An auxiliary assembly mechanism for electronic e-liquid cups
By using the clamping and pressing design of the electronic e-liquid cup auxiliary assembly mechanism to press and press the oil storage cotton, the automatic assembly of the cup body and the lower sealing block is realized, which solves the problems of low efficiency and high defect rate, improves assembly efficiency and reduces labor costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN HANQINGDA TECH CO LTD
- Filing Date
- 2025-06-09
- Publication Date
- 2026-06-30
AI Technical Summary
The existing electronic e-liquid cup assembly process is inefficient, has a low degree of automation, and has a high defect rate. In particular, when the fiberglass tube is inserted into the oil storage cotton, the oil storage cotton is easily pushed out.
An auxiliary assembly mechanism for electronic e-liquid cups is adopted, including a base plate, first and second lifting drive components, a clamping mechanism, and a cotton pressing mechanism. By clamping and pressing the oil-collecting cotton, the cup body and the lower sealing block are automatically assembled, preventing the oil-collecting cotton from being pushed out.
It improves assembly efficiency and yield, reduces labor costs, and ensures that the oil storage cotton is not pushed out during assembly.
Smart Images

Figure CN224420145U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of electronic cigarette assembly equipment, specifically to an auxiliary assembly mechanism for electronic e-cigarette liquid cups. Background Technology
[0002] Electronic cigarettes are electronic products used as an alternative to traditional cigarettes. They mainly consist of an e-liquid reservoir and a power supply component. In the manufacturing process, the reservoir and power supply component are typically assembled separately before being joined together. For example... Figure 1 , 2 As shown, the electronic e-liquid cup mainly includes a cup body 100 and a lower sealing block 200. An oil-retaining cotton 300 is installed inside the cup body 100, and a heating element 400 is mounted on the lower sealing block 200. A fiberglass tube 500 is mounted on the heating element 400. When assembling the e-liquid cup, the lower end of the cup body 100 needs to be inserted and fixed to the lower sealing block 200. The lower sealing block 200 seals the lower end of the cup body 100 to facilitate subsequent filling with e-liquid. Simultaneously, during the insertion process, the fiberglass tube 500 and the heating element 400 need to be inserted into pre-set holes within the oil-retaining cotton 300.
[0003] Current methods typically rely on manual assembly, which is not only inefficient and increases labor costs, but also prone to causing the oil-collecting cotton to be pushed out of the cup during the assembly process, especially when the fiberglass tube is inserted, leading to assembly defects. Therefore, the existing method suffers from low automation, low efficiency, and a relatively high defect rate; improvements are urgently needed. Utility Model Content
[0004] To address some or all of the problems existing in the prior art, this utility model provides an auxiliary assembly mechanism for an electronic e-liquid cup. The electronic e-liquid cup includes a cup body with an oil-retaining cotton inside. The auxiliary assembly mechanism includes a substrate, on which a first lifting drive is mounted. A mounting bracket is mounted on the output end of the first lifting drive, and a first clamping mechanism is mounted on the mounting bracket. The first clamping mechanism has a cotton-pressing mechanism for pressing and covering the oil-retaining cotton inside the cup body. The first clamping mechanism is used to clamp the cup body. The first lifting drive can drive the first clamping mechanism to move up and down. A second lifting drive is mounted on the mounting bracket, and a second clamping mechanism is mounted on the output end of the second lifting drive. The second clamping mechanism is used to clamp the guide rod inside the oil-retaining cotton.
[0005] As a further improvement of this utility model, the first clamping mechanism includes a clamping motor, which is connected to the mounting frame. The mounting frame is provided with a rotatable driving wheel and a driven wheel. The driving wheel is connected to the output end of the clamping motor. A transmission belt is sleeved on the driving wheel and the driven wheel. A first clamping block is provided on one side of the transmission belt, and a second clamping block is provided on the other side of the transmission belt. The transmission belt can drive the first clamping block and the second clamping block to move closer or further apart.
[0006] As a further improvement of this utility model, a drive wheel is provided on the output end of the clamping motor, and the drive wheel is connected to the driving wheel by a belt.
[0007] As a further improvement of this utility model, the mounting bracket is provided with a first guide rail, and the first clamping block and the second clamping block are respectively slidably engaged with the first guide rail.
[0008] As a further improvement of this utility model, the cotton pressing mechanism includes a first pressing block and a second pressing block, wherein the first pressing block is connected to the first clamping block and the second pressing block is connected to the second clamping block.
[0009] As a further improvement of this utility model, the first clamping block and the second clamping block are respectively provided with a plurality of clamping grooves, the clamping grooves are used to clamp the cup body, and the positions of the first pressing block and the second pressing block correspond one-to-one with the clamping grooves.
[0010] As a further improvement of this utility model, the substrate is provided with a plurality of guide sleeves, and the mounting bracket is provided with guide rods at corresponding positions to the guide sleeves. The guide rods pass through the corresponding guide sleeves and slide in cooperation with the guide sleeves.
[0011] As a further improvement of this utility model, the second clamping mechanism includes a mounting plate, which is slidably connected to the mounting frame. The mounting plate is connected to the output end of the second lifting drive component. The mounting plate is provided with a first cylinder and a second cylinder. A third clamping block is provided on the output end of the first cylinder, and a fourth clamping block is provided on the output end of the second cylinder. The first cylinder can drive the third clamping block to move closer to or away from the fourth clamping block, and the second cylinder can drive the fourth clamping block to move closer to or away from the third clamping block.
[0012] As a further improvement of this utility model, the mounting bracket is provided with a lifting guide rail, and the mounting plate is provided with a lifting slider at a position corresponding to the lifting guide rail, and the lifting slider is slidably engaged with the lifting guide rail.
[0013] As a further improvement of this utility model, the mounting plate is provided with a second guide rail, and the third clamping block and the fourth clamping block are respectively slidably engaged with the second guide rail.
[0014] Compared with the prior art, the beneficial effects of this utility model are:
[0015] This invention enables the automatic assembly and pressing of the cup body and the lower sealing block, and prevents the oil storage cotton from being pushed out during the assembly process, thereby improving assembly efficiency and yield, and reducing labor costs. The electronic e-liquid cup auxiliary assembly mechanism is installed on an external drive device, which can drive the substrate to move. During assembly, the external drive device drives the substrate to move, causing the first clamping mechanism to move to the top of the cup body. Then, through the cooperation of the first lifting drive and the first clamping mechanism, the cup body is picked up. After that, the external drive device drives the substrate to move, causing the first clamping mechanism to move to the top of the lower sealing block. Then, the first lifting drive drives the first clamping mechanism to lower the cup body. The cotton pressing mechanism and the second clamping mechanism move synchronously with the first clamping mechanism. The cotton pressing mechanism presses down on the oil-collecting cotton inside the cup body. After the cotton pressing mechanism presses down on the oil-collecting cotton, the second clamping mechanism is also aligned with the guide rod inside the oil-collecting cotton. Then, the second clamping mechanism holds the guide rod, and the second lifting drive drives the second clamping mechanism to rise, pulling the guide rod out of the oil-collecting cotton. Finally, the first lifting drive drives the first clamping mechanism to fall, so that the cup body is inserted into the lower sealing block, and the fiberglass tube and heating core are inserted into the oil-collecting cotton. Because the cotton-pressing mechanism presses down on the oil-collecting cotton, the oil-collecting cotton will not be pushed out of the cup during the process of pulling out the guide rod and inserting the fiberglass tube. Attached Figure Description
[0016] To more clearly illustrate the solutions in this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0017] Figure 1 This is a structural diagram of the electronic e-liquid cup before assembly;
[0018] Figure 2 This is a schematic diagram of the assembly structure of the lower sealing block, heating element, and fiberglass tube in an electronic e-liquid cup;
[0019] Figure 3 This is a three-dimensional structural diagram of an embodiment of the present utility model;
[0020] Figure 4 This is a side view structural diagram of an embodiment of the present utility model;
[0021] Figure 5 This is a schematic diagram of the structure of the first clamping mechanism in an embodiment of this utility model;
[0022] Figure 6 This is a schematic diagram of the structure of the second clamping mechanism in an embodiment of this utility model. Detailed Implementation
[0023] Unless otherwise defined, all technical and scientific terms used in this invention have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains; the terminology used in the specification is for the purpose of describing particular embodiments only and is not intended to limit the invention; the terms "comprising" and "having," and any variations thereof, in the specification, claims, and accompanying drawings of this invention are intended to cover non-exclusive inclusion. The terms "first," "second," etc., in the specification, claims, or accompanying drawings of this invention are used to distinguish different objects, not to describe a particular order.
[0024] In this invention, the reference to "embodiment" means that a specific feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of this invention. The appearance of this phrase in various places in the specification does not necessarily refer to the same embodiment, nor is it a mutually exclusive, independent, or alternative embodiment to other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described in this invention can be combined with other embodiments.
[0025] To enable those skilled in the art to better understand the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.
[0026] like Figure 1-6 As shown, an auxiliary assembly mechanism for an electronic e-liquid cup is disclosed. The electronic e-liquid cup includes a cup body 100 and a lower sealing block 200. An oil-retaining cotton 300 is disposed inside the cup body 100, and a heating element 400 and a fiberglass tube 500 are disposed on the lower sealing block 200. In the front-end assembly process, a guide rod 600 is inserted into the oil-retaining cotton 300 inside the cup body 100 to prevent deformation of the oil-retaining cotton 300. Simultaneously, the front-end process also assembles the heating element 400, the fiberglass tube 500, and the lower sealing block 200. This auxiliary assembly mechanism for the electronic e-liquid cup secures the cup body 100, assembled in the front-end process, to the lower sealing block 200.
[0027] The electronic e-liquid cup auxiliary assembly mechanism includes a substrate 1. During processing, the substrate 1 is mounted on an external driving device, which can drive the substrate 1 to move. A first lifting drive component 2 is provided on the substrate 1. A mounting bracket 3 is provided on the output end of the first lifting drive component 2. The first lifting drive component 2 can drive the mounting bracket 3 to move up and down. A first clamping mechanism 4 is provided on the mounting bracket 3. A cotton pressing mechanism 5 is provided on the first clamping mechanism 4. The cotton pressing mechanism 5 is used to press and cover the oil-retaining cotton 300 inside the cup body 100. The first clamping mechanism 4 is used to clamp the cup body 100. The first lifting drive component 2 can drive the first clamping mechanism 4 to move up and down, thereby driving the cup body 100 to move up and down. Through the cooperation of the first lifting drive component 2 and the first clamping mechanism 4, the cup body 100 with the oil-retaining cotton 300 is clamped up, and the cup body 100 can also be inserted into the lower sealing block 200. The mounting bracket 3 is provided with a second lifting drive 6, and the output end of the second lifting drive 6 is provided with a second clamping mechanism 7. The second lifting drive 6 can drive the second clamping mechanism 7 to move up and down. The second clamping mechanism 7 is used to clamp the guide rod 600 inside the oil storage cotton 300. Through the cooperation of the second lifting drive 6 and the second clamping mechanism 7, the guide rod 600 inside the oil cup can be pulled out.
[0028] During assembly, the external drive device moves the base plate 1, causing the first clamping mechanism 4 to move directly above the cup body 100. Then, through the cooperation of the first lifting drive 2 and the first clamping mechanism 4, the cup body 100 is gripped. Next, the external drive device moves the base plate 1, causing the first clamping mechanism 4 to move directly above the lower sealing block 200. Then, the first lifting drive 2 drives the first clamping mechanism 4 to lower the cup body 100. The cotton pressing mechanism 5 and the second clamping mechanism 7 move synchronously with the first clamping mechanism 4. The cotton pressing mechanism 5 presses down on the oil-retaining cotton 300 inside the cup body 100. After the cotton pressing mechanism 5 presses down on the oil-retaining cotton 300, the second clamping mechanism 7 aligns with the guide rod 600 inside the oil-retaining cotton 300. Then, the second clamping mechanism 7 holds the guide rod 600, and the second lifting drive 6 drives the second clamping mechanism 7 to rise, pulling the guide rod 600 out of the oil-retaining cotton 300. Finally, the first lifting drive 2 drives the first clamping mechanism 4 to descend, causing the cup body 100 to be inserted into the lower sealing block 200. At the same time, the fiberglass tube 500 and the heating core 400 are inserted into the oil storage cotton 300. Because the cotton pressing mechanism 5 presses down on the oil storage cotton 300, the oil storage cotton 300 will not be pushed out of the cup body 100 during the process of pulling out the guide rod 600 and inserting the fiberglass tube 500.
[0029] The electronic e-liquid cup auxiliary assembly mechanism can automatically assemble and press the cup body 100 with the lower sealing block 200, and can prevent the oil storage cotton 300 from being pushed out during the assembly process, thereby improving the assembly efficiency and yield rate and reducing labor costs.
[0030] In this embodiment, both the first lifting drive component 2 and the second lifting drive component 6 are electric cylinders. In other embodiments, other structures or devices capable of linear drive can be used to replace the first lifting drive component 2 and the second lifting drive component 6; for example, a motor lead screw structure, a motor pulley structure, or a cylinder structure, etc.
[0031] To limit and guide the lifting and lowering movement of the mounting frame 3, four guide sleeves 8 are rectangularly distributed on the base plate 1. Guide rods 9 are respectively provided on the mounting frame 3 at corresponding positions to the guide sleeves 8, passing through the corresponding guide sleeves 8 and slidingly engaging with them. When the first lifting drive 2 operates, it drives the mounting frame 3 to lift and lower, causing the mounting frame 3 to slide the guide rods 9 within their respective guide sleeves 8. The engagement of the guide rods 9 and guide sleeves 8 limits and guides the movement direction of the mounting frame 3. In other embodiments, the number of guide rods 9 and guide sleeves 8 can be any other number, as long as they are set in a one-to-one correspondence.
[0032] like Figure 5 The first clamping mechanism 4 includes a clamping motor 41, which is fixedly mounted on the mounting frame 3. A drive wheel 42 is provided on the output end of the clamping motor 41. The mounting frame 3 is provided with a rotatable driving wheel 43 and a driven wheel 44. The driving wheel 43 is connected to the driving wheel 42 through a belt 45. A transmission belt 46 is sleeved on the driving wheel 43 and the driven wheel 44. A first clamping block 47 is provided on one side of the transmission belt 46, and a second clamping block 48 is provided on the other side of the transmission belt 46. The transmission belt 46 can drive the first clamping block 47 and the second clamping block 48 to move closer or further apart. During operation, the clamping motor 41 drives the drive wheel 42 to rotate, and the drive wheel 42 drives the drive wheel 43 to rotate via the belt 45. The drive wheel 43 drives the driven wheel 44 to rotate synchronously via the transmission belt 46. Since the first clamping block 47 and the second clamping block 48 are respectively installed on both sides of the transmission belt 46, the transmission belt 46 will drive the first clamping block 47 and the second clamping block 48 to move in opposite directions during the rotation, so that the first clamping block 47 and the second clamping block 48 move closer to each other or further away from each other, thereby achieving the purpose of clamping or releasing the cup body 100.
[0033] To limit and guide the movement direction of the first clamping block 47 and the second clamping block 48, two first guide rails 49 are installed on the mounting bracket 3, and the first clamping block 47 and the second clamping block 48 are slidably engaged with the first guide rails 49 respectively. When the transmission belt 46 moves, the first clamping block 47 and the second clamping block 48 will slide on the first guide rails 49. The first guide rails 49 can limit the installation position of the first clamping block 47 and the second clamping block 48, and at the same time, they can limit and guide the movement direction of the first clamping block 47 and the second clamping block 48.
[0034] like Figure 4 , Figure 5 As shown, the cotton pressing mechanism 5 includes a first pressing block 51 and a second pressing block 52. The first pressing block 51 is fixedly installed on the first clamping block 47, and the second pressing block 52 is fixedly installed on the second clamping block 48. During operation, the first lifting drive 2 drives the mounting frame 3 to move up and down, which in turn drives the first clamping block 47 and the second clamping block 48 to move synchronously. At the same time, the first pressing block 51 and the second pressing block 52 also move up and down synchronously with the mounting frame 3. When the first clamping block 47 and the second clamping block 48 move to the appropriate height to clamp the cup body 100, the first pressing block 51 and the second pressing block 52 also move to the appropriate height to match the oil-collecting cotton 300 inside the cup body 100. After the clamping motor 41 drives the first clamping block 47 and the second clamping block 48 to clamp the cup body 100, the first pressing block 51 and the second pressing block 52 can just cover the oil-collecting cotton 300 inside the cup body 100, so that the oil-collecting cotton 300 cannot be pushed out of the cup body 100.
[0035] To facilitate clamping, multiple clamping slots 410 are provided on the first clamping block 47 and the second clamping block 48, respectively. The clamping slots 410 are used to clamp the cup body 100, and the first pressing block 51 and the second pressing block 52 correspond one-to-one with the positions of the clamping slots 410. The clamping slots 410 enable the first clamping block 47 and the second clamping block 48 to clamp the cup body 100 more stably, improving operational stability. In this embodiment, the first clamping block 47 and the second clamping block 48 are each provided with 10 clamping slots 410, allowing them to simultaneously clamp 10 cup bodies 100. The first pressing block 51 and the second pressing block 52 respectively press and cover the oil-retaining cotton 300 inside the corresponding cup body 100, improving processing efficiency. In other embodiments, the number of clamping slots 410 can be any other number, and this utility model does not limit this.
[0036] like Figure 6As shown, the second clamping mechanism 7 includes a mounting plate 71, which is slidably connected to the mounting frame 3. The mounting plate 71 is connected to the output end of the second lifting drive 6. The mounting plate 71 is provided with a first cylinder 72 and a second cylinder 73. The output end of the first cylinder 72 is provided with a third clamping block 74, and the output end of the second cylinder 73 is provided with a fourth clamping block 75. The first cylinder 72 can drive the third clamping block 74 to move closer to or further away from the fourth clamping block 75, and the second cylinder 73 can drive the fourth clamping block 75 to move closer to or further away from the third clamping block 74. During operation, when the first clamping mechanism 4 picks up the cup body 100 and moves it to align with the lower sealing block 200, the first pressing block 51 and the second pressing block 52 have already pressed against the oil storage cotton 300 inside the corresponding cup body 100. At this time, the second lifting drive 6 drives the mounting plate 71 to descend, causing the third clamping block 74 and the fourth clamping block 75 to descend synchronously until the third clamping block 74 and the fourth clamping block 75 descend to a height that matches the guide rod 600 inside the cup body 100. Then, the first cylinder 72 and the second cylinder 73 work simultaneously to drive the third clamping block 74 and the fourth clamping block 75 to move closer together. This causes the third clamping block 74 and the fourth clamping block 75 to hold the guide rod 600 inside the cup body 100. Then, the second lifting drive assembly drives the mounting plate 71 to rise, causing the third clamping block 74 and the fourth clamping block 75 to rise synchronously. The third clamping block 74 and the fourth clamping block 75 will pull the guide rod 600 out of the cup body 100, thus achieving the purpose of pulling out the guide rod 600. During this process, the first pressing block 51 and the second pressing block 52 press and cover the oil storage cotton 300 inside the cup body 100, so the oil storage cotton 300 inside the cup body 100 will not be pulled out together during the process of pulling out the guide rod 600.
[0037] After the second clamping mechanism 7 pulls out the guide rod 600, it drives the mounting bracket 3 to descend through the first lifting drive component 2, causing the first clamping block 47 and the second clamping block 48 to descend together. At this time, the first clamping block 47 and the second clamping block 48 clamp the cup body 100. Therefore, after the first clamping block 47 and the second clamping block 48 descend, they will insert the cup body 100 into the lower sealing block 200, so that the heating core 400 and the fiberglass tube 500 are inserted into the central hole in the oil storage cotton 300. Because the oil storage cotton 300 is covered by the first pressing block 51 and the second pressing block 52, the heating core 400 and the fiberglass tube 500 will not be pushed out of the oil storage cotton 300 during the process of being inserted into the oil storage cotton 300.
[0038] To limit and guide the lifting movement of the mounting frame 3, a lifting guide rail 76 is provided on the mounting frame 3. A lifting slider 77 is provided on the mounting plate 71 at a corresponding position to the lifting guide rail 76, and the lifting slider 77 is slidably engaged with the lifting guide rail 76. When the second lifting drive component 6 is working, it drives the mounting plate 71 to move up and down. The mounting plate 71 drives the lifting slider 77 to move synchronously, and the lifting slider 77 slides on the lifting guide rail 76. Through the cooperation between the lifting slider 77 and the lifting guide rail 76, the lifting direction of the mounting plate 71 is limited and guided, improving the stability of the transmission and the accuracy of the control.
[0039] To limit and guide the movement direction of the third clamping block 74 and the fourth clamping block 75, a second guide rail 78 is provided on the mounting plate 71, and the third clamping block 74 and the fourth clamping block 75 are slidably engaged with the second guide rail 78. When the first cylinder 72 and the second cylinder 73 are working, the third clamping block 74 and the fourth clamping block 75 will slide on the second guide rail 78. The second guide rail 78 can limit the installation position of the third clamping block 74 and the fourth clamping block 75, and at the same time, it can limit and guide the movement direction of the third clamping block 74 and the fourth clamping block 75, thereby improving the stability of the transmission and the accuracy of the control.
[0040] The above-described specific embodiments are preferred embodiments of this utility model, and are not intended to limit the specific scope of this utility model. The scope of this utility model includes but is not limited to the specific embodiments described above. All equivalent changes made in accordance with this utility model are within the protection scope of this utility model.
Claims
1. An auxiliary assembly mechanism for an electronic e-liquid cup, the electronic e-liquid cup comprising a cup body, the cup body containing an oil-retaining cotton, characterized in that: The electronic e-liquid cup auxiliary assembly mechanism includes a substrate, on which a first lifting drive is provided. A mounting bracket is provided on the output end of the first lifting drive, and a first clamping mechanism is provided on the mounting bracket. A cotton pressing mechanism is provided on the first clamping mechanism. The cotton pressing mechanism is used to press and cover the oil-storing cotton inside the cup. The first clamping mechanism is used to clamp the cup. The first lifting drive can drive the first clamping mechanism to move up and down. The mounting frame is provided with a second lifting drive component, and the output end of the second lifting drive component is provided with a second clamping mechanism, which is used to clamp the guide rod inside the oil storage cotton.
2. The electronic e-liquid cup auxiliary assembly mechanism according to claim 1, characterized in that: The first clamping mechanism includes a clamping motor connected to the mounting frame. The mounting frame is provided with a rotatable driving wheel and a driven wheel. The driving wheel is connected to the output end of the clamping motor. A transmission belt is sleeved on the driving wheel and the driven wheel. A first clamping block is provided on one side of the transmission belt, and a second clamping block is provided on the other side of the transmission belt. The transmission belt can drive the first clamping block and the second clamping block to move closer or further apart.
3. The electronic e-liquid cup auxiliary assembly mechanism according to claim 2, characterized in that: The output end of the gripping motor is provided with a drive wheel, and the drive wheel is connected to the driving wheel by a belt.
4. The electronic e-liquid cup auxiliary assembly mechanism according to claim 2, characterized in that: The mounting bracket is provided with a first guide rail, and the first clamping block and the second clamping block are respectively slidably engaged with the first guide rail.
5. The electronic e-liquid cup auxiliary assembly mechanism according to claim 2, characterized in that: The cotton pressing mechanism includes a first pressing block and a second pressing block, wherein the first pressing block is connected to the first clamping block and the second pressing block is connected to the second clamping block.
6. The electronic e-liquid cup auxiliary assembly mechanism according to claim 5, characterized in that: The first clamping block and the second clamping block are respectively provided with multiple clamping grooves, which are used to clamp the cup body. The first pressing block and the second pressing block are respectively in one-to-one correspondence with the position of the clamping groove.
7. The electronic e-liquid cup auxiliary assembly mechanism according to claim 1, characterized in that: The substrate is provided with a plurality of guide sleeves, and the mounting bracket is provided with guide rods at corresponding positions to the guide sleeves. The guide rods pass through the corresponding guide sleeves and slide in cooperation with the guide sleeves.
8. The electronic e-liquid cup auxiliary assembly mechanism according to any one of claims 1-7, characterized in that: The second clamping mechanism includes a mounting plate, which is slidably connected to the mounting frame. The mounting plate is connected to the output end of the second lifting drive component. The mounting plate is provided with a first cylinder and a second cylinder. The output end of the first cylinder is provided with a third clamping block, and the output end of the second cylinder is provided with a fourth clamping block. The first cylinder can drive the third clamping block to move closer to or away from the fourth clamping block, and the second cylinder can drive the fourth clamping block to move closer to or away from the third clamping block.
9. The electronic e-liquid cup auxiliary assembly mechanism according to claim 8, characterized in that: The mounting bracket is provided with a lifting guide rail, and the mounting plate is provided with a lifting slider at a position corresponding to the lifting guide rail. The lifting slider is slidably engaged with the lifting guide rail.
10. The electronic e-liquid cup auxiliary assembly mechanism according to claim 8, characterized in that: The mounting plate is provided with a second guide rail, and the third and fourth clamping blocks are respectively slidably engaged with the second guide rail.