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CN-224226067-U - Multi-station turnover mechanism applied to electronic atomizer assembly line

CN224226067UCN 224226067 UCN224226067 UCN 224226067UCN-224226067-U

Abstract

The utility model provides a be applied to multistation tilting mechanism on electronic atomizer assembly line, the utility model discloses a mechanical structure adjusts the equipment part gesture, has solved the complexity of multi-process, multi-direction operation in the electronic atomizer equipment, realizes high-efficient, high accuracy automated production's key link, in addition, its value not only embodies in efficiency promotion, more lies in reducing human intervention, ensures the product uniformity, is particularly useful for the electronic cigarette such precision electronic product manufacturing that requires higher to cleanliness factor, leakproofness, simultaneously, can also reduce the human cost effectively; the utility model discloses a supporting seat is provided with a plurality of upset unit on the supporting seat, and upset unit includes rotation axis and rotating electrical machines, and the rotation axis is connected with the supporting seat bearing, is fixed with the anchor clamps cylinder on the rotation axis, and the drive of anchor clamps cylinder has two splint that can draw close or open each other, is equipped with the product mouth that is used for placing and press from both sides tight equipment part on the splint; the utility model belongs to the technical field of test equipment.

Inventors

  • SHU KAIJI
  • PENG WEILE

Assignees

  • 深圳易行自动化设备有限公司

Dates

Publication Date
20260512
Application Date
20250526

Claims (7)

  1. 1. The multi-station turnover mechanism applied to the electronic atomizer assembly line comprises a supporting seat (1) and is characterized in that a plurality of turnover units (2) are arranged on the supporting seat (1), each turnover unit (2) comprises a rotating shaft (21) and a rotating motor (22), each rotating shaft (21) is connected with the supporting seat (1) through a bearing, a clamp cylinder (23) is fixed on each rotating shaft (21), two clamping plates (24) which can be mutually closed or opened are driven by the clamp cylinders (23), product openings (25) for placing and clamping assembly parts are formed in the clamping plates (24), and the rotating motors (22) are installed on the supporting seat (1) and are in transmission connection with the rotating shafts (21).
  2. 2. The multi-station turnover mechanism according to claim 1, wherein the turnover unit (2) further comprises a half-moon shaped sensing piece (26) and an inductor (27), the half-moon shaped sensing piece (26) is mounted on the rotating shaft (21), and the inductor (27) is mounted on the supporting seat (1) and is used for sensing the shape of the half-moon shaped sensing piece (26).
  3. 3. The multi-station turnover mechanism according to claim 1, wherein an air guide pipeline used for being connected with the clamp cylinder (23) is arranged on the inner wall of the rotating shaft (21), and an air source interface (28) is arranged at the outer end of the air guide pipeline.
  4. 4. The multi-station turnover mechanism of claim 1, further comprising a base (3), wherein an upper sliding rail (4) and a shifting cylinder (41) are installed on the base (3), an upper sliding block seat (42) is arranged on the upper sliding rail (4) in a sliding mode, the supporting seat (1) is installed on the upper sliding block seat (42), and the shifting cylinder (41) is in transmission connection with the upper sliding block seat (42).
  5. 5. The multi-station turnover mechanism of claim 4, wherein the base (3) is provided with a lower sliding rail (5), a lower sliding block seat (51) is arranged on the lower sliding rail (5) in a sliding mode, a lifting driving module (52) is arranged on the lower sliding block seat (51), a lifting frame (53) is driven by the lifting driving module (52), the lifting frame (53) is provided with another supporting seat (1), and the shifting cylinder (41) is in transmission connection with the lower sliding block seat (51).
  6. 6. The multi-station turnover mechanism of claim 5, wherein the base (3) is provided with a transmission belt (31), the shift cylinder (41) is used for driving the upper sliding block seat (42) to move, the upper sliding block seat (42) is provided with an upper fixing plate (43) fixed on the upper layer of the transmission belt (31), and the lower sliding block seat (51) is provided with a lower fixing plate (54) fixed on the lower layer of the transmission belt (31).
  7. 7. The multi-station turnover mechanism according to claim 6, wherein buffers (44) for contacting with the upper slider seat (42) are installed at both ends of the upper slider (4) and the lower slider (5).

Description

Multi-station turnover mechanism applied to electronic atomizer assembly line Technical Field The utility model belongs to the technical field of test equipment, and particularly relates to a multi-station turnover mechanism applied to an electronic atomizer assembly line. Background In the electronic atomizer assembly line, each assembly part can be stored in a material preparation station in the most space-saving and relatively stable mode, so that in the assembly process, the assembly parts need to be turned over to adjust the posture of the assembly parts, the physical limitation of multi-process and multi-direction assembly is solved, and the turning over step is an essential and important link of the automatic assembly line. In a conventional assembly line, the assembled parts are turned over by manpower to adjust the posture, so that the problems of low labor efficiency, high labor cost, difficulty in realizing upper computer system management, and poor product consistency are caused. Disclosure of utility model The utility model aims to solve the defects of the prior art, and therefore provides a multi-station turnover mechanism applied to an electronic atomizer assembly line, which is used for realizing the manpower through a mechanical structure belt body, thereby improving the production assembly efficiency, reducing the manpower cost, being capable of conveniently and rapidly carrying out machine position system management and ensuring the consistency of products in production. The technical scheme includes that the turnover device comprises a supporting seat, a plurality of turnover units are arranged on the supporting seat, each turnover unit comprises a rotating shaft and a rotating motor, the rotating shafts are connected with the supporting seat through bearings, clamp cylinders are fixed on the rotating shafts and drive two clamping plates which can be mutually closed or opened, product ports for placing and clamping assembly parts are formed in the clamping plates, and the rotating motors are arranged on the supporting seat and are in transmission connection with the rotating shafts. In some embodiments, the rotating unit further comprises a half-moon shaped sensing piece mounted on the rotating shaft, and an inductor mounted on the supporting base for sensing the shape of the half-moon shaped sensing piece. In some embodiments, an air guide pipeline connected with the clamp cylinder is arranged on the inner wall of the rotating shaft, and an air source interface is arranged at the outer end of the air guide pipeline. In some embodiments, the utility model further comprises a base, wherein an upper sliding rail and a shifting cylinder are arranged on the base, an upper sliding block seat is arranged on the upper sliding rail in a sliding mode, the supporting seat is arranged on the upper sliding block seat, and the shifting cylinder is in transmission connection with the upper sliding block seat. In some embodiments, the base is provided with a lower sliding rail, a lower sliding block seat is slid on the lower sliding rail, a lifting driving module is installed on the lower sliding block seat, a lifting frame is driven by the lifting driving module, another supporting seat is installed on the lifting frame, and the shifting cylinder is in transmission connection with the lower sliding block seat. In some embodiments, a transmission belt is installed on the base, the shift cylinder is used for driving the upper sliding block seat to move, the upper sliding block seat is installed with an upper fixing plate fixed on the upper layer of the transmission belt, and the lower sliding block seat is installed with a lower fixing plate fixed on the lower layer of the transmission belt. In some embodiments, buffers for contacting the upper slider seat are installed at both ends of the upper slider seat and the lower slider seat. The utility model has the beneficial effects that: The gesture of the assembly part is adjusted through the mechanical structure, so that the complexity of multi-procedure and multi-direction operation in the assembly of the electronic atomizer is solved, the key links of high-efficiency and high-precision automatic production are realized, in addition, the value of the electronic atomizer is not only reflected in efficiency improvement, but also in reducing human intervention and guaranteeing product consistency, and the electronic atomizer is particularly suitable for manufacturing precision electronic products with higher requirements on cleanliness and tightness, and meanwhile, the labor cost can be effectively reduced. Drawings In order to more clearly illustrate the embodiments of the present utility model, the drawings and numerals that are required to be used in the description of the embodiments will be briefly described. FIG. 1 is a schematic elevational view of the present utility model; FIG. 2 is a schematic view of the back structure of the present utility mode