制模块,所述控制模块根据所述负压值判断所述电子烟的通气性能;所述拉力传感器用于检测沿着所述电子烟的轴向施加给所述电子烟的拉力的拉力值,所述控制模块还用于在判断完通气性能之后根据所述拉力值判断所述电子烟的抗拉扯性能。
在本发明提供的电子烟性能测试装置中,还包括用于夹持所述电子烟的另一端并给所述电子烟施加一个沿着所述电子烟的轴向远离所述第一夹持机构的拉力的驱动机构,所述驱动机构与所述控制模块通信连接,所述控制模块还用于控制所述驱动机构的启闭以及所述拉力值的大小。
在本发明提供的电子烟性能测试装置中,
所述驱动机构包括第二夹持机构以及第三气缸;所述第二夹持机构可沿着所述电子烟的轴向相对于所述底座滑动地设置于所述底座上,所述第三气缸固定设置于所述底座上;
所述第三气缸设置有气缸拉杆以及用于控制所述第三气缸的进气与出气的第三电磁阀,所述第三电磁阀与所述控制模块电连接,所述气缸拉杆与所述第二夹持机构连接以驱动所述第二夹持机构
。
在本发明提供的电子烟性能测试装置中,所述控制模块在判断完抗拉扯性能之后控制所述第一夹持机构和所述第二夹持机构松开夹紧的电子烟。
在本发明提供的电子烟性能测试装置中,所述第二夹持机构包括用于夹持所述电子烟的第二气动手指、用于驱动所述第二气动手指张开与闭合的第二气缸以及用于控制所述第二气缸的进气与出气的第二电磁阀,所述第二电磁阀与所述控制模块电连接。
在本发明提供的电子烟性能测试装置中,还包括用于夹持所述吸烟端的弹性容置件,所述弹性容置件安装于所述第一夹持机构中,所述弹性容置件与所述进气管连通。
在本发明提供的电子烟性能测试装置中,所述第一夹持机构包括用于夹持所述电子烟的第一气动手指、用于驱动所述第一气动手指张开与闭合的第一气缸以及用于控制所述第一气缸的进气与出气的第一电磁阀,所述第一电磁阀与所述控制模块电连接。
在本发明提供的电子烟性能测试装置中,还包括与所述控制模块电连接的提示装置,所述控制模块在所述拉力值大于或等于预设值时判定所述电子烟的抗拉扯性能合格并控制所述提示装置发出第一提示信号,所述控制模块在所述拉力值由大于零且小于所述预设值下降为零时判定所述电子烟的抗拉扯性能不合格并控制所述提示装置发出第二提示信号。
在本发明提供的电子烟性能测试装置中,所述控制模块在所述负压值位于预设的负压值范围之外时判定所述通气性能不合格并控制所述提示装置发出第三提示信号。
在本发明提供的电子烟性能测试装置中,还包括与所述控制模块电连接的开关,所述开关用于发生第一触发信号给所述控制模块,所述控制模块根据所述第一触发信号控制所述第一电磁阀进而控制所述第一气动手指以及所述第二气动手指的张开与闭合。
在本发明提供的电子烟性能测试装置中,所述第一气动手指以及所述第二气动手指均包括刚性手指以及套设于所述刚性手指上的弹性套。
在本发明提供的电子烟性能测试装置中,所述吸气机构为真空发生器。
本发明还提供了一种电子烟性能测试方法,包括通气性能检测和抗拉扯性能检测;
所述通气性能检测包括以下步骤:
S101 、控制模块控制吸气机构从电子烟的吸烟端吸气以模拟吸烟动作;
S102 、负压检测仪检测进气管中的负压值;
S103 、所述控制模块根据所述负压值判断所述电子烟的通气性能;
所述抗拉扯性能检测包括以下步骤:
S201 、拉力传感器检测沿着所述电子烟的轴向施加于所述电子烟上的拉力的拉力值;
S202 、所述控制模块根据所述拉力值判断所述电子烟的抗拉扯性能。
在本发明提供的电子烟性能测试方法中,所述步骤 S103 包括以下子步骤:
在所述控制模块中预先设置负压值范围;
在所述负压值位于所述负压值范围之内时,所述控制模块判定所述电子烟的通气性能良好;反之,则所述电子烟的通气性能不好。
在本发明提供的电子烟性能测试方法中,所述通气性能检测还包括步骤 S104
:所述控制模块在判定所述电子烟的通气性能不好时控制提示模块发出第三提示信号。
在本发明提供的电子烟性能测试方法中,在所述步骤 S202
中,所述拉力值大于或等于所述预设值时,所述控制模块判定所述电子烟的抗拉扯性能合格,并控制提示模块发出第一提示信号;所述拉力值由大于零且小于所述预设值下降为零时,所述控制模块判定所述电子烟的抗拉扯性能不合格,并控制所述提示模块发出第二提示信号。
在本发明提供的电子烟性能测试方法中,所述抗拉扯性能检测还包括以下步骤 S200
:所述控制模块控制所述驱动机构对所述电子烟施加一个沿着所述电子烟的轴向远离所述第一夹持机构的拉力,并控制所述拉力值由小变大。
在本发明提供的电子烟性能测试方法中,抗拉扯性能检测还包括以下步骤:
S203 、所述控制模块控制所述第一夹持机构以及所述驱动机构的第二夹持机构松开夹紧的电子烟。
实施本发明的电子烟性能测试装置以及电子烟性能测试方法,具有以下有益效果:
本发明的电子烟性能测试装置及方法中,通过设置负压检测仪对抽烟时电子烟的负压值进行检测,并通过控制模块对检测到的负压值进行判断,从而直接用试验数据表征电子烟的通气性能,通过设置拉力传感器对施加于电子烟上的拉力的拉力值进行检测,并通过控制模块对检测到的拉力值来判断电子烟的抗拉扯性能;因此,测试结果准确、工作效率高,所述第一夹持机构通过滑槽与滑轨的配合实现与底座的滑动连接,其可以防止该第一夹持机构沿着与电子烟的轴向倾斜的方向滑动从而折断该电子烟或者拉力测试不准确;而且该测试装置及方法对于所有的电子烟而言具有重复性,因此可用于批量测试电子烟。
下面将结合附图及实施例对本发明作进一步说明,附图中:
图 1 是本发明第一实施例中的电子烟性能检测装置的工作原理框图;
图2是图1所示实施例中的底座的剖视图;
图 3 是本发明第二实施例中的电子烟性能检测装置的工作原理框图;
图 4 是本发明一优选实施例中的电子烟性能检测装置的工作原理框图。
为了对本发明的技术特征、目的和效果有更加清楚的理解,现对照附图详细说明本发明的具体实施方式。
图1示出了本发明第一实施例中的电子烟性能检测装置,包括:用于夹持电子烟的第一夹持机构10、用于检测拉力的拉力传感器20、吸气机构30、 负压检测仪 40
、控制模块 50 以及底座 90 ;
第一夹持机构 10 用于夹持电子烟 100 并可相对底座 90 沿着被夹持的电子烟 100
的轴向滑动地设置于底座 90 上,拉力传感器 20 固定设置于底座 90 上并通过拉杆 21 与第一夹持机构 10 连接,吸气机构 30 通过进气管 31
与电子烟 100 的吸烟端连通,负压检测仪 40 通过进气分管 41 与进气管 31 连通;另外吸气机构 30 、负压检测仪 40 、控制模块 50
均设置于底座 90 上。
吸气机构30用于从吸烟端吸气以模拟吸烟动作,负压检测仪40用于检测进气管31中的负压值并将负压值发送给控制模块50,控制模块50根据负压值判断电子烟100的通气性能;拉力传感器20用于检测沿着电子烟100的轴向施加给所述电子烟100的拉力的拉力值,控制模块50还用于在判断完通气性能之后根据拉力值判断电子烟100的抗拉扯性能。
在依据本发明的电子烟性能测试装置,通过设置负压检测仪40对抽烟时电子烟100的负压值进行检测,并通过控制模块50对检测到的负压值进行判断,从而直接用试验数据表征电子烟100的通气性能;通过拉力传感器20检测施加于电子烟100上的拉力的拉力值,并通过控制模块50对检测到的拉力值进行判断,从而用试验数据表征电子烟100的抗拉扯能力;因此测试结果准确、工作效率高;而且该电子烟性能测试装置对于有的电子烟而言具有重复性,因此可用于批量测试电子烟。
具体地,该电子烟性能测试装置还包括用于容纳电子烟100的吸烟端的弹性容置件60、开关70以及用于产生提示信号的提示装置(未示出)。
该第一夹持机构10包括用于夹持电子烟100的第一气动手指11、用于驱动第一气动手指11张开与闭合的第一气缸12以及用于控制第一气缸12的进气与出气的第一电磁阀(未示出),第一电磁阀与控制模块50电连接。控制模块50通过控制该第一电磁阀的导通与截止以控制该第一气缸12的进气与出气,进而控制该第一气动手指11张开或关闭。当控制模块50判断完电子烟100的抗拉扯性能之后,控制第一夹持机构10松开夹紧的电子烟100
。由于采用了气缸驱动的气动手指来夹持电子烟100,在由松夹紧的过程中,夹持力比较均匀缓和及富有弹性,可以防止非弹性地夹紧从而导致电子烟100被夹坏。
该提示装置与控制模块40电连接,其可以为声音提示装置或灯光提示装置。当控制模块50在拉力值大于或等于预设值时判定电子烟的抗拉扯性能合格并控制提示装置发出第一提示信号,控制模块50在拉力值由大于零且小于预设值下降为零时判定电子烟的抗拉扯性能不合格并控制提示装置发出第二提示信号。控制模块50在负压值位于预设的负压值范围之外时判定通气性能不合格并控制提示装置发出第三提示信号。该控制模块50可以为单片机、微处理器等。
由于电子烟100在拉扯的过程中断裂时,拉力值会由某一大于零且小于预设值的临界值降低为零。该控制模块40还统计所有不合格电子烟100的临界值,便于技术人员查找出现抗拉扯能力不合格的原因。
该吸气装置30可以采用真空发生器,也可以采用其他常见的吸气设备,例如,打气筒等。
该弹性容置件60大致呈圆筒状,采用弹性材料制成,该弹性容置件60可以防止吸气机构30吸气时在进气管31与吸烟端之间出现漏气。
该开关70用于发送第一触发信号给控制模块50,控制模块50根据该第一控制第一夹持机构10的第一电磁阀以及第二夹持机构81的第二电磁阀的导通与截止,进而控制该第一气动手指11和第二气动手指811的张开与闭合。该开关70还用于发送第二触发信号给控制模块50,控制模块50根据该第二触发信号控制第一气动手指11张开与闭合。在检测完之后,可以通过开关70发送第二触发信号给控制模块50以将第一气动手指11张开。当然可以理解地,也可以为当控制模块50判定电子烟100的抗拉扯性能合格或不合格时,自动控制第一气动手指11开,以便于工作人员将电子烟100取下来。
如图2所示,该底座90上设置有滑轨91,对应地,第一夹持机构10的第一气动手指11以及第一气缸12设置有滑槽,该第一气缸12的底部设置有滑槽(未示出),该第一夹持机构10通过滑槽与滑轨91的配合实现与底座90的滑动连接。其可以防止该第一夹持机构10沿着与电子烟100的轴向倾斜的方向滑动从而折断该电子烟100或者拉力测试不准确。当然,还可通过其他方式来实现第一夹持机构10与底座90之间的滑动连接。优选地,该滑轨91的横截面呈上大下小的燕尾机构,该滑槽呈与该滑轨91适配的燕尾机构,可以防止第一夹持机构10与该底座90之间分离。
图3示出了本发明第二实施例中的电子烟性能检测装置,在第一实施例的基础上,该电子烟性能检测装置还包括用于夹持电子烟100的另一端并给电子烟100施加一个沿着电子烟100的轴向远离第一夹持机构10的拉力的驱动机构80。驱动机构80与控制模块50通信连接,控制模块50还用于控制驱动机构80的启闭以及拉力值的大小。相对于手段对电子烟100施加拉力,本实施例中采用驱动机构80来对电子烟100施加拉力,操作更加智能快捷,不用过多的人工操作,并且可以防止该拉力与电子烟100不在同一直线上而容易造成电子烟100折断的情况发生,使得测试不精准。并且,控制模块50控制驱动机构80对电子烟100施加的拉力逐渐上升,有利于检测到电子烟100断裂时的临界值。
具体地,驱动机构80包括用于夹持电子烟100的第二夹持机构81以及用于驱动第二夹持机构81沿着电子烟100的轴向滑动的第三气缸82。当然,可以理解地,该驱动机构80并不限于此,其他常见的驱动装置,例如电机驱动等均处于本发明的保护范围之内。
第三气缸82设置有气缸拉杆以及用于控制第三气缸82的进气与出气的第三电磁阀(未示出),第三电磁阀与控制模块50电连接,第二夹持机构81固定设置于气缸拉杆上。控制模块50通过控制第三电磁阀的导通与截止以控制该气缸拉杆是否对电子烟100施加拉力,并通过控制第三电磁阀导通的时间控制进入第三气缸82中的气体量,进而控制该拉力值的大小。由于通过第三气缸82来驱动第二夹持机构81对电子烟100施加拉力,可以使得该拉力是平缓地由小变大,可以保护该电子烟100,并且可以使得拉力传感器20检测到的拉力值更加准确,便于该拉力传感器20检测到不合格的电子烟100断裂时的临界值。
第二夹持机构81包括用于夹持电子烟100的第二气动手指811、用于驱动第二气动手指811张开与闭合的第二气缸812以及用于控制第二气缸812的进气与出气的第二电磁阀(未示出),第二电磁阀与控制模块50电连接。
该控制模块50通过控制该第二电磁阀的导通与截止以控制该第二气动手指811的张开与闭合。第二夹持机构81的第二气缸812的底部也设置有与底座90上的滑轨91适配的滑槽,以实现第二夹持机构81可相对于底座90沿着电子烟100的轴向可滑动。该第一夹持机构10和第二夹持机构81均沿着滑轨91滑动可以保证第二夹持机构81对电子烟100施加的拉力是沿着电子烟100的中心轴线的。其提高了拉力检测的精确性,还可以防止电子烟100被倾斜于电子烟100的轴线的拉力折断。
在本实施例中,该第二气动手指811与第一气动手指11同步动作,当然不限于此。当控制模块50判断完通气性能之后,发出控制信号给驱动单元80的第三气缸82上第三电磁阀,使得该第三电磁阀打开,对该第三气缸82充气,使得第三气缸82驱动第二夹持机构81对电子烟100施加拉力。
优选地, 所述第一气动手指 11 以及所述第二气动手指 811
均包括刚性手指以及套设于所述刚性手指上的弹性套。该弹性套使得对于电子烟 100 的夹持得更紧,并且具有防滑功能。
如图4所示,本发明还提供了一种电子烟性能检测方法, 包括通气性能检测和抗拉扯性能检测;
通气性能检测包括以下步骤:
S101 、控制模块 50 控制吸气机构 30 从电子烟 100 的吸烟端吸气以模拟吸烟动作;
S102 、负压检测仪 40 检测进气管 31 中的负压值,并将该负压值发送给控制模块 50 ;
S103 、控制模块 50 根据负压值判断电子烟 100 的通气性能;
抗拉扯性能检测包括以下步骤:
S201 、拉力传感器 20 检测沿着电子烟的轴向施加于电子烟 100
上的拉力的拉力值,并将该拉力值发送给控制模块 50 ;
S202 、控制模块 50 根据拉力值判断电子烟的抗拉扯性能。
优选地,步骤 S103 包括以下子步骤:
在控制模块 50 中预先设置负压值范围;
在负压值位于负压值范围之内时,控制模块 50 判定电子烟 100 的通气性能良好;反之,则电子烟 100
的通气性能不好。
进一步地,通气性能检测还包括位于步骤 S103 之后的步骤 S104 :控制模块 50 在判定电子烟
100
的通气性能不好时控制提示模块发出第三提示信号。该第三提示信号可以是声音信号也可以是灯光信号。为了便于技术人员研究通气性能不合格的影响因素以及计算合格率,该控制模块
50 还对每一次通气性能的检测结果进行统计并保存。
优选地,步骤 S202 中,拉力值大于或等于预设值时,控制模块 50 判定电子烟 100
的抗拉扯性能合格,并控制提示模块发出第一提示信号;拉力值由大于零且小于预设值下降为零时,控制模块 50 判定电子烟 100
的抗拉扯性能不合格,并控制提示模块发出第二提示信号;由于电子烟 100 断裂时,
拉力值会由某一大于零且小于预设值的临界值降低为零。该控制模块40还统计所有不合格电子烟100的临界值,便于技术人员查找出现抗拉扯能力不合格的原因。
优选地,抗拉扯性能检测还包括位于步骤 S201 之前的步骤 S200 :控制模块 50 控制驱动机构 80
对电子烟 100 施加一个沿着电子烟 100 的轴向远离第一夹持机构 10 的拉力,并控制拉力值由小变大。在本实施例中,驱动机构 80 包括
用于夹持电子烟100的第二夹持机构81以及用于驱动第二夹持机构81沿着电子烟100的轴向滑动的第三气缸82。第三气缸82设置有气缸拉杆以及用于控制第三气缸82的进气与出气的第三电磁阀(未示出),第三电磁阀与控制模块50电连接,第二夹持机构81固定设置于气缸拉杆上。因此,可以通过持续往第三气缸82中进气,以使得该气缸拉杆施通过第二夹持机构81施加给电子烟100的拉力持续增加,拉力值以一个较为均匀的速度上升。
优选地, 抗拉扯性能检测还包括位于步骤 S202 之后的步骤 S203 :控制模块 50 控制第一夹持机构
10 以及驱动机构 80 的第二夹持机构 81 松开被夹紧的电子烟 100 。
上面结合附图对本发明的实施例进行了描述,但是本发明并不局限于上述的具体实施方式,上述的具体实施方式仅仅是示意性的,而不是限制性的,本领域的普通技术人员在本发明的启示下,在不脱离本发明宗旨和权利要求所保护的范围情况下,还可做出很多形式,这些均属于本发明的保护之内。
Claims (18)
- 一种电子烟性能测试装置,其特征在于,包括:用于夹持电子烟的第一夹持机构(10)、拉力传感器(20)、吸气机构(30)、 负压检测仪( 40 )、控制模块( 50 )以及底座( 90 );所述第一夹持机构( 10 )用于夹持电子烟并可相对所述底座( 90 )沿着被夹持的电子烟的轴向滑动地设置于所述底座( 90 )上,所述拉力传感器( 20 )固定设置于所述底座( 90 )上并通过拉杆( 21 )与所述第一夹持机构( 10 )连接,所述吸气机构( 30 )通过进气管( 31 )与所述电子烟的吸烟端连通,所述负压检测仪( 40 )通过进气分管( 41 )与所述进气管( 31 )连通;所述吸气机构(30)用于从所述吸烟端吸气以模拟吸烟动作,所述负压检测仪(40)用于检测所述进气管(31)中的负压值并将所述负压值发送给所述控制模块(50),所述控制模块(50)根据所述负压值判断所述电子烟的通气性能;所述拉力传感器(20)用于检测沿着所述电子烟的轴向施加给所述电子烟拉力的拉力值,所述控制模块(50)还用于在判断完通气性能之后根据所述拉力值判断所述电子烟的抗拉扯性能。
- 根据权利要求 1 所述的 电子烟性能测试装置,其特征在于,还包括用于夹持所述电子烟的另一端并给所述电子烟施加一个沿着所述电子烟的轴向远离所述第一夹持机构(10)的拉力的驱动机构(80),所述驱动机构(80)与所述控制模块(50)通信连接,所述控制模块(50)还用于控制所述驱动机构(80)的启闭以及所述拉力值的大小。
- 根据权利要求 2 所述的 电子烟性能测试装置,其特征在于,所述驱动机构(80)包括第二夹持机构(81)以及第三气缸(82);所述第二夹持机构(81)可沿着所述电子烟的轴向相对于所述底座(90)滑动地设置于所述底座(90)上,所述第三气缸(82)固定设置于所述底座(90)上;所述第三气缸(82)设置有气缸拉杆以及用于控制所述第三气缸(82)的进气与出气的第三电磁阀,所述第三电磁阀与所述控制模块(50)电连接,所述气缸拉杆与所述第二夹持机构(81)连接以驱动所述第二夹持机构(81)。
- 根据权利要求 3 所述的 电子烟性能测试装置,其特征在于,所述控制模块(50)在判断完抗拉扯性能之后控制所述第一夹持机构(10)和所述第二夹持机构(82)松开被夹紧的电子烟。
- 根据权利要求4所述的电子烟性能测试装置,其特征在于,所述第二夹持机构(81)包括用于夹持所述电子烟的第二气动手指(811)、用于驱动所述第二气动手指(811)张开与闭合的第二气缸(812)以及用于控制所述第二气缸(812)的进气与出气的第二电磁阀,所述第二电磁阀与所述控制模块(50)电连接。
- 根据 权利要求 5 所述的 电子烟性能测试装置,其特征在于,还包括用于夹持所述吸烟端的弹性容置件(60),所述弹性容置件(60)安装于所述第一夹持机构(10)中,所述弹性容置件(60)与所述进气管(31)连通。
- 根据权利要求6所述的电子烟性能测试装置,其特征在于,所述第一夹持机构(10)包括用于夹持所述电子烟的第一气动手指(11)、用于驱动所述第一气动手指(11)张开与闭合的第一气缸(12)以及用于控制所述第一气缸(12)的进气与出气的第一电磁阀,所述第一电磁阀与所述控制模块(50)电连接。
- 根据权利要求 7 所述的 电子烟性能测试装置,其特征在于,还包括与所述控制模块(50)电连接的提示装置,所述控制模块(50)用于在所述拉力值大于或等于预设值时判定所述电子烟的抗拉扯性能合格并控制所述提示装置发出第一提示信号,所述控制模块(50)还用于在所述拉力值由大于零且小于所述预设值下降为零时判定所述电子烟的抗拉扯性能不合格并控制所述提示装置发出第二提示信号。
- 根据权利要求8所述的电子烟性能测试装置,其特征在于,所述控制模块(50)还用于在所述负压值位于预设的负压值范围之外时判定所述通气性能不合格并控制所述提示装置发出第三提示信号。
- 根据权利要求9所述的电子烟性能测试装置,其特征在于,还包括与所述控制模块(50)电连接的开关(70),所述开关(70)用于发送第一触发信号给所述控制模块(50),所述控制模块(50)还用于根据所述触发信号控制所述第一电磁阀进而控制所述第一气动手指(11)以及所述第二气动手指(811)的张开与闭合。
- 根据权利要求10所述的电子烟性能测试装置,其特征在于,所述第一气动手指(11)以及所述第二气动手指(12)均包括刚性手指以及套设于所述刚性手指上的弹性套。
- 根据权利要求1所述的电子烟性能测试装置,其特征在于,所述吸气机构(30)为真空发生器。
- 一种电子烟性能测试方法,其特征在于,包括通气性能检测和抗拉扯性能检测;所述通气性能检测包括以下步骤:S101 、控制模块( 50 )控制吸气机构( 30 )从电子烟的吸烟端吸气以模拟吸烟动作;S102 、负压检测仪( 40 )检测进气管( 31 )中的负压值,并将所述负压值发送给所述控制模块( 50 );S103 、所述控制模块( 50 )根据所述负压值判断所述电子烟的通气性能;所述抗拉扯性能检测包括以下步骤:S201 、拉力传感器( 20 )检测沿着所述电子烟的轴向施加于所述电子烟上拉力的拉力值,并将所述拉力值发送给所述控制模块( 50 );S202 、所述控制模块( 50 )根据所述拉力值判断所述电子烟的抗拉扯性能。
- 根据权利要求 13 所述的电子烟性能测试方法,其特征在于,所述步骤 S103 包括以下子步骤:在所述控制模块( 50 )中预先设置负压值范围;在所述负压值位于所述负压值范围之内时,所述控制模块( 50 )判定所述电子烟的通气性能良好;反之,则所述电子烟的通气性能不好。
- 根据权利要求 14 所述的电子烟性能测试方法,其特征在于,所述通气性能检测还包括步骤 S104 :所述控制模块( 50 )在判定所述电子烟的通气性能不好时控制提示模块发出第三提示信号。
- 根据权利要求 1 所述的电子烟性能测试方法,其特征在于,在所述步骤 S202 中,所述拉力值大于或等于所述预设值时,所述控制模块( 50 )判定所述电子烟的抗拉扯性能合格,并控制提示模块发出第一提示信号;所述拉力值由大于零且小于所述预设值下降为零时,所述控制模块( 50 )判定所述电子烟的抗拉扯性能不合格,并控制所述提示模块发出第二提示信号。
- 根据权利要求 16 所述的电子烟性能测试方法,其特征在于,所述抗拉扯性能检测还包括以下步骤 S200 :所述控制模块( 50 )控制所述驱动机构( 80 )对所述电子烟施加一个沿着所述电子烟的轴向远离所述第一夹持机构( 10 )的拉力,并控制所述拉力值由小变大。
- 根据权利要求 17 所述的电子烟性能测试方法,其特征在于,抗拉扯性能检测还包括以下步骤:S203 、所述控制模块( 50 )控制所述第一夹持机构( 10 )以及所述驱动机构( 80 )的第二夹持机构( 81 )松开夹紧的电子烟。
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