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CN-224211709-U - Panel power conveying mechanism and panel production line

CN224211709UCN 224211709 UCN224211709 UCN 224211709UCN-224211709-U

Abstract

The utility model provides a plate power transmission mechanism and a plate production line, the plate power conveying mechanism comprises a connecting frame, a supporting roller, a driving shaft, a driving assembly and a driving belt. The supporting rollers are arranged at intervals along the conveying direction of the plate. Each support roller is arranged along the horizontal direction perpendicular to the plate conveying direction and is rotatably arranged on the connecting frame. The drive shaft is rotatably arranged on the connecting frame and is arranged along the transfer direction of the plate. The driving assembly can drive the driving shaft to rotate. The driving belt is provided with a plurality of driving belts, each driving belt corresponds to each supporting roller one by one, one end of each driving belt is sleeved on the driving shaft, and the other end of each driving belt is sleeved on the corresponding supporting roller. The plate power transmission mechanism provided by the utility model can adapt to the transmission speed of the plate, can avoid friction between the lower surface of the plate and each supporting roller, can avoid the reverse acting force of each supporting roller to the lower surface of the plate, and ensures the quality of the final product.

Inventors

  • YANG HAN
  • YANG PEIQIN

Assignees

  • 保定市欣海阳光板制造有限公司

Dates

Publication Date
20260508
Application Date
20250611

Claims (8)

  1. 1. The board power transmission mechanism, its characterized in that includes: A connecting frame; The support rotating rollers are arranged at intervals along the conveying direction of the plate, are arranged along the horizontal direction perpendicular to the conveying direction of the plate and are rotatably arranged on the connecting frame; The driving shaft is rotatably arranged on the connecting frame and is arranged along the transmission direction of the plate; The driving assembly is used for driving the driving shaft to rotate; The driving belts are arranged in a plurality, each driving belt corresponds to each supporting roller one by one, one end of each driving belt is sleeved on the driving shaft, and the other end of each driving belt is sleeved on the corresponding supporting roller; And along with the transfer of the plates, the driving shafts drive the supporting rotating rollers to synchronously rotate through the driving belts.
  2. 2. The sheet material power transmission mechanism of claim 1, wherein said drive assembly includes: The driver is fixedly arranged on the connecting frame and provided with a power end which is arranged in parallel with the driving shaft; And the chain transmission structure is respectively connected with the power end and the driving shaft.
  3. 3. The sheet power transmission mechanism as defined in claim 1 wherein, each of the drive belts is positioned at one end of the corresponding support roller.
  4. 4. A sheet material power transmission mechanism as claimed in claim 3 wherein one end of each of said support rollers is provided with an annular groove around which the corresponding belt is wound.
  5. 5. The sheet material power transmission mechanism according to claim 3, wherein a plurality of fixed cylinders are fixedly connected to the connecting frame, each fixed cylinder is arranged in one-to-one correspondence with each supporting roller, and each fixed cylinder is coaxially arranged with the corresponding supporting roller; The fixed cylinders are arranged on one side of the connecting frame, which is close to the power end, of the fixed cylinders.
  6. 6. The sheet material power transmission mechanism as defined in any one of claims 1-5 wherein said drive shaft is positioned below each of said support rollers; The connecting frame is provided with a shaft seat for the driving shaft to be rotationally connected.
  7. 7. The sheet material power transmission mechanism as claimed in any one of claims 1 to 5, wherein an outer wall surface of each of said support rollers is covered with a chrome plating polishing layer.
  8. 8. A board production line, characterized by having a board power transmission mechanism according to any one of claims 1-7.

Description

Panel power conveying mechanism and panel production line Technical Field The utility model belongs to the technical field of conveying devices, and particularly relates to a plate power conveying mechanism and a plate production line. Background In the production process of the sunlight plate or the endurance plate, materials are extruded and molded along with an extrusion head, and fixed-length cutting is performed after a cooling step. In the prior art, after the sun plate or the endurance plate is primarily cooled by the cooling pair roller, the sun plate or the endurance plate is subjected to long-stroke air cooling, and then edges are cut. In order to avoid deformation during the transferring process, a plurality of transferring rollers arranged in parallel and at intervals are generally arranged between the cooling pair roller and the cutting edge, so as to support the sunlight plate and the endurance plate. However, the sunlight plate or the endurance plate is not sufficiently cooled and has a certain softening state, so that when contacting with the static supporting rollers, the lower surface of the plate is subjected to reverse acting force from each supporting roller, surface indentation or deformation is often generated, and meanwhile, surface scratch is also caused, particularly, the plate with relatively large thickness (large weight and slower cooling) affects the quality of the final product. Disclosure of utility model The embodiment of the utility model provides a plate power conveying mechanism and a plate production line, which aim to solve the problem of poor practicality caused by easy surface damage after the reverse acting force of each supporting roller is applied in the existing production process of a sunlight plate or a endurance plate. In order to achieve the purpose, the technical scheme adopted by the utility model is that the plate power conveying mechanism comprises: A connecting frame; The support rotating rollers are arranged at intervals along the conveying direction of the plate, are arranged along the horizontal direction perpendicular to the conveying direction of the plate and are rotatably arranged on the connecting frame; The driving shaft is rotatably arranged on the connecting frame and is arranged along the transmission direction of the plate; The driving assembly is used for driving the driving shaft to rotate; The driving belts are arranged in a plurality, each driving belt corresponds to each supporting roller one by one, one end of each driving belt is sleeved on the driving shaft, and the other end of each driving belt is sleeved on the corresponding supporting roller; along with the transfer of the plate, the driving shaft drives the supporting rotary rollers to synchronously rotate through the driving belts, so that the linear speed of the supporting rotary rollers is consistent with the transfer speed of the plate. In one possible implementation, the driving assembly includes: The driver is fixedly arranged on the connecting frame and provided with a power end which is arranged in parallel with the driving shaft; And the chain transmission structure is respectively connected with the power end and the driving shaft. In one possible implementation, each of the driving belts is located at one end of the corresponding supporting roller. In one possible implementation manner, one end of each supporting roller is provided with an annular groove around which the corresponding driving belt winds. In a possible implementation manner, a plurality of fixed cylinders are fixedly connected to the connecting frame, each fixed cylinder is arranged in one-to-one correspondence with each supporting roller, and each fixed cylinder is coaxially arranged with the corresponding supporting roller; The fixed cylinders are arranged on one side of the connecting frame, which is close to the power end, of the fixed cylinders. Each fixing cylinder is used for being sleeved with each driving belt one by one in the process of transferring the plates with thinner thickness and small weight. In one possible implementation, the drive shaft is located below each of the support rollers; The connecting frame is provided with a shaft seat for the driving shaft to be rotationally connected. In one possible implementation, the outer wall surface of each supporting roller is covered with a chromium plating polishing layer. The utility model also provides a plate production line, which comprises the plate power conveying mechanism. Compared with the prior art, the plate power conveying mechanism provided by the implementation mode has the advantages that the supporting rollers are rotationally connected with the connecting frame, and the supporting rollers are arranged at intervals along the conveying direction of the plates, so that the conveyed plates can be supported. The driving shaft and each supporting roller arranged on the connecting frame are vertically arranged, and are in power con