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CN-224210614-U - Full-automatic carbon fiber forming line

CN224210614UCN 224210614 UCN224210614 UCN 224210614UCN-224210614-U

Abstract

The utility model discloses a full-automatic carbon fiber forming line which comprises a transverse moving conveying line, wherein a die opening operation table is arranged at the end part of the transverse moving conveying line, a plurality of presses and at least one die warehouse are correspondingly arranged at the side part of the transverse moving conveying line, a single-layer or multi-layer die placing table is arranged in the die warehouse, guide rails are respectively arranged on the transverse moving conveying line and correspond to the die warehouse and the presses, a traction device and a moving part are arranged in the guide rails, a drag hook is hinged on the moving part, a trigger slope is arranged at the front section of the drag hook, a hook driving device is arranged in cooperation with the drag hook, lifting side blocks are respectively arranged at the left side and the right side of the guide rail, side sliding parts are arranged on the lifting side blocks, side protection is realized when a die moves through the side sliding parts, a bottom supporting part is arranged at the inner side of the lifting side blocks, a top sliding part is arranged on the top surface of the bottom supporting part, and bottom supporting and moving are realized when the die moves through the top sliding parts.

Inventors

  • FANG GUANGHUI
  • SHI SHUICAI
  • Cai Zhipo
  • SU HUALIAN
  • Gao Shuixiu
  • JIANG JINRONG
  • ZHOU ZHENSHENG
  • Ye Fangluan

Assignees

  • 福建华锻动力液压科技有限公司

Dates

Publication Date
20260508
Application Date
20250418

Claims (10)

  1. 1. A full-automatic carbon fiber forming line is characterized by comprising a transverse moving conveying line, wherein a die opening operation table is arranged at the end part of the transverse moving conveying line, a plurality of presses and at least one die warehouse are correspondingly arranged at the side part of the transverse moving conveying line, a single-layer or multi-layer die placing table is arranged in the die warehouse, guide rails are respectively arranged on the transverse moving conveying line and correspond to the die warehouse and the presses, a traction device and a moving part are arranged in the guide rails, a drag hook is hinged on the moving part, a triggering slope is arranged at the front section of the drag hook and matched with the drag hook, a hook driving device is arranged on the left side and the right side of the guide rail, lifting side blocks are respectively arranged on the left side and the right side of the guide rails, a side sliding piece is arranged on the inner side of each lifting side block, and a bottom supporting piece is arranged on the top surface of the bottom supporting piece.
  2. 2. The fully automatic carbon fiber molding line of claim 1, wherein two hook driving devices are provided.
  3. 3. The fully automatic carbon fiber molding line of claim 1, wherein a workbench is arranged in the press, a workbench sliding part is arranged on the workbench, and a side baffle is also arranged on the workbench.
  4. 4. The fully automatic carbon fiber molding line of claim 3, wherein the front side of the workbench is externally provided with a supporting guide wheel.
  5. 5. The fully automatic carbon fiber molding line of claim 1, wherein the mold opening operation table is provided with a lifting table, the left side and the right side of the lifting table are provided with mold opening lifting frames, and the mold opening lifting frames are provided with mold opening protrusions.
  6. 6. The fully-automatic carbon fiber molding line of claim 1, wherein the mold warehouse comprises a base and a top frame, a guide post and a lifting area are arranged between the base and the top frame, a vertical driving device is arranged in the lifting area in a matched mode for realizing the vertical movement of the lifting area along the guide post, a plurality of mold placing tables are arranged in the lifting area, a front side positioning device and a rear side positioning device are arranged in each mold placing table, and a flow guiding device is arranged in each mold placing table and is arranged on the side part and the mold placing table.
  7. 7. The fully automatic carbon fiber molding line of claim 6, wherein a positioning pin is arranged between the lifting area and the outside, and a positioning hole is arranged on the lifting area and is in plug-in fit with the positioning pin.
  8. 8. The fully automatic carbon fiber molding line of claim 6, wherein the lifting area is provided with a movable limiting rod, and a position sensor is arranged in cooperation with the movable limiting rod.
  9. 9. The fully automatic carbon fiber molding line of claim 8, wherein the two position sensors are respectively arranged above and below the lifting area, and limiting use of the lifting area during up and down movement is realized through the position sensors.
  10. 10. The fully automatic carbon fiber molding line of claim 6, wherein each mold placement table is provided with a layer positioning sensor, and the mold placement tables are moved and positioned by the layer positioning sensors.

Description

Full-automatic carbon fiber forming line Technical Field The utility model relates to the technical field of extrusion molding of high-performance carbon fiber material products, and particularly discloses a full-automatic carbon fiber molding line. Background In the processing of high-performance carbon fiber material products, when like products or component products are produced, the prior art is still independently molded, a mold is transferred to the outside through personnel or equipment to be manually paved with raw materials, then the molding mold is hoisted beside a press through a trolley or a crane, the mold is pushed into the inside of the press through force application of personnel, finally extrusion molding of the products is realized, then the molding mold is moved out of the inside of the press through personnel, and the internal finished products are taken out through manual mold opening action. The technical defects of the carbon fiber forming mode can be summarized as that 1, the efficiency is low, in the trend of modification of the existing automatic equipment, the independent operation of a single equipment cannot meet the existing production requirement, 2, the combined operation cannot be realized, the degree of automation is low, in the existing carbon fiber material production mode, most of the carbon fiber material production modes still adopt independent operation among a plurality of equipment, a production system or a production line cannot be formed, the artificial factors are doped too much in the operation process of workers, the uncertainty factors are increased, the failure rate of a die is increased, the yield of products is reduced, and even the risk of industrial accidents is increased. Aiming at the defects, as a technical unit of the heavy press equipment industry, it is necessary to design a fully-automatic carbon fiber forming line, and the purpose is to replace the process or the step of manual operation in the production process by equipment, reduce the operation of personnel as much as possible, improve the production efficiency and the yield, and reduce the occurrence probability of industrial accidents. Disclosure of utility model In order to overcome the defects in the prior art, the utility model provides a full-automatic carbon fiber forming line, which is connected with a forming press by arranging a replacement die trolley, so that synchronous supply and use of a plurality of sets of dies can be realized during operation, and the automatic production efficiency is improved. The full-automatic carbon fiber forming line comprises a transverse moving conveying line, wherein the end part of the transverse moving conveying line is provided with a die opening operation table, the side part of the transverse moving conveying line is correspondingly provided with a plurality of presses and at least one die warehouse, and a single-layer or multi-layer die placing table is arranged in the die warehouse; The left side and the right side of the guide rail are respectively provided with a lifting side baffle, and the lifting side baffle is provided with a side sliding piece; The inner side of the lifting side block is provided with a bottom support piece, the top surface of the bottom support piece is provided with a top surface sliding piece, and the bottom support and the movement during the movement of the die are realized through the top surface sliding piece. The two hook driving devices are used for realizing unhooking driving on the transverse moving conveying line and unhooking driving on the front side of the press or the die warehouse. The press inside be provided with the workstation, be provided with the workstation slider on the workstation, the workstation on still be provided with the side baffle, the side protection when realizing the mould removal through the side baffle. The front side of the workbench is externally provided with a supporting guide wheel, and the movable support of the die is realized through the supporting guide wheel. The die opening operation table is provided with a lifting table, the left side and the right side of the lifting table are provided with die opening lifting frames, and the die opening lifting frames are provided with die opening protrusions. The die warehouse comprises a base and a top frame, a guide pillar and a lifting area are arranged between the base and the top frame, a vertical driving device is arranged in the lifting area in a matched mode and used for achieving vertical movement of the lifting area along the guide pillar, a plurality of die placement tables are arranged in the lifting area, a front side positioning device and a rear side positioning device are arranged in each die placement table, the front side positioning device is adjustable, a flow guiding device is arranged in each die placement table, and the flow guiding devices are arranged on the side portions and the die placement tables. And a p