CN106455702A

CN106455702A - Electronic cigarette performance testing device and testing method

Info

Publication number: CN106455702A
Application number: CN201480080304.1A
Authority: CN
Inventors: 刘秋明
Original assignee: Individual
Current assignee: Kimree Technology Co Ltd
Priority date: 2014-08-05
Filing date: 2014-08-05
Publication date: 2017-02-22
Also published as: WO2016019508A1

Abstract

The utility model provides an electron cigarette performance detection device and test method for detect the performance of atomizing subassembly in the electron cigarette, electron cigarette performance detection device is including being used for fixing atomizing subassembly and eliminating glue among the heating wire assembly remove gluey mechanism (20), be used for the drive remove drive power supply (23) of gluey mechanism and be used for detecting resistance detector (22) of the resistance value of heating wire assembly, resistance detector (22) electricity respectively connect to remove gluey mechanism (20) and drive power supply (23). By using the detection device and the test method, the glue in the glass fiber bundle (12) can be effectively eliminated before the electronic cigarette leaves a factory so as to improve the taste of the electronic cigarette and detect the performance of the atomization component so as to improve the yield of the electronic cigarette.

Description

Electronic cigarette performance detection device and test method

Technical Field

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

Background

As a substitute for cigarette, the evaluation of the performance of electronic cigarette is mainly focused on the following aspects: 1) sensitivity performance, which is expressed as the force required by a smoker to open and ignite the electronic cigarette during smoking; 2) the ventilation and breath holding performance is characterized in that a smoker can inhale the electronic cigarette smoothly or not in the smoking process, and generally, good electronic cigarette inhales smoothly and is close to the feeling of smoking the real cigarette; 3) the amount of smoke, whether the amount of smoke inhaled per mouth is sufficient, generally speaking, the amount of good e-cigarette smoke feels larger; 4) battery life, generally the longer the battery spends, the better the electronic cigarette performance; 5) the performance of the atomization component is poor, the atomization component of the electronic cigarette product with poor quality can seriously affect the smoking taste, and the performance of the electronic cigarette is also poor; 5) the capacity of the cartridge is generally referred to as the large capacity of the cartridge, and the better the performance of the electronic cigarette.

In the prior art, in the use process of the electronic cigarette, the smoking experience of a user is greatly influenced by the performance of the atomizing component. The performance of the atomizing component of the electronic cigarette is closely related to the glass fiber bundle used to conduct the oil to atomize the heating wire. Glass fiber bundle contains glue mostly for keeping the hardness of an application and is used for preventing the dispersion of glass fiber line, but glue among the glass fiber line can be heated and sublimated when the atomized tobacco tar of electron smog, and glue has peculiar smell and harmful health, if is inhaled by the customer, will cause certain injury, also impairs customer experience. In the prior art, an instrument which can eliminate the defects of poor taste and easy damage caused by glue before the electronic cigarette leaves a factory does not exist.

Disclosure of Invention

In view of the above defects, the present invention provides an apparatus and a method for testing performance of an electronic cigarette, which can eliminate glue in glass fiber bundles before the electronic cigarette leaves a factory and test performance of an atomization component.

The invention provides an electronic cigarette performance detection device, which is used for detecting the performance of an atomization assembly in an electronic cigarette, wherein the atomization assembly comprises a heating wire assembly used for atomizing cigarette oil, the detection device comprises a glue removing mechanism used for fixing and clamping the atomization assembly and removing glue in the heating wire assembly, a driving power supply used for driving the glue removing mechanism, and a resistance detector used for detecting the resistance value of the heating wire assembly, and the resistance detector is electrically connected to the glue removing mechanism and the driving power supply;

the glue removing mechanism comprises a base and a clamping plate which is opposite to the base, is used for clamping the atomizing assembly and can move along the direction close to or far away from the base; the glue removing mechanism further comprises an air cylinder for driving the clamping plate to move; the base comprises a first electrode plate and a second electrode plate which are respectively arranged corresponding to two ends of the electric heating wire assembly, and the first electrode plate and the second electrode plate are respectively connected to the driving power supply; during detection, one end of the heating wire assembly is clamped between the first electrode plate and the clamping plate, the other end of the heating wire assembly is clamped between the second electrode plate and the clamping plate, a driving power supply is electrically connected with the heating wire assembly through the first electrode plate and the second electrode plate, and the heating wire assembly is powered by the driving power supply to generate heat so as to volatilize glue on the heating wire assembly;

the resistance detector is connected to two ends of the heating wire assembly through the first electrode plate and the second electrode plate respectively so as to detect the resistance value of the heating wire assembly, and whether the heating wire assembly is qualified is judged according to the resistance value of the heating wire assembly.

In the electronic cigarette performance detection device, the glue removing mechanism is internally provided with a timer which is used for limiting the electrifying time of the heating wire assembly so as to control the volatilization of the glue on the heating wire assembly.

In the electronic cigarette performance detection device, the glue removing mechanism further comprises an air inlet hole for sucking air under the power-on condition so that the air cylinder drives the clamping plate to move.

In the electronic cigarette performance detection device, the resistance detector is also connected with a switch for controlling the connection between the glue removing mechanism and the driving power supply and starting the glue removing mechanism.

In the electronic cigarette performance detection device, the resistance detector comprises a display module for displaying the detected resistance value of the heating wire assembly and a prompting device for prompting whether the resistance value of the heating wire assembly is qualified, and when the resistance value of the heating wire assembly is qualified, the resistance detector starts the air cylinder so as to enable the air cylinder to drive the clamping plate to move in the direction away from the base.

In the electronic cigarette performance detection device, the prompt device is an indicator light and/or a buzzer.

In the electronic cigarette performance detection device, the glue removing mechanism further comprises a reset restart button, the reset restart button is used for triggering the air cylinder to act, and the air cylinder provides power for the movement of the clamping plate, so that the clamping plate moves along the direction far away from the base.

In the electronic cigarette performance detection device, the first electrode plate and the second electrode plate are respectively provided with an electromagnet for adsorbing the electric heating wire assembly.

In the electronic cigarette performance detection device of the present invention, the first electrode plate and the second electrode plate are magnetic metal electrode plates for adsorbing the heating wire assembly, respectively.

The invention also provides an electronic cigarette performance testing method, which comprises the following steps:

a clamping step: one end of a heating wire assembly of an atomization assembly is placed on a first electrode plate, the other end of the heating wire assembly is placed on a second electrode, a driving power supply drives an air cylinder, the air cylinder provides power for a clamping plate, the clamping plate moves along the direction close to the heating wire assembly, one end of the heating wire assembly is clamped between the first electrode plate and the clamping plate, the other end of the heating wire assembly is clamped between the second electrode plate and the clamping plate, and the driving power supply is electrically connected with the heating wire assembly;

and (3) glue removing: two ends of the heating wire assembly are respectively connected to the driving power supply through the first electrode plate and the second electrode plate, and the heating wire assembly is powered by the driving power supply to generate heat so as to volatilize the glue on the heating wire assembly;

resistance value testing step: the resistance detector is connected to two ends of the heating wire assembly through the first electrode plate and the second electrode plate respectively, so as to detect the resistance value of the heating wire assembly and judge whether the resistance value of the heating wire assembly is qualified.

In the method for testing the performance of the electronic cigarette, the step of removing the glue further comprises the following steps: and setting preset time through a timer, and limiting the electric heating wire assembly to be electrified within the preset time so as to control the volatilization of the glue on the electric heating wire assembly.

In the method for testing the performance of the electronic cigarette, the clamping step further comprises the following steps:

the connection between the glue removing mechanism and the driving power supply is controlled through a press switch so as to start the glue removing mechanism;

air is sucked in through the air inlet hole under the power-on condition to drive the air cylinder to act, and the air cylinder provides power for the clamping plate and pushes the clamping plate to move along the direction close to the base.

In the method for testing the performance of the electronic cigarette, the resistance value testing step further comprises the following steps:

presetting a qualified resistance range, comparing the detected resistance value of the heating wire assembly with the resistance range to judge whether the resistance value of the heating wire assembly is qualified, and judging that the heating wire assembly is unqualified when the detected resistance value is out of the preset resistance range.

In the method for testing the performance of the electronic cigarette, the qualified resistance value ranges from 3.25 to 3.65 omega.

displaying the detected resistance value of the heating wire assembly through a display module;

whether the resistance value of the heating wire assembly is qualified or not is prompted through a prompting device.

when the resistance value of the heating wire assembly is qualified, the cylinder is triggered by the resistance detector to enable the cylinder to drive the clamping plate to move in the direction far away from the base, so that the heating wire assembly is separated from the clamping plate;

when the resistance value of the heating wire assembly is unqualified, the cylinder is kept at the original position, so that the heating wire assembly is continuously clamped between the clamping plate and the cylinder.

According to the electronic cigarette performance testing method, when the resistance value of the heating wire assembly is unqualified, the air cylinder is triggered by manually pressing the reset restart button, so that the air cylinder drives the clamping plate to move in the direction away from the base.

In the method for testing the performance of the electronic cigarette, electromagnets used for adsorbing the electric heating wire assembly are respectively arranged on the first electrode plate and the second electrode plate.

In the method for testing the performance of the electronic cigarette, the first electrode plate and the second electrode plate are respectively magnetic metal electrode plates for adsorbing the electric heating wire assembly.

The electronic cigarette performance detection device has the beneficial effects that: according to the electronic cigarette performance detection device and method, the two ends of the heating wire assembly are respectively clamped between the electrode plate and the clamping plate and are electrified to enable glue in the heating wire assembly to be heated and evaporated, the risks that smoking taste and health are affected due to the fact that the glue is heated and volatilized in the use process of a subsequent electronic cigarette are eliminated, meanwhile, the resistance value of the heating wire assembly is measured through the resistance detector, whether the heating wire assembly is qualified or not is judged based on the measurement result, and the reject ratio of a subsequent product is reduced.

Meanwhile, in the glue removing mechanism, the clamping action of the clamping plate and the base on the heating wire assembly is controlled through the air cylinder, and the air cylinder is started to enable the clamping plate to be away from the base when the resistance value of the heating wire assembly is detected to be qualified, so that the qualified heating wire assembly can be taken out for classification; and for the heating wire assembly with unqualified resistance value, the clamping plate keeps the original position to keep the heating wire assembly in a clamping state, the air cylinder is triggered by pressing a reset restart button through manual operation to enable the air cylinder to clamp the clamping plate to be far away from the base, and the unqualified heating wire assembly is taken out and classified. Therefore, the situation that qualified heating wire assemblies are mixed with unqualified heating wire assemblies in the detection process can be effectively prevented.

In addition, the electromagnet is arranged on the electrode plate of the base or the magnetic metal electrode plate is adopted, so that in the clamping process of the two ends of the electric heating wire assembly, the two ends of the electric heating wire assembly can be automatically adsorbed on the electrode plate without manual fixation, and the test operation is simpler and more convenient.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a sectional view of a heating wire assembly of the present invention;

figure 2 is a system block diagram of the electronic cigarette performance detection device of the present invention;

figure 3 is a schematic structural diagram of the electronic cigarette performance detecting device shown in figure 2;

fig. 4 is a schematic structural diagram of a glue removing mechanism of the electronic cigarette performance detecting device shown in fig. 3;

fig. 5 is a schematic view illustrating a state in which the heating wire assembly is clamped by the glue removing mechanism shown in fig. 4.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The electronic cigarette performance detection device provided by the invention is suitable for detecting the performance of the atomization component in the electronic cigarette, and is particularly suitable for detecting the performance of the heating wire component of most of the existing electronic cigarettes. As shown in fig. 1, a heating wire assembly suitable for use in the electronic cigarette performance detecting apparatus of the present invention generally includes an atomizing sleeve 10, a glass fiber bundle 12 axially penetrating the atomizing sleeve 10 for conducting tobacco tar, and a heating wire 11 wound around the glass fiber bundle 12, wherein both ends of the heating wire 11 respectively extend outward using electronic wires 13 and are finally respectively connected to a battery assembly of the electronic cigarette so that the battery assembly supplies power to the heating wire 11. It should be understood that the electronic cigarette performance detecting device of the present invention is applicable to any electronic cigarette having the above-mentioned heating wire assembly, and is also applicable to an electronic cigarette having a heating wire assembly with only the glass fiber bundle 12 and the heating wire 11, and therefore, the specific structure of the electronic cigarette is not limited.

As shown in fig. 2, a system block diagram of an electronic cigarette performance detecting apparatus according to a preferred embodiment of the present invention is provided. The electronic cigarette performance detection device comprises a glue removing mechanism 20, a resistance detector 22 and a driving power supply 23 for supplying power to the glue removing mechanism 20 and the resistance detector 22. The glue removing mechanism 20 is used for fixing the heating wire assembly of the atomizing assembly and removing glue in the glass fiber strands 12. The resistance detector 22 is used to detect the resistance value of the heating wire assembly. In addition, in order to facilitate the operation, the switch 21 is further provided in this embodiment, the switch 21 controls the connection of the driving power supply 23 with the glue removing mechanism 20 and the resistance detector 22, and the switch 21 may be a pedal switch, so as to facilitate the operation of the user and improve the production efficiency. In the embodiment shown in fig. 2, the driving power source 23 is connected to the glue removing mechanism 20, and the resistance detector 22 and the switch 21 are respectively connected to the glue removing mechanism 20 to realize respective electrical connection with the driving power source 23. In a preferred embodiment of the present invention, the resistance detector 22 includes a display module (not shown) for displaying the detected resistance value of the heating wire assembly. In addition, the resistance detector 22 may further include a prompting device for prompting whether the resistance value of the heating wire assembly is qualified, so that the prompting device may prompt correspondingly when the resistance value of the heating wire assembly is qualified or unqualified. The prompting device can be, but is not limited to, an indicator light and/or a buzzer. Particularly, when the resistance value of the heating wire assembly is qualified, the resistance detector 22 activates the glue removing mechanism 20 to remove the fixation of the heating wire assembly, thereby facilitating the user to distinguish and classify the qualified and unqualified products.

Referring to fig. 3, a schematic structural diagram of the electronic cigarette performance detecting apparatus of the present embodiment is shown, wherein the driving power supply 23 is a voltage-stabilized power supply, and the output power supply voltage is a standard 3.8V voltage. The output voltage of the driving power supply 23 is output to the glue removing mechanism 20 through a lead and is transmitted to the resistance detector 22 through the glue removing mechanism 20, and the switch 21 for turning on the glue removing mechanism is connected to the resistance detector 22. In order to facilitate the operation, the switch 21 of the present application is a foot switch, and the operation is more convenient without occupying hands.

Fig. 4 is a schematic structural diagram of a glue removing mechanism of the electronic cigarette performance detecting apparatus according to the preferred embodiment of the present invention. In the present embodiment, the glue removing mechanism 20 is substantially rectangular, and includes a base 200, a clamp plate 203 facing the base 200, and a cylinder 202 driving the clamp plate 203 to move in a direction approaching or departing from the base 200. In this embodiment, the glue removing mechanism 20 further includes a supporting portion 207 for supporting the air cylinder, the supporting portion 207 is perpendicular to the base 200, and the supporting portion 207 and the base 200 are integrally formed in this embodiment. The clamping plate 203 is slidably connected below the cylinder 202 and is opposite to the base 200, and the sliding direction of the clamping plate 203 is perpendicular to the base 200. In testing the performance of the heating wire assembly, the clamping plate 203 is movable in the direction of arrow a shown in fig. 5, so that both ends of the heating wire assembly are clamped between the clamping plate 203 and the first and second electrode plates 204a and 204b, respectively. At the end of the detection, the cylinder 202 drives the clamp plate 203 to move in a direction away from the base 200, so that the two ends of the heating wire assembly can be pulled away from the glue removing mechanism 20. The glue removing mechanism 20 further comprises an air inlet hole 201 for drawing air in under the power-on condition to enable the air cylinder to push the clamping plate to move.

As shown in fig. 4, a first electrode plate 204a and a second electrode plate 204b are disposed on the base 200 corresponding to two ends of the heating wire assembly. First electrode plate 204a and second electrode plate 204b are electrically connected to the positive and negative poles of driving power supply 23 shown in fig. 3, respectively. The electron beams 13 at both ends of the heating wire are respectively clamped between the first electrode plate 204 a/the second electrode plate 204b and the clamping plate 203. Accordingly, one end of the heating wire is electrically connected to the first electrode plate 204a, the other end of the heating wire is electrically connected to 204b, and the driving power supply 23 shown in fig. 2 is thereby electrically connected to the heating wire, and further, the driving power supply 23 supplies power to the heating wire to heat the heating wire and volatilize the glue on the glass fiber strand 12. Further, a timer (not shown) is disposed in the glue removing mechanism 20, and the timer controls the volatilization of the glue on the fiberglass fiber bundle 12 by limiting the energization time of the heating wire assembly. In this embodiment, the heating wire assembly is horizontally disposed, but may also be vertically disposed, and is not limited herein.

Meanwhile, the resistance detector 22 shown in fig. 2 is also connected to the glue removing mechanism 20, and the resistance detector 22 is connected to the electronic wire 13 through the first electrode plate 204a and the second electrode plate 204b, respectively, so as to be connected to the heating wire, thereby detecting the resistance value of the heating wire assembly, and determining whether the heating wire assembly is qualified according to the resistance value of the heating wire assembly. Preferably, a qualified resistance range is set in the resistance detector 22, the heating wire assembly is qualified if the detected resistance value of the heating wire assembly falls within the resistance range, and the heating wire assembly is not qualified if the detected resistance value is not within the qualified resistance range. Preferably, the above resistance range may be set to 3.25 to 3.65 Ω. In particular, the resistance detector 22 may be connected to the above-mentioned timer, and after the heating wire assembly generates heat during the power-on time to volatilize the glue on the glass fiber bundle 12 (i.e. after a preset power-on time elapses), the timer may trigger the resistance detector 22 to perform the resistance detection on the heating wire 11 shown in fig. 1 connected to the electronic wire 13. The above-mentioned energization time is set according to the specific glue content in the glass fiber bundle 12, and may be set to 3s, for example.

As shown in fig. 4 and 5, the glue removing mechanism 20 of the present embodiment further includes a reset restart button 205, and the reset restart button 205 is used for triggering the air cylinder 202 to provide power for the clamp plate 203, so that the clamp plate 203 moves in a direction away from the base 200. When the resistance detector 22 detects that the resistance of the heating wire assembly is not qualified, the resistance detector 22 cannot automatically start the air cylinder 202 to drive the clamping plate 203 to move at the moment, so that the reset restart button 205 is manually pressed to trigger the start air cylinder 202 to drive the clamping plate 203 to move in the direction away from the base 200, and therefore the unqualified heating wire assembly can be withdrawn from the glue removing mechanism 20 and classified.

In another preferred embodiment of the present invention, the electromagnets (not shown) are respectively installed on the first electrode plate 204a and the second electrode plate 204b shown in fig. 4, so that when a user puts the heating wire assembly on the base 200 during the degumming process, i.e. when two ends of the heating wire assembly are respectively put between the first electrode plate 204a and the clamping plate 203 and the clamping plate 204b, the electronic wire 13 can be directly adsorbed by the electromagnets, and thus, before the clamping plate 203 and the base 200 clamp the electronic wire 13, the electronic wire 13 does not need to be manually fixed, thereby further facilitating the user's use and simplifying the complexity of the operation. In another embodiment of the present invention, the first electrode plate 204a and the second electrode plate 204b may also be magnetic metal electrode plates, so that the first electrode plate 204a and the second electrode plate 204b can directly absorb and fix the electron beam 13.

Further, the testing method of the electronic cigarette performance detecting device of fig. 1 to 5 is described in detail. The testing method comprises a clamping step, a glue removing step and a resistance value testing step, wherein the specific structure and the characteristics of the electronic cigarette performance detecting device are the same as those of the electronic cigarette performance detecting device shown in the figures 1-5, and therefore, the detailed description is omitted below.

The clamping step further comprises: one end of a heating wire assembly of the atomizing assembly is placed on the first electrode plate 204a, the other end of the heating wire assembly is placed on the second electrode 204b, the driving power supply 23 drives the cylinder 202 to push the clamping plate 203 to move along the direction close to the base 200, so that the electronic wire 13 at one end of the heating wire assembly is clamped between the first electrode plate 204a and the clamping plate 203, and the electronic wire 13 at the other end of the heating wire assembly is clamped between the second electrode plate 204b and the clamping plate 203, thereby realizing the electrical connection between the driving power supply 23 and the heating wire assembly. In particular, for the preferred embodiment of the present invention, the clamping step is performed by pressing the switch 21 to control the connection between the glue removing mechanism 20 and the driving power source 23, so as to activate the air cylinder 202 of the glue removing mechanism 20, and in addition, for the convenience of operation, the switch 21 is further provided in this embodiment, the connection between the driving power source and the glue removing mechanism 20 and the resistance detector 22 is controlled by the switch 21, and the switch 21 may be provided as a foot switch for the convenience of operation. The switch 21 starts the glue removing mechanism 20 under the power-on condition, air is sucked in through the air inlet hole 201 to drive the air cylinder 202, the air cylinder (202) provides power for the clamping plate (203), and the clamping plate (203) moves along the direction close to the base 200.

In another preferred embodiment of the testing method of the present invention, each of the first electrode plate 204a and the second electrode plate 204b is installed with an electromagnet (not shown), so that during the clamping process, when a user puts one end of the heating wire assembly on the first electrode plate 204a between the clamping plates 203 and puts the other end of the heating wire assembly between the second electrode plate 204b and the clamping plates 203, the electronic wire 13 can be directly adsorbed by the electromagnet, and therefore, before the clamping plates 203 clamp the electronic wire 13 with the first electrode plate 204a and the second electrode plate 204b, the electronic wire 13 does not need to be fixed manually, thereby further facilitating the user's use and simplifying the operation complexity. In another embodiment of the present invention, the first electrode plate 204a and the second electrode plate 204b may also be magnetic metal electrode plates, so that the first electrode plate 204a and the second electrode plate 204b can directly absorb and fix the electron beam 13.

The step of removing glue further comprises: after the electronic wires 13 at the two ends of the heating wire assembly are clamped by the clamping mechanism 20, the heating wires 11 in the heating wire assembly are respectively connected with the driving power supply 23 through the electrical contact between the electronic wires and the first electrode plate 204a and the second electrode plate 204b, so that the driving power supply 23 supplies power to the heating wire assembly, and the heating wires 11 generate heat to volatilize the glue on the glass fiber bundles 12. In the step of removing glue, the time of the step of removing glue can be controlled by setting the power-on time of the heating wire assembly. Therefore, a timer is further provided in the glue removing mechanism 20 to limit the energization time of the heating wire assembly so as to control the volatilization of the glue on the fiberglass fiber bundle 12. The above-mentioned energization time is set according to the specific glue content in the glass fiber bundle 12, and may be set to 3s, for example.

The resistance value testing step further comprises: the resistance detector 23 is connected to two ends of the heating wire assembly through the first electrode plate 204a and the second electrode plate 204b, respectively, to detect the resistance value of the heating wire assembly, and determine whether the resistance value of the heating wire assembly is qualified. Specifically, the resistance detector 23 can be triggered by the timer in the step of removing the glue, so that after the heating wire assembly generates heat within the above-mentioned power-on time to volatilize the glue on the glass fiber bundle 12 (i.e. after the preset power-on time elapses), the timer can trigger the resistance detector 22 to detect the resistance of the heating wire 11 shown in fig. 1 connected to the electronic wire 13. Further, in the resistance value testing step, a qualified resistance value range is set in the resistance detector 23, the detected resistance value of the heating wire assembly is compared with the resistance value range to judge whether the resistance value of the heating wire assembly is qualified, and when the detected resistance value is not in the preset resistance value range, the heating wire assembly is judged to be unqualified. The above resistance range may be set to 3.25 to 3.65 Ω.

In other preferred embodiments of the present invention, the resistance value testing step further includes the steps of:

displaying the detected resistance value of the heating wire assembly through a display module of the resistance detector 23; and prompting whether the resistance value of the heating wire assembly is qualified or not through a prompting device (such as an indicator lamp and/or a buzzer).

The resistance value testing step further comprises the following steps:

when the resistance value of the heating wire assembly is qualified, the cylinder 202 is triggered by the resistance detector to drive the clamping plate 203 to move in the direction away from the base 200, so that the heating wire assembly is separated from the clamping plate 203;

when the resistance of the heating wire assembly is not qualified, the cylinder 202 is not activated, and the clamping plate 203 is maintained at the original position so that the heating wire assembly is continuously clamped between the clamping plate 203 and the first and second electrode plates 204a and 204 b. At this time, the air cylinder 202 can be triggered to move the clamp plate 203 in a direction away from the base 200 by manually pressing the reset restart button 205.

According to the electronic cigarette performance detection device and the electronic cigarette performance detection method, the two ends of the heating wire assembly are respectively clamped between the electrode plate and the clamping plate and are electrified to enable the glue in the heating wire assembly to be heated and evaporated, so that the risks that the taste of the electronic cigarette is influenced and the health is influenced due to the fact that the glue is heated and volatilized in the use process of the subsequent electronic cigarette are eliminated, meanwhile, the resistance value of the heating wire assembly is measured through the resistance detector, whether the heating wire assembly is qualified or not is judged based on the measurement result, and the reject ratio of the subsequent products is reduced.

Meanwhile, in the glue removing mechanism, the clamping action of the clamping plate and the base on the heating wire assembly is controlled through the air cylinder, and the air cylinder is started to enable the clamping plate to be away from the base when the resistance value of the heating wire assembly is detected to be qualified, so that the qualified heating wire assembly can be taken out for classification; and for the heating wire assembly with unqualified resistance value, the clamping plate keeps the original position to keep the clamping state continuously, the reset restart button is pressed through manual operation to trigger the air cylinder to drive the clamping plate to be far away from the base, and the unqualified heating wire assembly is taken out and classified. Therefore, the situation that qualified heating wire assemblies are mixed with unqualified heating wire assemblies in the detection process can be effectively prevented.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims

An electronic cigarette performance detection device is used for detecting the performance of an atomization assembly in an electronic cigarette, wherein the atomization assembly comprises a heating wire assembly used for atomizing cigarette oil, and is characterized in that the electronic cigarette performance detection device comprises a glue removing mechanism (20) used for fixing the heating wire assembly and removing glue in the heating wire assembly, a driving power supply (23) used for driving the glue removing mechanism (20), and a resistance detector (22) used for detecting the resistance value of the heating wire assembly, and the resistance detector (22) is electrically connected to the glue removing mechanism (20) and the driving power supply (23);

the glue removing mechanism (20) comprises a base (200) and a clamping plate (203) which is opposite to the base (200) and used for clamping the atomizing assembly and can move along the direction close to or far away from the base (200); the glue removing mechanism (20) further comprises an air cylinder (202) for driving the clamping plate (203) to move; the base (200) comprises a first electrode plate (204 a) and a second electrode plate (204 b) which are respectively arranged corresponding to two ends of the electric heating wire assembly, and the first electrode plate (204 a) and the second electrode plate (204 b) are respectively connected to the driving power supply (23); during detection, one end of the electric heating wire assembly is clamped between the first electrode plate (204 a) and the clamping plate (203), the other end of the electric heating wire assembly is clamped between the second electrode plate (204 b) and the clamping plate (203), a driving power supply (23) is electrically connected with the electric heating wire assembly through the first electrode plate (204 a) and the second electrode plate (204 b), and the electric heating wire assembly is powered by the driving power supply (23) to heat so as to volatilize glue on the electric heating wire assembly;

the resistance detector (22) is connected to two ends of the heating wire assembly through the first electrode plate (204 a) and the second electrode plate (204 b) respectively to detect a resistance value of the heating wire assembly, and judges whether the heating wire assembly is qualified according to the resistance value of the heating wire assembly.
The electronic cigarette performance detecting device according to claim 1, wherein a timer is disposed in the glue removing mechanism (20) for limiting the power-on time of the heating wire assembly to control the volatilization of the glue on the heating wire assembly.
The electronic cigarette performance detecting device according to claim 1, wherein the glue removing mechanism (20) further comprises an air inlet hole (201) for drawing air when the power is on to make the air cylinder (202) drive the clamping plate (203) to move.
The electronic cigarette performance detecting device according to claim 2, wherein a switch (21) for controlling the connection between the glue removing mechanism (20) and the driving power supply (23) and starting the glue removing mechanism (20) is further connected to the resistance detector (22).
The electronic cigarette performance detecting device according to claim 1, wherein the resistance detector (22) comprises a display module for displaying the detected resistance value of the heating wire assembly and a prompting device for prompting whether the resistance value of the heating wire assembly is qualified, and when the resistance value of the heating wire assembly is qualified, the resistance detector (22) starts the air cylinder (202) so that the air cylinder (202) drives the clamping plate (203) to move in a direction away from the base (200).
The electronic cigarette performance detecting device according to claim 5, wherein the prompting device is an indicator light and/or a buzzer.
The e-cigarette performance detecting device according to claim 5, wherein the glue removing mechanism (20) further comprises a reset restart button (205), the reset restart button (205) is used for triggering the cylinder (202) to act, and the cylinder (202) is used for providing power for the movement of the splint (203) so that the splint (203) moves in a direction away from the base (200).
The electronic cigarette performance detecting device according to claim 1, wherein an electromagnet for attracting the heating wire assembly is mounted on each of the first electrode plate (204 a) and the second electrode plate (204 b).
The electronic cigarette performance detecting device according to claim 1, wherein the first electrode plate (204 a) and the second electrode plate (204 b) are magnetic metal electrode plates for adsorbing the heating wire assembly.
The electronic cigarette performance testing method is characterized by comprising the following steps:

a clamping step: placing one end of a heating wire assembly of an atomizing assembly on a first electrode plate (204 a), placing the other end of the heating wire assembly on a second electrode (204 b), driving a cylinder (202) by a driving power supply (23), providing power for a clamping plate (203) through the cylinder (202), enabling the clamping plate (203) to move along a direction close to the heating wire assembly, enabling one end of the heating wire assembly to be clamped between the first electrode plate (204 a) and the clamping plate (203), enabling the other end of the heating wire assembly to be clamped between the second electrode plate (204 b) and the clamping plate (203), and enabling the driving power supply (23) to be electrically connected with the heating wire assembly;

and (3) glue removing: two ends of the heating wire assembly are respectively connected to the driving power supply (23) through the first electrode plate (204 a) and the second electrode plate (204 b), and the heating wire assembly is powered by the driving power supply (23) to generate heat so as to volatilize the glue on the heating wire assembly;

resistance value testing step: the resistance detector (22) is connected to two ends of the heating wire assembly through the first electrode plate (204 a) and the second electrode plate (204 b), so as to detect the resistance value of the heating wire assembly and judge whether the resistance value of the heating wire assembly is qualified.
The electronic cigarette performance testing method of claim 10, wherein the step of removing glue further comprises: and setting preset time through a timer, and limiting the electric heating wire assembly to be electrified within the preset time so as to control the volatilization of the glue on the electric heating wire assembly.
The electronic cigarette performance testing method of claim 11, wherein the clamping step further comprises the steps of:

the connection between the glue removing mechanism (20) and the driving power supply (23) is controlled through a press switch (21) so as to start the glue removing mechanism (20);

air is sucked in through the air inlet hole (201) under the condition of electrifying to drive the air cylinder (202) to act, the air cylinder (202) provides power for the clamping plate (203), and the clamping plate (203) is pushed to move along the direction close to the base (200).
The electronic cigarette performance testing method of claim 12, wherein the resistance testing step further comprises:

presetting a qualified resistance range, comparing the detected resistance value of the heating wire assembly with the resistance range to judge whether the resistance value of the heating wire assembly is qualified, and judging that the heating wire assembly is unqualified when the detected resistance value is out of the preset resistance range.
The method of claim 13, wherein the acceptable resistance value ranges from 3.25 Ω to 3.65 Ω.
The electronic cigarette performance testing method of claim 13, wherein the resistance testing step further comprises the steps of:

displaying the detected resistance value of the heating wire assembly through a display module;

whether the resistance value of the heating wire assembly is qualified or not is prompted through a prompting device.
The electronic cigarette performance testing method of claim 15, wherein the resistance testing step further comprises the steps of:

when the resistance value of the electric heating wire assembly is qualified, the air cylinder (202) is triggered by the resistance detector (22) to enable the air cylinder (202) to drive the clamping plate (203) to move along the direction far away from the base (200), so that the electric heating wire assembly is separated from the clamping plate (203);

when the resistance value of the heating wire assembly is unqualified, the air cylinder (202) is kept at the original position so that the heating wire assembly is continuously clamped between the clamping plate (203) and the cylinder.
The electronic cigarette performance testing method according to claim 16, wherein when the resistance of the heating wire assembly fails, the air cylinder (202) is triggered by manually pressing a reset restart button (205), so that the air cylinder (202) drives the clamping plate (203) to move in a direction away from the base (200).
The electronic cigarette performance testing method of claim 10, wherein electromagnets for adsorbing the heating wire assembly are respectively mounted on the first electrode plate (204 a) and the second electrode plate (204 b).
The method for testing performance of an electronic cigarette according to claim 10, wherein the first electrode plate (204 a) and the second electrode plate (204 b) are magnetic metal electrode plates for adsorbing the heating wire assembly.