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CN-224210672-U - Grooving latch mechanism and box making machine comprising same

CN224210672UCN 224210672 UCN224210672 UCN 224210672UCN-224210672-U

Abstract

The application provides a slotting and wire-slashing mechanism which comprises a slotting module, a wire-slashing module and a first power module, and is characterized in that the slotting module comprises a slotting cross beam, a slotting cutter arranged on the slotting cross beam, a slotting lower cutter mounting beam and a slotting lower cutter arranged on the slotting lower cutter mounting beam, the wire-slashing module comprises a wire-slashing cross beam, a wire-slashing supporting cross beam and a wire-slashing cutter arranged on the wire-slashing cross beam, the first power module is connected with the slotting module and the wire-slashing module, the slotting cutter and the wire-slashing cutter are oppositely arranged in the vertical direction, and the slotting lower cutter mounting beam and the wire-slashing supporting cross beam are arranged between the slotting cutter and the wire-slashing cutter. The application also provides a box making machine comprising the slotting latch mechanism according to the application.

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
20250430

Claims (13)

  1. 1. The utility model provides a fluting latch mechanism, fluting latch mechanism includes fluting module, latch module and first power module, its characterized in that, the fluting module includes fluting crossbeam, sets up fluting sword, fluting sword installation roof beam and the setting of fluting sword installation roof beam is in under the fluting of sword, the latch module includes latch crossbeam, latch supporting beam and sets up the latch sword of latch crossbeam, first power module with the fluting module with the latch module is connected, wherein, the fluting sword with the latch sword sets up relatively in vertical direction, fluting sword installation roof beam with the latch supporting beam sets up between the fluting sword with the latch sword.
  2. 2. A slotted striker wire mechanism as claimed in claim 1, wherein said first power module includes cam mechanisms disposed at opposite ends of said slotted striker wire mechanism, said cam mechanisms being connected to said slotted beam and opposite ends of said striker wire beam.
  3. 3. A slotted striker wire mechanism according to claim 2, wherein said slotted beam is located above said striker wire beam.
  4. 4. A slotted latch mechanism according to claim 3, wherein said slotted lower blade mounting beam is provided with a first through slot along its length, said slotted lower blade being disposed on either side of said first through slot, said latch blade being opposite said first through slot.
  5. 5. The slotted striker wire mechanism of claim 4, wherein said slotted lower knife mounting beam is in the form of a downwardly opening recess, said striker wire beam being disposed in said recess.
  6. 6. The slotted striker wire mechanism of claim 4, wherein the striker wire support beam is disposed between the slotted beam and the slotted lower knife mounting beam, the striker wire support beam being provided with a second through slot along its length, the slotted knife being opposite the second through slot.
  7. 7. A slotted striker mechanism as defined in claim 6, wherein a side of said second through slot facing said striker is provided with a rib on both sides along a length thereof.
  8. 8. The slotted striker wire mechanism of claim 5, wherein the slotted striker wire mechanism includes a second power module, the striker wire support beam is disposed between the slotted beam and the slotted lower knife mounting beam, the striker wire support beam includes a first body and a second body connected to the second power module, the first body and the second body being capable of being moved toward or away from each other in a horizontal direction by the second power module.
  9. 9. A slotter line mechanism as in claim 8 wherein opposite edges of the first and second bodies are provided with ribs along their respective lengths on a side facing the slotter lower knife mounting beam.
  10. 10. The slotter striker mechanism of claim 7, wherein the striker support beam is in the form of an upwardly open recess in which the slotter knife is located.
  11. 11. The slotted striker wire mechanism of claim 7, further comprising a first height adjustment module coupled to the striker wire beam to enable adjustment of a distance of the striker wire beam relative to the striker wire support beam.
  12. 12. The slotted striker wire mechanism of claim 7, further comprising a second height adjustment module coupled to the striker wire support beam to enable adjustment of the distance of the striker wire support beam relative to the striker wire beam.
  13. 13. A box making machine comprising a slotted striker mechanism as claimed in any one of claims 1 to 12.

Description

Grooving latch mechanism and box making machine comprising same Technical Field The application belongs to the field of automatic processing equipment of corrugated cartons, and particularly relates to a slotting and line-striking mechanism and a carton making machine comprising the slotting and line-striking 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. The slotting and line-striking mechanism is an important component of carton processing equipment and can slotting and line-striking the paperboards so that the paperboards can be formed into cartons. The grooving and line-striking mechanisms disclosed in the prior art such as CN210881089U are all provided with a grooving device and a line-striking device on a beam, grooving and line-striking of the paperboard are realized by driving the up-and-down reciprocating motion of the beam, and when the beam moves towards the paperboard, the line-striking can be realized while grooving the paperboard. However, this slotting and wire-slashing mechanism has some problems in that, firstly, the prior art wire-slashing cutter is installed in a groove at the top of the slotting cutter, and in order to secure the connection strength, the thickness of the slotting cutter needs to be greater than the length of the wire-slashing cutter, which makes it impossible to process a small-sized width slot due to the structure and size of the slotting cutter limited by the wire-slashing cutter. Secondly, the structure is limited in the prior art, and the problem of wire explosion or stupefied is easy to occur when the wires are collided. More importantly, the small-batch order corrugated paper packaging market has more requirements on linkage of a printer and a paper box forming machine, wherein the printing equipment needs to face the surface paper of the paper board upwards when the paper board is printed, and the existing paper box forming machine needs to face the surface paper of the paper board downwards and the inner paper upwards when the paper board is processed, so that a line-striking knife is used for striking the paper board on the inner paper side to ensure good forming effect, and if the printer is used in linkage with the existing paper box forming machine, the paper board needs to be turned over after the printing is finished, so that the processing procedure is complex and the efficiency is low. Other processing equipment in the prior art, such as a die cutter, can be used for processing the face paper upwards and also can be used for processing narrow grooves, but the equipment can only process a few conventional boxes, cannot process any boxes like a carton forming machine, and is not suitable for processing small-batch orders. Accordingly, a new slotted striker mechanism is needed to address at least one of the above problems. 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 and wire-slashing mechanism, which comprises a slotting module, a wire-slashing module and a first power module, wherein the slotting module comprises a slotting cross beam, a slotting cutter arranged on the slotting cross beam, a slotting lower cutter mounting beam and a slotting lower cutter arranged on the slotting lower cutter mounting beam, the wire-slashing module comprises a wire-slashing cross beam, a wire-slashing supporting cross beam and a wire-slashing cutter arranged on the wire-slashing cross beam, the first power module is connected with the slotting module and the wire-slashing module, the slotting cutter and the wire-slashing cutter are oppositely arranged in the vertical direction, and the slotting lower cutter mounting beam and the wire-slashing supporting cross beam are arranged between the slotting cutter and the wire-slashing cutter. Preferably, the first power module comprises cam mechanisms arranged at two ends of the slotted latch mechanism, and the cam mechanisms are connected with the slotted beam and two ends of the latch beam. Preferably, the slotted beam is located above the striker beam. Preferably, the slotting cutter mounting beam is provided with a first through groove along the length direction thereof, the slotting cutter is arranged at two sides of the first through groove, a