WO2016119171A1

WO2016119171A1 - Resistance measurement device

Info

Publication number: WO2016119171A1
Application number: PCT/CN2015/071833
Authority: WO
Inventors: 刘秋明; 向智勇
Original assignee: 惠州市吉瑞科技有限公司
Priority date: 2015-01-29
Filing date: 2015-01-29
Publication date: 2016-08-04
Also published as: CN207662963U

Abstract

A resistance measurement device for automatically measuring the resistance of an atomizer (201) comprises a material storage tank (202), a rotating disk assembly, a resistance measurement assembly, and a control assembly (204). The rotating disk assembly comprises an index plate (205) and a fourth power device (206). The resistance measurement assembly comprises a detection component (203), and comprises a resistance monitoring component (207) used for determining whether a resistance measured by the detection component (203) satisfies a preset resistance range. When the control assembly (204) controls the fourth power device (206) to drive the index plate (205) to rotate to make the atomizer (201) move to a test position, the control assembly (204) controls the detection component (203) to extend to the atomizer (201) and enables the detection component (203) to be electrically connected to an electrode assembly of the atomizer (201), the detection component (203) performs resistance measurement on the atomizer (201) and transmits an obtained resistance to the resistance monitoring component (207).

Description

Resistance test equipment

Technical field

The invention relates to the field of electronic cigarette devices, in particular to a resistance testing device.

Background technique

Ordinary cigarettes contain harmful substances such as tar, which are not only harmful to the health of smokers. Even the second-hand smoke generated can cause harm to other people's health. In order to effectively control tobacco, the advent of electronic cigarettes has been loved by people. The electronic cigarette atomizes the smoke oil containing nicotine and essence into a smoke through a nebulizer for the user to use, and does not contain harmful substances such as tar.

In the electronic cigarettes currently on the market, the structure of the electronic cigarette includes an atomizer for atomizing the smoke oil and a battery assembly for supplying the atomizer, as shown in FIG. 1, the atomizer includes a flow for air circulation. a vent pipe 101, an oil storage jacket 102 for storing smoke oil, a heating wire assembly, an atomization seat for accommodating the electric heating wire assembly, and an electrode assembly located in the atomization seat, wherein the vent pipe 101 is disposed There is an air outlet 103 for the user to smoke, the electric heating wire assembly includes an oil guiding column 104 for guiding oil from the oil storage chamber, and a heating wire 105 wound on the oil guiding column, the heating wire The two ends are respectively connected to the electrode assembly inner electrode 106 and the outer electrode 107. The electrode assembly is connected to the battery assembly, and the heating wire 105 is heated by the battery assembly to generate heat to atomize the oil on the oil guiding column 104 into smoke.

Since there are certain errors in the assembly process of the atomizer, it is impossible to fully guarantee that the resistance values of all the atomizers of the atomizer meet the requirements of use. Usually, the resistance of the atomizer is required after the atomizer is assembled. Line testing, for nebulizers that do not meet the requirements, need to be eliminated. In the prior art, the method for testing the resistance of the atomizer is to test the atomizer one by one by manually using the electrical test fixture, and classify the atomizers that meet the conditions and do not meet the conditions. In this way, not only the efficiency of the test is slow, but also the manual error is large, which may lead to inaccurate testing, thereby affecting the overall performance of the product.

Summary of the invention

In view of this, the present invention provides a resistance test apparatus for automatically testing the resistance of the atomizer.

A resistance testing device, comprising:

a hopper for storing the atomizer, a rotating disk assembly for accommodating the atomizer transported from the hopper and driving the atomizer, for testing the atomizer a resistance value test component, and a control for controlling rotation of the rotary disk assembly and controlling the resistance test component for testing Component

The rotating disc assembly includes an indexing disc and a fourth power device for driving the indexing disc to rotate, and the outer peripheral surface of the indexing disc is provided with a plurality of grooves for accommodating the atomizer The indexing plate is located below the hopper so that the atomizer in the hopper falls into the groove by gravity;

The resistance test component includes a detecting component for testing the resistance of the atomizer and a resistance monitoring component for determining whether the resistance detected by the detecting component meets a preset resistance range;

The control component controls the detecting component to extend toward the atomizer and causes the control component to move the indexing disk to move to the test position when the control component controls the fourth power device to rotate the indexing disk The detecting component is electrically connected to the electrode assembly of the atomizer, such that the detecting component performs a resistance test on the atomizer and transmits the obtained resistance value of the atomizer to the resistance monitoring component .

The resistance testing device, wherein the resistance testing device further comprises a ventilation detecting component for detecting ventilation performance of the atomizer;

The ventilation detecting component includes a vacuum generating device for performing inhalation detection on the atomizer, and determining whether a negative pressure value generated by the vacuum generating device when inhaling the atomizer conforms to a preset a pressure monitoring component of a range of negative pressure values;

The vacuum generating device includes an air suction device for performing air intake detection on the atomizer, and a first air pipe connecting the atomizer and the air suction device, and the air pressure monitoring component is further provided with a second vent tube in communication with the first vent tube; the control unit controls the control unit when the control unit controls the fourth power unit to rotate the indexing plate to move the atomizer to a test position The getter device performs a getter detection on the atomizer, and the air pressure monitoring component monitors the air pressure value of the atomizer through the second air pipe.

The resistance testing device, wherein the resistance testing device further comprises a removing device for eliminating a bad atomizer;

The exclusion device includes a discharge conduit corresponding to the groove of the indexing plate, and a first power device that pushes the defective atomizer into the discharge conduit; when the resistance test component tests the atomization The control component controls the indexing disk when the resistance of the device does not meet the preset resistance range or the ventilation detecting component detects that the negative pressure value of the atomizer does not meet the preset negative pressure value range Rotating to move the atomizer to the discharge conduit position, the control assembly controlling the first power unit to An atomizer is pushed into the discharge conduit.

The resistance testing device, wherein the detecting component comprises two detecting pins and a second power device for driving the two detecting pins to extend in the direction of the atomizer;

The control component controls the second power device to drive the two probes when the control component controls the fourth power device to rotate the indexing disk to move the atomizer to a test position The atomizer extends and electrically connects the two probe pins to the inner and outer electrodes of the atomizer, respectively.

The resistance testing device, wherein the resistance testing device further comprises a positioning device;

The indexing plate is further provided with a positioning hole, and the positioning device comprises an extension rod and a third power device for driving the extension rod to move;

When the control component controls the fourth power device to drive the indexing disk to rotate to move the atomizer to the test position, the control component controls the third power device to drive the extension rod into the Positioning in the hole to prevent the indexing plate from shaking.

The resistance testing device, wherein the groove wall of the hopper comprises a baffle and a stopper, the baffle and the stopper are further configured to guide the atomizer into the indexing plate, so that the storage The atomizer in the trough is accommodated in a plurality of grooves provided in the indexing plate.

The resistance testing device, wherein the removing device further comprises a defective product receiving box, wherein the defective product receiving box is in communication with the discharge pipe, and when the resistance test component tests the atomizer The control component controls the fourth power device when the resistance value does not conform to the preset resistance range or the ventilation detecting component detects that the negative pressure value of the atomizer does not meet the preset negative pressure value range Driving the indexing disk to rotate, so that the atomizer moves to the discharge pipe position, the control component controls the first power device to push the atomizer into the discharge pipe, and The atomizer enters the defective product receiving box through the discharge pipe.

The resistance testing device, wherein the ventilation detecting component further comprises a suction force adjusting component for adjusting the suction device.

The resistance testing device, wherein the ventilation detecting component further comprises a gas pressure adjusting component for adjusting a preset negative pressure value range.

The resistance testing device, wherein the resistance testing component further includes a resistance adjusting component for adjusting a preset resistance range.

The resistance testing device, wherein the resistance testing device further comprises a good conveyor belt for conveying an atomizer that meets a preset resistance range and a preset negative pressure value range, and driving the good conveyor belt to operate Fifth power unit;

When the resistance monitoring component determines that the atomizer meets a preset resistance range and the air pressure monitoring component determines that the atomizer meets a negative pressure value range, the control component controls the fourth power device to drive The indexing disc rotates such that the atomizer moves onto the good conveyor belt, and the control assembly controls the fifth power unit to drive the good conveyor belt to operate.

The resistance testing device, wherein the resistance testing device further comprises a discharging device for placing the atomizer into the storage tank;

The discharging device comprises a ejector plate matched with the atomizer storage mold and a push column for pushing the ejector plate;

The hopper includes a plurality of partitions, and the plurality of partitions are formed with an empty groove, the empty groove and the groove provided by the indexing plate cooperate with each other when the push column is pushed by the push column When the thimble plate pushes the atomizer in the atomizer storage mold into the empty groove, the atomizer enters the groove of the indexing plate.

The present invention provides a resistance measuring device for automatically testing the resistance of an atomizer. In the present invention, since the resistance test component includes a detecting component for testing the resistance of the atomizer and for judging the detecting Whether the resistance value of the component detection conforms to the resistance value monitoring component of the preset resistance range, and when the control component controls the fourth power device to drive the indexing disk to rotate so that the atomizer moves to the test position, the control component controls the detecting component to the fog The chemist extends and electrically connects the detecting component to the electrode assembly of the atomizer, so that the detecting component performs a resistance test on the atomizer and transmits the resistance value of the obtained atomizer to the resistance monitoring component. In this way, the monitoring component can determine whether the atomizer meets the preset resistance range according to the received resistance value, thereby judging whether the atomizer is a good product, and realizing the automatic test of the atomizer resistance value, thereby improving The test efficiency, because of the close mechanical operation of the whole process, also improves the accuracy of the test and improves the quality of the product.

DRAWINGS

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art description will be briefly described below. Obviously, the following description The drawings in the drawings are only some of the embodiments of the present invention, and those skilled in the art can obtain other drawings according to the drawings without any creative work.

1 is a schematic cross-sectional view of a prior art atomizer;

2 is a schematic structural diagram of a resistance value testing device according to an embodiment of the present invention;

3 is a schematic structural view of a back surface of the resistance testing device shown in FIG. 2 according to an embodiment of the present invention;

4 is a schematic structural diagram of a storage storage atomizer of a resistance value testing device according to an embodiment of the present invention;

FIG. 5 is another schematic structural diagram of a resistance testing device according to an embodiment of the present invention; FIG.

6 is a schematic structural view of a back surface of the resistance testing device shown in FIG. 5 according to an embodiment of the present invention;

7 is a schematic exploded view of a detecting component, an atomizer, and a ventilation detecting component of a resistance testing device according to an embodiment of the present invention;

FIG. 8 is another schematic structural diagram of a resistance value testing device according to an embodiment of the present invention; FIG.

FIG. 9 is another schematic structural diagram of a resistance testing device according to an embodiment of the present invention.

detailed description

The present invention discloses a resistance value measuring and setting device. The specific structure of the resistance value testing device provided by the present invention will be described in detail below with reference to FIG. 2 to FIG. 4 .

In this embodiment, the resistance test device includes:

a hopper 202 for storing the atomizer 201, a rotating disk assembly for accommodating the atomizer 201 transported from the hopper 202 and driving the atomizer 201 for testing a resistance value test component of the atomizer 201 resistance, and a control component 204 for controlling the rotation of the rotary disk assembly and controlling the resistance test component for testing;

The rotating disk assembly includes an indexing plate 205 and a fourth power unit 206 for driving the indexing plate 205 to rotate. The indexing plate 205 is provided with a plurality of outer peripheral surfaces for receiving the atomizing a groove of the device 201, the indexing plate 205 is located below the hopper 202, so that the atomizer 201 in the hopper 202 is dropped into the groove by gravity;

The resistance test component includes a detecting component 203 for testing the resistance of the atomizer, and a resistance monitoring component 207 for determining whether the resistance detected by the detecting component 203 meets a preset resistance range;

The control component 204 controls the detecting component 203 to the fog when the control component 204 controls the fourth power device 206 to rotate the indexing disk 205 such that the atomizer 201 moves to a test position. The aligner 201 extends and electrically connects the detecting component 203 with the electrode assembly of the atomizer 201, such that the detecting component 203 performs a resistance test on the atomizer 201 and obtains the atomizer The resistance value of 201 is transmitted to the resistance monitoring section 207.

In the embodiment of the present invention, since the resistance test component includes a detecting component for testing the resistance of the atomizer and a resistance monitoring component for determining whether the resistance value detected by the detecting component meets a preset resistance range, when controlling When the component controls the fourth power device to drive the indexing disk to rotate so that the atomizer moves to the test position, the control component controls the detecting component to extend toward the atomizer and electrically connect the detecting component to the electrode assembly of the atomizer, so that the detecting component pair The atomizer performs a resistance test and transmits the resistance of the obtained atomizer to the resistance monitoring component. In this way, the monitoring component can determine whether the atomizer meets the preset resistance range according to the received resistance value, thereby judging whether the atomizer is a good product, and realizing the automatic test of the atomizer resistance value, thereby improving The test efficiency, because of the close mechanical operation of the whole process, also improves the accuracy of the test and improves the quality of the product.

In the above embodiment, a resistance test component for testing the resistance of the atomizer is described. In practical applications, the resistance test component may include two probe pins and a second power device, and the resistance test device may further include a ventilation detecting assembly for detecting a ventilating performance of the atomizer, the resistance testing device further comprising a removing device for eliminating the bad atomizer, which will be specifically described below, in conjunction with FIG. 5 to FIG. 7, the embodiment of the present invention Another embodiment of the medium resistance test apparatus includes:

In combination with the above embodiments, preferably, the resistance test apparatus further includes a ventilation detecting component for detecting the aeration performance of the atomizer;

The ventilation detecting component includes a vacuum generating device for performing inhalation detection on the nebulizer 201, and a judging whether a negative pressure value generated by the vacuum generating device when inhaling the nebulizer is in compliance with a pre- a pressure monitoring component 301 of a range of negative pressure values;

Generally, after the atomizer is assembled, it is necessary to perform a resistance test on the atomizer to determine whether the resistance of the atomizer meets the preset requirements. Usually, the aeration performance of the atomizer is also required to be tested. Whether the negative pressure generated when the atomizer is inhaled meets the requirements, and then the above two tests are combined to finally determine whether the atomizer is a good product. Therefore, while the atomizer is tested for resistance, the atomizer ventilation can also be tested. performance.

The vacuum generating device includes a getter device 302 for performing air intake detection on the atomizer 201, and a first air pipe 303 connecting the atomizer 201 and the air suction device, the air pressure monitoring component 301 is further provided with a second vent pipe (not shown) in communication with the first vent pipe 303; when the control component 204 controls the fourth power device 206 to drive the index plate 205 to rotate When the atomizer 201 moves to the test position, the control component 204 controls the getter device 302 to perform inspiratory detection on the nebulizer 201, and the air pressure monitoring component 301 monitors the The air pressure value of the atomizer 201.

Since the air suction device communicates with the atomizer through the first air pipe, the second air pipe provided by the air pressure monitoring component 301 is in communication with the first air pipe, so when the air suction device inhales the first air pipe of the atomizer, The negative pressure value generated by one vent pipe is the same as the negative pressure value generated by the second vent pipe, and the air pressure monitoring component 301 can monitor the negative pressure value of the atomizer through the second vent pipe.

Preferably, the resistance testing device further includes a removing device for removing the bad atomizer;

The exclusion device includes a discharge conduit 305 corresponding to the groove of the indexing plate 205, and a first power device 306 that pushes the defective atomizer into the discharge conduit 305; when the resistance test component is tested When the resistance value of the atomizer 201 does not meet the preset resistance range or the ventilation detecting component detects that the negative pressure value of the atomizer 201 does not meet the preset negative pressure value range, the control component 204 controlling the fourth power unit 206 to rotate the indexing plate 205 such that the atomizer 201 moves to the position of the discharge duct 305, and the control component 204 controls the first power unit 306 to The atomizer 201 is pushed into the discharge conduit 305.

If it is detected that the atomizer is non-good, the nebulizer needs to be excluded to distinguish the good nebulizer from the non-good nebulizer, and the excluding device includes the first power device and the exhaust pipe, and the first power device passes the non-goods A good nebulizer is pushed into the discharge conduit to exclude the non-good nebulizer.

Preferably, the detecting component includes two detecting pins 307 and a second power device 308 for driving the two detecting pins 307 to extend toward the atomizer 201;

When the control component 204 controls the fourth power device 206 to drive the indexing disk 205 to rotate to move the atomizer 201 to the test position, the control component 204 controls the second power device 308 to drive the The two probe pins 307 extend toward the atomizer 201 such that the two probe pins 307 are electrically connected to the inner and outer electrodes of the atomizer 201, respectively.

In the embodiment of the present invention, the resistance test apparatus further includes a ventilation test for detecting the ventilation performance of the atomizer The measuring component and the removing device for eliminating the bad atomizer, not only realize the automatic resistance test of the atomizer, but also realize the automatic ventilation performance detection through the ventilation detecting component, improve the testing efficiency and improve the product quality. The automatic discharge of the good nebulizer and the non-good nebulizer by the discharge device also improves the production efficiency.

In the above embodiment, the resistance test component is tested for the resistance of the atomizer, the ventilation detection component is used for the detection of the aeration device, and the exclusion device is used to classify the atomizer. In practical applications, the resistance is The value testing device further includes a positioning device, the exclusion device further comprising a defective product receiving box, the ventilation detecting assembly further comprising a suction force adjusting force adjusting member for adjusting the suction device, the ventilation detecting component further comprising Adjusting a gas pressure adjusting component of a preset negative pressure value range, the resistance testing component further comprising a resistance adjusting component for adjusting a preset resistance range, the resistance testing device further comprising: for transmitting the preset resistance value a good conveyor belt of the atomizer of the range and the preset negative pressure value range, and a fifth power device for driving the operation of the good conveyor belt, which will be specifically described below, in combination with FIG. 5 and FIG. 8 , the resistance value in the embodiment of the present invention Another embodiment of the test device includes:

In combination with the above embodiments, preferably, the resistance testing device further includes a positioning device;

The indexing plate 205 is further provided with a positioning hole 401, the positioning device includes an extension rod 402 and a third power device 403 that drives the extension rod to move;

When the control component 204 controls the fourth power device 206 to drive the indexing disk 205 to rotate to move the atomizer to the test position, the control component 204 controls the third power device 403 to drive the The extension rod 402 is inserted into the positioning hole 401 to prevent the indexing disc from being shaken.

When the control component controls the fourth power device to drive the indexing disk to rotate to move the atomizer to the test position, the two probe pins in the test component need to be inserted into the inner electrode and the outer electrode of the atomizer for resistance testing, but Since the test space is small, if the indexing plate is shaken, the probe pin may not be accurately tested. Therefore, the third power device in the positioning device can be used to drive the extension rod into the positioning hole provided by the indexing plate to prevent the indexing disk from being generated. Shake to improve the test accuracy of the resistance test component, reduce test errors, and improve product quality.

Preferably, the groove wall of the hopper comprises a baffle 404 and a stopper 405, and the baffle 404 and the stopper 405 are further configured to guide the atomizer into the indexing plate 205 such that the hopper The atomizer inside is accommodated in a plurality of grooves provided in the indexing plate 205.

Preferably, the removing device further includes a defective product receiving box 406, and the defective product receiving box 406 Communicating with the discharge pipe 305, when the resistance test component tests that the resistance of the atomizer does not meet a preset resistance range or the ventilation detection component detects the negative pressure value of the atomizer When the preset negative pressure value range is not met, the control component controls the fourth power device 206 to drive the indexing disk 205 to rotate, so that the atomizer moves to the position of the discharge pipe 305, the control The assembly 204 controls the first power unit 306 to push the atomizer into the discharge conduit 305 and cause the atomizer to enter the defective container 406 through the discharge conduit 305.

Preferably, the ventilation detecting assembly further includes a suction force adjusting member 407 for adjusting the suction device.

Since the internal structure of different types of atomizers may be different, the suction device also requires different suction force when inhaling the aspirator during the ventilation detection, and the suction adjusting member can adjust the suction force of the suction device.

Preferably, the ventilation detecting component further includes a gas pressure adjusting member 408 for adjusting a preset negative pressure value range.

Since the internal structure of different types of atomizers may be different, the ventilation performance requirements may also be different. Therefore, when performing the ventilation detection, the air pressure adjusting component can adjust the preset negative pressure value range to judge the ventilation performance of the atomizer.

Preferably, the resistance test component further includes a resistance adjusting component 409 for adjusting a preset resistance range.

Since the internal structure of different types of atomizers may be different, the required resistance may be different. Therefore, when performing the resistance test, the resistance adjustment component can adjust the preset resistance range to judge the resistance of the atomizer. Whether the value is the resistance of the demand.

Preferably, the resistance testing device further includes a good conveyor belt 410 for conveying an atomizer that meets a preset resistance range and a preset negative pressure value range, and a fifth power device that drives the operation of the good conveyor belt 410 ( Not shown in the figure);

The control component 204 controls the fourth power device when the resistance monitoring component determines that the atomizer meets a preset resistance range and the air pressure monitoring component determines that the atomizer meets a negative pressure value range The indexing plate 205 is rotated to move the atomizer to the good conveyor belt 410, and the control component 204 controls the fifth power device to drive the good conveyor belt 410 to operate.

The good conveyor belt is located below the indexing disc. When the indexing disc drives the atomizer to rotate to the position of the good conveyor belt, the atomizer will fall into the good conveyor belt by gravity, and the fifth power unit will drive the good conveyor belt to operate. The nebulizer is transported through the good conveyor to the next device.

In the embodiment of the invention, the positioning device drives the extension rod into the positioning hole provided by the indexing plate through the third power device to prevent the indexing plate from shaking, so as to improve the test accuracy of the resistance test component, reduce the test error, and improve the product. The quality of the defective product is used to receive the atomizer that does not meet the requirements, which can facilitate the recycling of the non-good atomizer. The suction adjustment component, the air pressure adjustment component and the resistance adjustment component can facilitate the resistance test. The device tests different types of atomizers to improve the performance of the equipment.

In the above embodiment, the hopper includes a baffle and a stopper, and the baffle and the stopper cooperate with the indexing plate 205, so that the atomizer in the hopper is accommodated in a plurality of concaves arranged on the indexing plate. In the tank, in a practical application, the hopper may further comprise a plurality of partitions, and a plurality of partitions are formed with a hollow groove, the empty groove and the groove provided by the rotating disk cooperate with each other, and the resistance test equipment further comprises The apparatus for placing the atomizer into the hopper is described in detail below. In conjunction with FIG. 9, another embodiment of the resistance test apparatus in the embodiment of the present invention includes:

In combination with the above embodiments, preferably, the resistance test apparatus further includes a discharge device for placing the atomizer into the storage tank;

The discharging device comprises a thimble plate 502 matched with the atomizer storage mold 501 and a push column 503 for pushing the thimble plate 502;

The hopper includes a plurality of partitions 504, and a plurality of partitions 504 are formed with an empty groove, and the empty grooves cooperate with the grooves provided by the indexing plate to pass through the push column 503. When the thimble plate 502 is pushed to push the atomizer 201 in the atomizer storage mold 501 into the empty groove, the atomizer 201 is caused to enter the groove of the indexing plate.

Generally, after the atomizer is assembled, the atomizer is located in the atomizer storage mold with a size of 10*10, and the thimble plate and the atomizer storage mold can be used to push the atomizer in the mold. In the empty groove formed by a plurality of partitions, the gap between the empty grooves and the groove of the indexing plate are also matched, and the atomizer falls into the groove of the indexing plate, and if the empty groove does not have corresponding points The groove of the dial, when the indexing disk is rotated, the atomizer will naturally enter the groove of the indexing plate.

In the embodiment of the present invention, the hopper includes a plurality of partitions, and a plurality of partitions are formed with gaps therebetween Cooperating with the groove provided by the indexing plate, the discharging device comprises a thimble plate matched with the atomizer storage mold, so that the atomizer located in the atomizer storage mold can be transported by pushing the ejector plate In the groove of the indexing plate, the efficiency of discharging is improved.

The above embodiments are only used to illustrate the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that The technical solutions are described as being modified, or equivalent to some of the technical features, and the modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

A resistance testing device, comprising:

a hopper for storing the atomizer, a rotating disk assembly for accommodating the atomizer transported from the hopper and driving the atomizer, for testing the atomizer a resistance value test component, and a control component for controlling rotation of the rotary disk assembly and controlling the resistance test component for testing;

The rotating disc assembly includes an indexing disc and a fourth power device for driving the indexing disc to rotate, and the outer peripheral surface of the indexing disc is provided with a plurality of grooves for accommodating the atomizer The indexing plate is located below the hopper so that the atomizer in the hopper falls into the groove by gravity;

The resistance test component includes a detecting component for testing the resistance of the atomizer and a resistance monitoring component for determining whether the resistance detected by the detecting component meets a preset resistance range;

The control component controls the detecting component to extend toward the atomizer and causes the control component to move the indexing disk to move to the test position when the control component controls the fourth power device to rotate the indexing disk The detecting component is electrically connected to the electrode assembly of the atomizer, such that the detecting component performs a resistance test on the atomizer and transmits the obtained resistance value of the atomizer to the resistance monitoring component .
The device according to claim 1, wherein said resistance testing device further comprises a ventilation detecting assembly for detecting said nebulizer ventilation performance;

The ventilation detecting component includes a vacuum generating device for performing inhalation detection on the atomizer, and determining whether a negative pressure value generated by the vacuum generating device when inhaling the atomizer conforms to a preset a pressure monitoring component of a range of negative pressure values;

The vacuum generating device includes an air suction device for performing air intake detection on the atomizer, and a first air pipe connecting the atomizer and the air suction device, and the air pressure monitoring component is further provided with a second vent tube in communication with the first vent tube; the control unit controls the control unit when the control unit controls the fourth power unit to rotate the indexing plate to move the atomizer to a test position The getter device performs a getter detection on the atomizer, and the air pressure monitoring component monitors the air pressure value of the atomizer through the second air pipe.
The apparatus according to claim 2, wherein said resistance test apparatus further comprises exclusion means for eliminating a bad atomizer;

The exclusion device includes a discharge conduit corresponding to the groove of the indexing plate, and a first power device that pushes the defective atomizer into the discharge conduit; when the resistance test component tests the atomization The control component controls the indexing disk when the resistance of the device does not meet the preset resistance range or the ventilation detecting component detects that the negative pressure value of the atomizer does not meet the preset negative pressure value range Rotating to move the atomizer to the discharge conduit position, the control assembly controlling the first power unit to push the atomizer into the discharge conduit.
The apparatus according to any one of claims 1 to 3, wherein the detecting means comprises two detecting pins and a second power for driving the two detecting pins to extend in the direction of the atomizer Device

The control component controls the second power device to drive the two probes when the control component controls the fourth power device to rotate the indexing disk to move the atomizer to a test position The atomizer extends and electrically connects the two probe pins to the inner and outer electrodes of the atomizer, respectively.
The device according to any one of claims 1 to 3, wherein the resistance test device further comprises a positioning device;

The indexing plate is further provided with a positioning hole, and the positioning device comprises an extension rod and a third power device for driving the extension rod to move;

When the control component controls the fourth power device to drive the indexing disk to rotate to move the atomizer to the test position, the control component controls the third power device to drive the extension rod into the Positioning in the hole to prevent the indexing plate from shaking.
The apparatus according to any one of claims 1 to 3, wherein the groove wall of the hopper comprises a baffle and a stopper, and the baffle and the stopper are further used to guide the atomizer into the The indexing plate is arranged such that the atomizer in the hopper is accommodated in a plurality of grooves provided in the indexing plate.
The device according to claim 3, wherein the removing device further comprises a defective product receiving box, wherein the defective product receiving box is in communication with the discharge pipe, and when the resistance test component tests the When the resistance of the atomizer does not meet the preset resistance range or the ventilation detecting component detects that the negative pressure value of the atomizer does not meet the preset negative pressure value range, the control component controls the first a four-power device drives the indexing disk to rotate, so that the atomizer moves to the discharge pipe position, and the control component controls the first power device to push the atomizer into the discharge pipe, And make the fog The chemist enters the defective product receiving box through the discharge pipe.
The apparatus according to claim 2, wherein said ventilation detecting assembly further comprises suction adjusting means for adjusting said suction means.
The apparatus of claim 2 wherein said ventilation detection assembly further comprises a gas pressure adjustment component for adjusting a predetermined range of negative pressure values.
The device according to any one of claims 1 to 4, wherein the resistance test component further comprises a resistance adjusting component for adjusting a preset resistance range.
The device according to claim 2, wherein the resistance test apparatus further comprises a good conveyor belt for conveying an atomizer in accordance with a preset resistance range and a preset negative pressure value range, and driving the good product a fifth power unit operated by the conveyor;

When the resistance monitoring component determines that the atomizer meets a preset resistance range and the air pressure monitoring component determines that the atomizer meets a negative pressure value range, the control component controls the fourth power device to drive The indexing disc rotates such that the atomizer moves onto the good conveyor belt, and the control assembly controls the fifth power unit to drive the good conveyor belt to operate.
The apparatus according to any one of claims 1 to 3, wherein the resistance test apparatus further comprises a discharge device for placing the atomizer into the hopper;

The discharging device comprises a ejector plate matched with the atomizer storage mold and a push column for pushing the ejector plate;

The hopper includes a plurality of partitions, and the plurality of partitions are formed with an empty groove, the empty groove and the groove provided by the indexing plate cooperate with each other when the push column is pushed by the push column When the thimble plate pushes the atomizer in the atomizer storage mold into the empty groove, the atomizer enters the groove of the indexing plate.