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CN-224210661-U - Box making machine

CN224210661UCN 224210661 UCN224210661 UCN 224210661UCN-224210661-U

Abstract

The application provides a box making machine which comprises a die cutting slotting mechanism and a transverse slotting mechanism, wherein the die cutting slotting mechanism comprises a die cutter assembly and a first power mechanism connected with the die cutting slotting mechanism, the die cutter assembly comprises a die cutter, the first power mechanism can drive the die cutter to rotate, the transverse slotting mechanism comprises a transverse slotting cutter assembly and a second power mechanism connected with the transverse slotting cutter assembly, and the second power mechanism can drive the transverse slotting cutter assembly to reciprocate.

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 (20)

  1. 1. The box making machine is characterized by comprising a die cutting slotting mechanism and a transverse slotting mechanism, wherein the die cutting slotting mechanism comprises a die cutter assembly and a first power mechanism connected with the die cutting slotting mechanism, the die cutter assembly comprises a die cutter, the first power mechanism can drive the die cutter to rotate, the transverse slotting mechanism comprises a transverse slotting cutter assembly and a second power mechanism connected with the transverse slotting cutter assembly, and the second power mechanism can drive the transverse slotting cutter assembly to reciprocate.
  2. 2. The box making machine according to claim 1, wherein said die cutter comprises a cutter head and a blade provided on said cutter head, said cutter head being circular in shape provided with a shaft hole, said blade being provided on either side of said cutter head.
  3. 3. The bin gate machine according to claim 2, wherein the first power mechanism includes a drive shaft and a first motor, the drive shaft passing through the shaft bore and being connected to the cutterhead, the first motor being connected to the drive shaft.
  4. 4. A box making machine according to claim 3 wherein said die cutter assembly further comprises a cutterhead support which is capable of contacting said cutterhead and moving said cutterhead in a horizontal direction.
  5. 5. The bin gate machine according to claim 4, wherein said die cutter assembly further includes a third power mechanism, said third power mechanism being coupled to said cutterhead support frame.
  6. 6. The box making machine according to claim 5, wherein the third power mechanism is a third motor, and an output end of the third motor is provided with a gear.
  7. 7. The box making machine of claim 6, wherein said die cut slotting mechanism further comprises a first support beam, said first support beam being provided with a rack that meshes with said gear.
  8. 8. The box making machine according to claim 5, wherein two identical cutting edges are arranged on the same side of the cutter disc at intervals in opposite positions.
  9. 9. The bin maker according to claim 7, wherein the cutterhead support frame is provided with a slider, and the first support beam is provided with a slide rail slidably connected to the slider.
  10. 10. The box making machine of claim 9, wherein said slider and said first support beam are two in number.
  11. 11. The bin gate machine of claim 9, wherein said cutterhead support frame is provided with a limiting device capable of limiting said cutterhead.
  12. 12. The bin gate machine of claim 11, wherein the limit device is a limit wheel or a limit roller.
  13. 13. A machine as claimed in claim 12, wherein the cutterhead is provided with a first recess around its circumference, the stop means extending into the first recess.
  14. 14. The bin maker according to claim 13, wherein said cutterhead support frame is further provided with a swinging blade block, said swinging blade block extending into said first recess.
  15. 15. The bin gate machine according to claim 12, wherein the cutterhead is provided with a rib around its circumference, the cutterhead support is provided with a second groove, the limit wheel or limit roller is provided in the second groove, and the rib extends into the second groove.
  16. 16. The bin maker according to claim 15, wherein said cutterhead support frame is further provided with a swinging blade block, said swinging blade block being provided with a third recess, said rib extending into said third recess.
  17. 17. The box making machine of claim 9, wherein said die cut slotting mechanism further comprises a roller assembly comprising a carrier roller disposed in parallel with respect to said drive shaft.
  18. 18. The box making machine of claim 17, wherein said die cut slotting mechanism further comprises a roller adjustment mechanism for adjusting the position of the carrier rollers.
  19. 19. The carton forming machine of claim 17 wherein the die cut fluting mechanism further comprises a paper feed assembly for feeding paper to the die cut fluting mechanism.
  20. 20. The box making machine of claim 17, wherein said second power mechanism includes an eccentric mechanism, said eccentric mechanism being coupled to said transverse slotting cutter assembly.

Description

Box making machine Technical Field The application belongs to the field of carton forming equipment, and particularly relates to a carton forming machine. 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 corrugated paper packaging industry mainly comprises two types of corrugated paper processing equipment, one type is a paper box forming machine, the paper box forming machine is provided with a transverse slotting mechanism, the transverse slotting mechanism can transversely slotting corrugated paper boards through up-and-down reciprocating motion of slotting cutters, namely, the length direction of the machined slots is perpendicular to the advancing direction of the paper boards, but the paper box forming machine needs the paper boards to stop moving when slotting the paper boards, so that a pause occurs in the advancing process of the paper boards, and the processing efficiency is affected. Moreover, the carton forming machine is limited by the width of the equipment and cannot process cartons having intermediate heights beyond the width of the equipment. The other type is a rotary grooving machine, the equipment can process grooves in the direction parallel to the advancing direction of the corrugated board through a die cutting grooving mechanism, so that the corrugated board can be grooved rapidly, the paperboard does not need to be stopped in the advancing process, the grooving efficiency is high, a longer middle-high carton can be processed, but the equipment is influenced by the size of a die cutting cutter assembly, two grooves with smaller distance cannot be processed, the smaller-volume carton cannot be processed, and the box shape which can be processed by the equipment is limited. In the rotary grooving machine in the prior art, the die cutter component lacks an effective supporting mechanism, so that when the die cutter component performs grooving, the cutter head is easy to shake, and the grooving quality is affected. Accordingly, there is a need for a new die cutter assembly and new carton processing apparatus that address at least one of the above-identified 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. The application provides a box making machine which aims at the problems existing in the prior art and is characterized by comprising a die cutting slotting mechanism and a transverse slotting mechanism, wherein the die cutting slotting mechanism comprises a die cutter assembly and a first power mechanism connected with the die cutting slotting mechanism, the die cutter assembly comprises a die cutter, the first power mechanism can drive the die cutter to rotate, the transverse slotting mechanism comprises a transverse slotting cutter assembly and a second power mechanism connected with the transverse slotting cutter assembly, and the second power mechanism can drive the transverse slotting cutter assembly to reciprocate. Preferably, the die cutter comprises a cutter disc and a cutter edge arranged on the cutter disc, the cutter disc is round and provided with a shaft hole, and the cutter edge is arranged on any side of the cutter disc. Preferably, the first power mechanism comprises a transmission shaft and a first motor, the transmission shaft penetrates through the shaft hole to be connected with the cutter head, and the first motor is connected with the transmission shaft. Preferably, the die cutter assembly further comprises a cutter head supporting frame, wherein the cutter head supporting frame can be in contact with the cutter head and can drive the cutter head to move in the horizontal direction. Preferably, the die cutter assembly further comprises a third power mechanism, and the third power mechanism is connected with the cutter head supporting frame. Preferably, the third power mechanism is a third motor, and the output end of the third motor is provided with a gear. Preferably, the die cutting slotting mechanism further comprises a first support beam provided with a rack meshed with the gear. Preferably, two identical cutting edges are arranged on the same side of the cutterhead at intervals in opposite positions. Preferably, the cutterhead support frame is provided with a sliding block, and the first support beam is provided with a sliding rail in sliding connection with the