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CN-224210673-U - Slotting mechanism and carton forming machine comprising same

CN224210673UCN 224210673 UCN224210673 UCN 224210673UCN-224210673-U

Abstract

The application provides a slotting mechanism, which comprises a slotting module, wherein the slotting module comprises a slotting beam, a power mechanism and a constructional beam, the slotting beam is provided with a slotting cutter, the power mechanism is connected with the slotting beam and can drive the slotting beam to reciprocate in the vertical direction, the constructional beam is provided with a groove along the length direction of the slotting beam, and the slotting beam is arranged below the constructional beam in parallel, and the slotting cutter faces the groove. The application also provides a carton forming machine.

Inventors

  • ZHANG TAIZHONG
  • GUAN HONGTAO
  • FAN HONGLIANG
  • Gao Quntian

Assignees

  • 青岛澳派智能包装有限公司

Dates

Publication Date
20260508
Application Date
20250516
Priority Date
20250126

Claims (15)

  1. 1. The utility model provides a slotting mechanism, slotting mechanism includes the fluting module, its characterized in that, the fluting module includes fluting roof beam, power unit and construction roof beam, wherein, the fluting roof beam is provided with the fluting sword, power unit with the fluting roof beam is connected and can drive the fluting roof beam reciprocates in vertical direction, the construction roof beam is provided with the recess along its length direction, and wherein, fluting roof beam parallel arrangement is in the below of construction roof beam, the fluting sword orientation the recess.
  2. 2. The slotting mechanism of claim 1, further comprising a striker wire knife disposed on the slotting beam and oriented toward the groove.
  3. 3. The slotting mechanism of claim 2, wherein the slotting module further comprises a structural beam lifting mechanism, wherein the structural beam lifting mechanism is connected to the structural beam.
  4. 4. A slotting mechanism as claimed in claim 3, wherein said construction beam lifting mechanism comprises a portal frame disposed at both ends of said construction beam, and a lifter disposed at said portal frame, said lifter being connected to said construction beam and capable of adjusting the position of said construction beam in the vertical direction.
  5. 5. The slotting mechanism of claim 4, wherein the support legs of the gantry are provided with guide rails, the two ends of the construction beam are provided with first sliding blocks, and the construction beam and the support legs of the gantry are in sliding connection with the first sliding blocks through the guide rails.
  6. 6. The slotting mechanism of claim 5, wherein the two ends of the slotting beam are provided with second sliding blocks, and the slotting beam is in sliding connection with the supporting legs of the portal frame through guide rails and the second sliding blocks.
  7. 7. The slotting mechanism of claim 6, wherein said structural beam lifting mechanism further comprises a motor, said motor powering said lift.
  8. 8. The slotting mechanism of claim 7, wherein the number of the motors is one, and the motors simultaneously power lifters of the portal frames disposed at both ends of the construction beam through a transmission mechanism.
  9. 9. The slotting mechanism of claim 6, wherein the slotting beams are provided with hollows.
  10. 10. The slotting mechanism of any one of claims 1-9 wherein the grooves are through slots.
  11. 11. The slotting mechanism of claim 10, wherein the slotting mechanism further comprises a waste disposal module.
  12. 12. The slotting mechanism of claim 11, wherein the waste discharging module comprises a waste discharging cutter, a driving cylinder, a connecting block and a waste discharging cutter supporting structure, the driving cylinder is fixed on the construction beam through the waste discharging cutter supporting structure, one end of the waste discharging cutter is connected with the output end of the driving cylinder through the connecting block, and the other end of the waste discharging cutter can extend into the through groove from the upper side of the through groove.
  13. 13. The slotting mechanism of claim 12, wherein the knife edges of the waste knife are provided with arc-shaped grooves.
  14. 14. The slotting mechanism of claim 11 wherein said waste module comprises a suction hood, a suction channel and a suction device, said suction hood covering an end of said through slot remote from said slotting cutter, said suction channel being connected at both ends to said suction hood and said suction device, respectively.
  15. 15. A carton forming machine comprising a slotting mechanism as claimed in any one of claims 1 to 14.

Description

Slotting mechanism and carton forming machine comprising same Technical Field The application belongs to the field of corrugated board processing equipment, and particularly relates to a slotting mechanism and a carton forming machine comprising the slotting mechanism. Background The background description provided herein is for the purpose of generally presenting the context of the disclosure. Work of the presently named inventors, to the extent it is described in this background section, as well as aspects of the description that may not otherwise qualify as prior art at the time of filing, are neither expressly nor impliedly admitted as prior art against the present disclosure. At present, automatic equipment for forming the paper boxes mainly comprises a die cutting machine, a proofing machine and a paper box forming machine. Wherein, the carton forming machine in the prior art utilizes the reciprocating motion of slotting cutter and latch cutter to realize slotting and latch to the cardboard when processing the cardboard. The paper box forming machine is used for processing the paper board on the same side by using a cutter in the process of slotting and line-striking the paper board, and the paper board is required to be faced downwards and the paper is required to be faced upwards during processing. The purpose of doing so is to guarantee the processing effect, because in the multilayer structure of corrugated board, the facial tissue is thickest and hardest, and intensity is highest, just can make the deformation of cardboard in the shearing process minimum with facial tissue down, guarantee the incision quality, secondly guarantee the latch line effect, because can cause darker indentation to the latch line side when the latch line to the shaping after the cardboard processing is convenient for, in order to guarantee shaping aesthetic measure, reduce the latch line fracture simultaneously, need to regard relatively softer lining paper as the latch line side. In the prior art, if digital printing is to be performed on the paperboard, the surface paper of the paperboard is required to be upward, and the inner paper is required to be downward. In the case of using a carton forming machine to process a paperboard, if the paperboard needs to be digitally printed, the paperboard needs to be reversed by 180 degrees after the printing is finished, so that the surface paper of the paperboard faces downwards and the inner paper faces upwards, thereby facilitating slotting and line-striking of the paperboard, and the whole carton processing flow is complex and the processing efficiency is low. In addition, when the carton forming machine in the prior art is used for carrying out line striking on the paperboard, the problem of line striking and edge jumping easily occurs due to the fact that the line striking knife lacks support. Accordingly, a new device is needed to address at least one of the problems described above. Disclosure of utility model This section presents in simplified form the option of inventive concepts, which will be further apparent from the detailed description below. This section is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter. Aiming at the problems existing in the prior art, the application provides a slotting mechanism, which comprises a slotting module, wherein the slotting module comprises a slotting beam, a power mechanism and a constructional beam, the slotting beam is provided with a slotting cutter, the power mechanism is connected with the slotting beam and can drive the slotting beam to reciprocate in the vertical direction, the constructional beam is provided with a groove along the length direction of the slotting beam, and the slotting beam is arranged below the constructional beam in parallel, and the slotting cutter faces the groove. Preferably, the slotting mechanism further comprises a striker wire knife disposed at the slotting beam, and the striker wire knife is oriented towards the groove. Preferably, the slotting die set further comprises a construction beam lifting mechanism, and the construction beam lifting mechanism is connected with the construction beam. Preferably, the construction beam lifting mechanism comprises a portal frame arranged at two ends of the construction beam, and a lifter arranged at the portal frame, wherein the lifter is connected with the construction beam and can adjust the position of the construction beam in the vertical direction. Preferably, the support legs of the portal frame are provided with guide rails, the two ends of the construction beam are provided with first sliding blocks, and the construction beam and the support legs of the portal frame are in sliding connection with the first sliding blocks through the guide rails. Preferably, the two ends of the grooved beam are provided with second