WO2015188338A1 - Atomizer resistance online detection device - Google Patents

Abstract

An atomizer resistance online detection device, comprising a resistance detector (1), a first probe (2) and a second probe (3) connected to the resistance detector (1), a material delivery mechanism (4) for delivering an atomizer (7) to a workstation to be tested, a fixing mechanism (5) for fixing the atomizer (7) on the workstation to be tested, and a drive mechanism (6) disposed on the fixing mechanism (5) and used to drive the first probe (2) and the second probe (3) to respectively contact the anode and cathode of the atomizer (7). The atomizer resistance online detection device effectively improves the efficiency of atomizer resistance detection, and significantly reduces labor costs.

Description

 Nebulizer resistance online detecting device  Technical field

 The present invention relates to the field of atomizer production, and more particularly to an atomizer resistance on-line detecting device.

 Background technique

In the existing electronic cigarette automatic assembly equipment or semi-automatic equipment, the detection of the atomizer resistance is usually manually detected, that is, the two resistance probes of the resistance tester are touched by the operator to contact the positive and negative poles of the atomizer, Complete the detection of the resistance. This manual detection method requires a lot of manpower, high cost, and low measurement speed.

 Invention content

 The technical problem to be solved by the present invention is to provide an atomizer resistance on-line detecting device for the defects of the prior art.

 The technical solution adopted by the present invention to solve the technical problems thereof is: a resistance detector, a first probe and a second probe connected to the resistance detector, a material conveying mechanism for conveying the atomizer to a station to be tested, and a method for fixing the atomizer a fixing mechanism of the station to be tested, and a driving mechanism disposed on the fixing mechanism for driving the first probe and the second probe to respectively contact the positive electrode and the negative electrode of the atomizer.

 Preferably, the material transport mechanism includes a drive assembly, is coupled to the drive assembly, and is coupled to the drive assembly a rotating shaft for driving the lower rotation, a turntable connected to the rotating shaft and rotatable about the rotating shaft, and a first driving assembly connected to the transmission assembly for driving the rotation of the transmission assembly; Several A fixture for holding the atomizer.

 Preferably, the first drive assembly comprises a servo motor.

Preferably, the fixing mechanism comprises a fixing bracket, a second driving component disposed above the fixing bracket, a connecting member connected to the second driving component and moving up and down by the second driving component, The connecting member is disposed above the station to be tested of the atomizer, and the atomizer is fixed at the station to be tested when the connecting member moves downward.

 Preferably, the second drive assembly includes a motor or cylinder that drives the connector up and down.

Preferably, the connecting member is provided with a groove for accommodating the atomizer with a diameter larger than the diameter of the atomizer to fix the atomizer at the station to be tested.

Preferably, the driving mechanism includes a third driving component disposed under the station to be tested for driving the first probe or the second probe to be in contact with the anode or the cathode of the atomizer, and is disposed in the a fourth driving component above the station to be tested for driving the second probe or the first probe to be in contact with the negative or positive electrode of the atomizer.

Preferably, the third driving assembly includes a first fixing block for fixing a vertically disposed first probe and a vertical movement for driving the first fixing block to cause the first probe to be atomized a vertical drive assembly in contact with the positive electrode; the fourth drive assembly includes a second fixed block for securing the laterally disposed second probe and for moving the second fixed block laterally to move the second probe a lateral drive assembly in contact with the negative electrode of the atomizer; the vertical drive assembly and the lateral drive assembly are disposed on the fixed bracket.

Preferably, the third driving assembly includes a first fixing block for fixing a vertically disposed second probe and a vertical movement for driving the first fixing block to cause the second probe to be atomized Vertical drive assembly in contact with the negative pole; said fourth Drive The assembly includes a second fixed block for securing the laterally disposed first probe and a lateral drive assembly for driving the second fixed block to move laterally to bring the first probe into contact with the nebulizer negative pole; The vertical drive assembly and the lateral drive assembly are disposed on a stationary bracket.

 Preferably, the vertical drive assembly and the lateral drive assembly comprise a motor or a cylinder.

 The present invention has the following advantages over the prior art: The invention realizes that the atomizer is transported to the station to be tested by using the material conveying mechanism, and the atomizer is fixed on the station to be tested by using a fixing mechanism to avoid the offset of the atomizer during the detection process and affecting the resistance test. Then, the driving mechanism is used to drive the first probe and the second probe connected to the resistance detector to respectively contact the positive and negative electrodes of the atomizer to realize on-line detection of the resistance. The atomizer resistance on-line detecting device provided by the invention can effectively improve the atomizer resistance detecting efficiency, and can save a lot of labor costs.

 DRAWINGS

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

 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the structure of an atomizer resistance on-line detecting device in Embodiment 1 of the present invention.

 2 is a schematic structural view of an atomizer resistance on-line detecting device in Embodiment 1 of the present invention.

 Fig. 3 is a front elevational view showing the atomizer resistance on-line detecting device in the first embodiment of the present invention.

 Fig. 4 is a front elevational view showing the atomizer resistance on-line detecting device in the second embodiment of the present invention.

 1. Resistance detector; 2. First probe; 3. Second probe; 4. Material conveying mechanism; 41. Transmission component 42, rotating shaft; 43, turntable; 44, fixture; 5, fixing mechanism; 51, fixing bracket; 52, second driving assembly; 53, connecting member; 531, groove; 6, driving mechanism; a three-drive assembly; 611, a first fixed block; 612, a vertical drive assembly; 62, a fourth drive assembly; 621, a second fixed block; 622, a lateral drive assembly 7, atomizer.

 detailed description

 In order to more clearly understand the technical features, objects and effects of the present invention, the present invention will now be described in detail with reference to the accompanying drawings Specific implementation.

 Example 1

 1 to 3 show an atomizer resistance on-line detecting device in an embodiment of the present invention. The atomizer resistance on-line detecting device includes The resistance detector 1 , the first probe 2 and the second probe 3 connected to the resistance detector 1 , the material conveying mechanism 4 for conveying the atomizer 7 to the station to be tested, and the atomizer 7 A fixing mechanism 5 fixed to the station to be tested, and a driving mechanism 6 provided on the fixing mechanism 5 for driving the first probe 2 and the second probe 3 to be in contact with the positive and negative electrodes of the atomizer 7, respectively.

In operation, the material conveying mechanism 4 transfers the atomizer 7 to the station to be tested; the fixing mechanism 5 fixes the atomizer 7 on the station to be tested to avoid the influence of the atomizer 7 offset during the detection process. Resistance test; the driving mechanism 6 drives the first probe 2 and the second probe 3 connected to the resistance detector 1 to be in contact with the positive and negative electrodes of the atomizer 7, respectively, to realize on-line detection of resistance. The atomizer resistance on-line detecting device provided by the invention can effectively improve the resistance detecting efficiency of the atomizer 7, and can save a lot of labor costs.

 As shown in Figures 1, 2 and 3, the material transfer mechanism 4 includes a drive assembly 41, is coupled to the drive assembly 41, and is coupled to the drive assembly 41. a rotary shaft 42 for driving the lower rotation, a turntable 43 connected to the rotary shaft 42 and rotatable about the rotary shaft 42, and a transmission assembly 41 is connected to a first drive assembly (not shown) for driving the rotation of the transmission assembly. It can be understood that the turntable 43 is provided with a plurality of clamping atomizers 7 The fixture 44, the atomizer 7 is fixed to the turntable 43 by the fixture 44 and rotates with the turntable 43. Specifically, the first drive component includes a servo motor Or other device capable of providing driving force, the servo motor can precisely control the rotation speed of the rotating shaft 42 to drive the turntable 43, so that the material conveying mechanism 4 can more accurately transfer the atomizer 7 to the station to be tested, and the position precision is accurate.

 The fixing mechanism 5 includes a fixing bracket 51, a second driving assembly 52 disposed above the fixing bracket 51, and a second driving assembly 52. A connecting member 53 which is connected and moved up and down by the second driving unit 52, the connecting member 53 is disposed above the station to be tested of the atomizer 7, and the atomizer 7 is moved when the connecting member 53 moves downward. Fixed at the station to be tested. Specifically, the second drive assembly 52 includes a motor or cylinder that drives the connecting member 53 to move up and down. The connecting member 53 is provided with a diameter larger than the diameter of the atomizer 7 for accommodating A groove 531 of the atomizer 7 is used to fix the atomizer 7 at the station to be tested. It can be understood that when the material conveying mechanism 4 transfers the atomizer 7 to the station to be tested, the second driving assembly 52 drives the connecting member 53 to move downward, so that the upper end portion of the atomizer 7 enters the groove 531 of the connecting member 53, The atomizer 7 is compacted to avoid offset of the position of the atomizer 7 during resistance detection.

 The driving mechanism 6 includes a bottom portion 2 or a second probe 3 disposed under the station to be tested for contacting the anode or the cathode of the atomizer 7 The third driving component 61, and correspondingly, a fourth driving component 62 disposed above the station to be tested for driving the second probe 3 or the first probe 2 to contact the negative or positive electrode of the atomizer 7. It can be understood that if the third driving component 61 drives the first probe 2 to be in positive contact with the atomizer 7, the fourth driving component 62 drives the second probe 3 to contact the negative electrode of the atomizer 7, or vice versa.

 The specific structure and working principle of the drive mechanism 6 will be described below with reference to Embodiment 1 and Embodiment 2.

 As shown in Fig. 3, the positive electrode of the atomizer 7 is at the bottom and the negative electrode is at the top. The third drive assembly 61 includes a first probe 2 for fixing the vertical arrangement The first fixing block 611 and the vertical movement for driving the first fixing block 611 to bring the first probe 2 into contact with the positive electrode of the atomizer 7 The component 612 is driven vertically. As can be appreciated, the vertical drive assembly 612 includes a motor or cylinder for driving the vertical movement of the first fixed block 611. The fourth drive assembly 62 includes a second probe 3 for securing the lateral arrangement The second fixing block 621 and the second fixing block 621 are laterally moved to bring the second probe 3 into contact with the negative electrode of the atomizer 7. The lateral drive assembly 622. As can be appreciated, the lateral drive assembly 622 includes a motor or cylinder for driving the second fixed block 621 to move laterally. Specifically, the vertical drive assembly 612 and the lateral drive assembly 622 It is placed on the fixing bracket 51.

When the material conveying mechanism 4 transfers the atomizer 7 to the station to be tested and fixes the atomizer 7 to the station to be tested using the fixing mechanism 5, the third driving unit 61 and the fourth driving unit 62 simultaneously operate. The vertical driving assembly 612 drives the first fixing block 611 to be positively connected to the atomizer 7 so that the first probe 2 contacts the positive electrode of the atomizer 7; the lateral driving component 622 drives the second fixing block 621 to approach the negative electrode of the atomizer 7, So that the second probe 3 contacts the negative electrode of the atomizer 7; the resistance detector 1 works to detect the resistance between the positive and negative electrodes of the atomizer 7, and completes the on-line detection of the resistance.

 Example 2

 As shown in Fig. 4, the negative electrode of the atomizer 7 is at the bottom and the positive electrode is at the upper side. The third drive assembly 61 includes a second probe 3 for fixing the vertical arrangement The first fixing block 611 and the vertical movement for driving the first fixing block 611 to bring the second probe 3 into contact with the negative electrode of the atomizer 7 The component 612 is driven vertically. As can be appreciated, the vertical drive assembly 612 includes a motor or cylinder for driving the vertical movement of the first fixed block 611. The fourth drive assembly 62 includes a first probe 2 for securing the lateral arrangement The second fixing block 621 and the second fixing block 621 are laterally moved to bring the first probe 2 into contact with the negative electrode of the atomizer 7. The lateral drive assembly 622. As can be appreciated, the lateral drive assembly 622 includes a motor or cylinder for driving the second fixed block 621 to move laterally. Specifically, the vertical drive assembly 612 and the lateral drive assembly 622 It is placed on the fixing bracket 51.

When the material conveying mechanism 4 transfers the atomizer 7 to the station to be tested and fixes the atomizer 7 to the station to be tested using the fixing mechanism 5, the third driving unit 61 and the fourth driving unit 62 simultaneously operate. The vertical driving assembly 612 drives the first fixing block 611 to approach the negative electrode of the atomizer 7 so that the second probe 3 contacts the negative electrode of the atomizer 7; the lateral driving component 622 drives the second fixing block 621 to positively approach the atomizer 7, The first probe 2 is brought into contact with the positive electrode of the atomizer 7; the resistance detector 1 operates to detect the resistance between the positive and negative electrodes of the atomizer 7, and the on-line detection of the resistance is completed.

More specifically, in order to ensure the detection accuracy of the resistance detector 1, the oxidation of the first probe 2 and the second probe 3 and the error of the resistance detector 1 itself are prevented from causing a detection error, thereby producing a defective product. The atomizer resistance is checked by the on-line detector at a timing. Specifically, by making the first probe 2 and the second probe 3 turn on the standard resistance, the resistance detector 1 is determined according to the detection result and the standard resistance value. Detection accuracy.

 The present invention has been described in terms of several specific embodiments, and those skilled in the art will understand that without departing from the invention In the case of a range, various modifications and equivalents can be made to the invention. In addition, various modifications may be made to the invention without departing from the scope of the invention. Therefore, the present invention The invention is not limited to the specific embodiments disclosed, but all embodiments that fall within the scope of the appended claims.

Claims (10)

 An atomizer resistance online detecting device, comprising: a resistance detector (1), a first probe (2) connected to the resistance detector (1), and a second probe (3), a material conveying mechanism (4) for conveying the atomizer (7) to the station to be tested, and a fixing device (7) for fixing the atomizer (7) at the station to be tested Fixing mechanism (5), disposed in said A driving mechanism (6) on the fixing mechanism (5) for driving the first probe (2) and the second probe (3) to respectively contact the positive and negative electrodes of the atomizer (7). The atomizer resistance line detecting device according to claim 1, wherein said material conveying mechanism (4) comprises a transmission assembly (41), and said a rotating shaft (42) connected to the driving assembly (41) and driven by the transmission assembly (41), connected to the rotating shaft (42) and rotatable about the rotating shaft (42) a turntable (43), and a first drive assembly connected to the transmission assembly (41) for driving rotation of the transmission assembly (41); the turntable (43) is provided with a plurality of grooves for clamping the mist Chemist (7) Fixture (44). The atomizer resistance line detecting device according to claim 2, wherein said first driving unit comprises a servo motor. The atomizer resistance line detecting device according to claim 1, wherein the fixing mechanism (5) comprises a fixing bracket (51), and is disposed in the a second driving assembly (52) above the fixing bracket (51), a connecting member (53) connected to the second driving assembly (52) and moving up and down by the second driving assembly (52), A connecting member (53) is disposed above the station to be tested of the atomizer (7), and the atomizer (7) is fixed to the station to be tested when the connecting member (53) moves downward. The atomizer resistance line detecting device according to claim 4, wherein said second driving unit (52) comprises driving said connecting member (53) A motor or cylinder that moves up and down. The atomizer resistance line detecting device according to claim 4, wherein the connecting member (53) is provided with a diameter larger than the atomizer (7) A groove (531) for accommodating the atomizer (7) is sized to fix the atomizer (7) at the station to be tested. The atomizer resistance on-line detecting device according to claim 4, wherein the driving mechanism (6) comprises a bottom portion disposed under the station to be tested for driving the a first driving (2) or a second probe (3), a third driving component (61) contacting the positive or negative electrode of the atomizer (7), disposed above the station to be tested for driving the Second probe (3) or The first probe (2) is a fourth drive assembly (62) that is in contact with the negative or positive electrode of the atomizer (7). The atomizer resistance line detecting device according to claim 7, wherein said third driving unit (61) comprises a first probe (2) for fixing a vertical setting a first fixed block (611) and a vertical drive assembly for driving the first fixed block (611) to move vertically to bring the first probe (2) into positive contact with the atomizer (7) (612) The fourth drive assembly (62) includes a second fixed block (621) for fixing the laterally disposed second probe (3) and for moving the second fixed block (621) laterally to cause the a second probe (3) a lateral drive assembly (622) in contact with the negative electrode of the atomizer (7); the vertical drive assembly (612) and the lateral drive assembly (622) are disposed in On the fixing bracket (51). The atomizer resistance line detecting device according to claim 7, wherein said third driving unit (61) comprises a second probe (3) for fixing a vertical setting a first fixed block (611) and a vertical drive assembly for driving the first fixed block (611) to move vertically to bring the second probe (3) into contact with the negative electrode of the atomizer (7) (612) The fourth drive assembly (62) includes a second fixed block (621) for fixing the laterally disposed first probe (2) and for moving the second fixed block (621) laterally to cause the a first probe (2) a lateral drive assembly (622) in contact with a negative electrode of the atomizer (7); the vertical drive assembly (612) and the lateral drive assembly (622) are disposed in On the fixing bracket (51). The atomizer resistance line detecting device according to any one of claims 8 or 9, wherein said vertical driving assembly (612) and said The lateral drive assembly (622) includes a motor or cylinder.