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CN-224211364-U - Chopsticks bagging apparatus

CN224211364UCN 224211364 UCN224211364 UCN 224211364UCN-224211364-U

Abstract

The utility model relates to the technical field of bagging, in particular to a chopstick bagging device, which is provided with a conveying assembly of an annular conveying chain/belt, wherein the annular conveying chain/belt is provided with a feeding side and a discharging side, a plurality of material tanks are arranged on the outer annular surface of the annular conveying chain/belt, a bag supporting structure positioned on the discharging side and a lifting assembly driving the discharging side of the annular conveying chain/belt to move in the bag supporting structure along the Z-axis direction are arranged on the conveying assembly, a counterweight assembly movably connected with the conveying assembly in the Z-axis direction and movable with the feeding side of the annular conveying chain/belt is also arranged on the conveying assembly, a guide structure is arranged between the conveying assembly and the lifting assembly and/or the counterweight assembly, and the movement direction of the lifting assembly is opposite to the movement direction of the counterweight assembly so that the annular conveying chain/belt can stretch. According to the utility model, the chopsticks are orderly packaged, the requirement for manual intervention is reduced, the production efficiency is improved, and the production process is more efficient and stable.

Inventors

  • LV HENG
  • LIN DAOXIN
  • Xiang Xiahong
  • ZHANG ZHOUTING

Assignees

  • 安吉安盛竹木机械有限公司

Dates

Publication Date
20260508
Application Date
20250403

Claims (9)

  1. 1. The chopstick bagging device is characterized in that a bag supporting structure positioned on the discharging side and a lifting assembly for driving the discharging side of the annular conveying chain/belt to move in the bag supporting structure along the Z-axis direction are arranged on the conveying assembly, a counterweight assembly movably connected with the conveying assembly in the Z-axis direction and movable with the feeding side of the annular conveying chain/belt is further arranged on the conveying assembly, a guide structure is arranged between the conveying assembly and the lifting assembly and/or the counterweight assembly, and the movement direction of the lifting assembly is opposite to that of the counterweight assembly so that the annular conveying chain/belt can move in a telescopic manner; The conveying assembly comprises a bottom support leg, two lateral baffles are arranged on the bottom support leg, the two lateral baffles are connected through a reinforcing member, the annular conveying chain/belt moves between the two lateral baffles, and the second driving motor drives the annular conveying chain/belt to move.
  2. 2. The chopstick bagging device according to claim 1, wherein the lifting assembly comprises two first lifting plates which are respectively connected with the conveying assembly in a sliding mode in the Z-axis direction, the two first lifting plates are connected with a synchronous lifting driving mechanism, the discharging side of the annular conveying chain/belt is located in a space between the two first lifting plates, and the discharging side of the annular conveying chain/belt is driven to move in the bag supporting structure through the movement of the first lifting plates.
  3. 3. A chopstick bagging apparatus as claimed in claim 2, wherein a first shaft is provided between the lower ends of the two first lifting plates, and a first rotary member is provided on the first shaft for engagement with the endless conveyor chain/belt.
  4. 4. The chopstick bagging apparatus of claim 2, wherein the synchronous lifting drive mechanism is any one of a rack and pinion drive mechanism and a linear drive mechanism.
  5. 5. A chopstick bagging apparatus according to claim 2, 3 or 4, wherein said synchronous lifting drive mechanism comprises racks fixedly provided on said first lifting plate, drive gears meshed with the respective racks are provided on said transfer assembly, and both said drive gears are rotated synchronously by a synchronous transmission mechanism, and one of said drive gears is connected with a first drive motor.
  6. 6. The chopstick bagging apparatus of claim 1, wherein the movement stroke of the weight assembly in the Z-axis direction is greater than the movement stroke of the discharge side of the endless conveyor chain/belt in the Z-axis direction.
  7. 7. A chopstick bagging device according to claim 1, wherein the weight assembly comprises two weight plates which are respectively connected with the conveying assembly in a sliding manner in the Z-axis direction, at least part of the feeding side of the annular conveying chain/belt is positioned in a space formed between the two weight plates, a second shaft body is arranged between the two weight plates, and a second rotating piece meshed with the annular conveying chain/belt is arranged on the second shaft body.
  8. 8. A chopstick bagging apparatus as claimed in claim 1, wherein the bag-supporting structure comprises two cantilevered bag-supporting bars fixed at one end to the transfer assembly.
  9. 9. The chopstick bagging apparatus of claim 7, wherein the weight assembly further comprises a second reinforcing member disposed between and connected to the two weight plates.

Description

Chopsticks bagging apparatus Technical Field The utility model relates to the technical field of bagging, in particular to a chopstick bagging device. Background In the existing chopstick bagging technology, the chopsticks can only be moved to the bag opening through the conveying belt, and the chopsticks fall to the bottom of the bag from the bag opening. In the process, the bag needs to be manually unfolded in place, chopsticks can be randomly stacked at the bottom of the bag, the unordered stacking of the chopsticks can lead to uneven space distribution in the packaging bag, the actual containing space in the bag is reduced, the size of the packaging bag needs to be increased to reach the standard number, the material cost is increased, or the positions of the chopsticks need to be manually interfered and adjusted, so that the automation efficiency is reduced. Disclosure of utility model In view of this, the utility model relates to a chopstick bagging device, which aims to solve the technical problems. The utility model relates to a chopstick bagging device, which is provided with a conveying component of an annular conveying chain/belt, wherein the annular conveying chain/belt is provided with a feeding side and a discharging side, a plurality of material tanks are arranged on the outer annular surface of the annular conveying chain/belt, a bag supporting structure positioned on the discharging side and a lifting component for driving the discharging side of the annular conveying chain/belt to move in the bag supporting structure along the Z-axis direction are arranged on the conveying component, a counterweight component which is movably connected with the conveying component in the Z-axis direction and is movable with the feeding side of the annular conveying chain/belt is also arranged on the conveying component, a guide structure is arranged between the conveying component and the lifting component and/or the counterweight component, and the movement direction of the lifting component and the movement direction of the counterweight component are opposite, so that the annular conveying chain/belt can stretch. In some embodiments of the present application, the lifting assembly includes two first lifting plates slidably connected to the conveying assembly in the Z-axis direction, the two first lifting plates are connected to a synchronous lifting driving mechanism, and the discharging side of the endless conveyor chain/belt is located in a space between the two first lifting plates and is driven to move in the bag supporting structure by the movement of the first lifting plates. In some embodiments of the application, a first shaft is provided between the lower ends of the two first lifting plates, and a first rotating member engaged with the endless conveyor chain/belt is provided on the first shaft. In some embodiments of the application, the synchronous lifting drive is any one of a rack and pinion drive and a linear drive arrangement, and a guide arrangement is provided between the first lifting plate and the transfer assembly. In some embodiments of the present application, the synchronous lifting driving mechanism includes a rack fixedly disposed on the first lifting plate, driving gears meshed with the corresponding racks are disposed on the conveying assembly, the two driving gears synchronously rotate through a synchronous transmission structure, and one of the driving gears is connected with the first driving motor. In some embodiments of the application, the travel of the counterweight assembly in the Z-axis direction is greater than the travel of the outfeed side of the endless conveyor chain/belt in the Z-axis direction. In some embodiments of the present application, the counterweight assembly includes two counterweight plates slidably connected to the conveying assembly in the Z-axis direction, at least a portion of the feeding side of the endless conveying chain/belt is located in a space formed between the two counterweight plates, a second shaft body is disposed between the two counterweight plates, and a second rotating member engaged with the endless conveying chain/belt is disposed on the second shaft body. In some embodiments of the application, the bag support structure comprises two cantilevered bag support bars secured at one end to the transfer assembly. In some embodiments of the present application, the feeding side of the endless conveyor chain/belt is disposed obliquely, the discharging side of the endless conveyor chain/belt is disposed vertically, the conveying assembly includes a bottom leg, two lateral baffles are disposed on the bottom leg, the two lateral baffles are connected by a reinforcing member, and a second driving motor for moving the endless conveyor chain/belt is formed between the two lateral baffles. In some embodiments of the application, the weight assembly further comprises a second reinforcing member disposed between and connected to both of the wei