CN220576886U - Printing die cutting equipment - Google Patents

Abstract

The embodiment discloses a printing die-cutting device, which comprises a machine body, and an unreeling mechanism, a printing mechanism, a die-cutting mechanism and a slitting and reeling mechanism which are sequentially arranged on the machine body; the slitting winding mechanism comprises a slitting assembly and at least two groups of winding assemblies, wherein the slitting assembly is positioned between the die cutting mechanism and the at least two groups of winding assemblies and used for slitting the die-cut material, and the at least two groups of winding assemblies are arranged at one end of the machine body away from the unreeling mechanism side by side and used for winding the slit material. According to the technical scheme, the automatic printing, die cutting and collecting integration of the labels are realized, manual operation is not needed, the labor intensity is greatly reduced, and the problems that when an existing automatic label printing die cutting machine works, label products are required to be continuously arranged by workers, the workers are stressed in work and the labor intensity is high are solved.

Description

Printing die cutting equipment

Technical Field

The utility model relates to the technical field of printing equipment, in particular to printing die cutting equipment.

Background

With the gradual perfection of the automation technology, the printing field naturally also refers to the automation technology, and compared with the traditional manual printing, the efficiency is obviously improved. The structure of the printer is different according to different application objects, the label printing die-cutting machine is a printing device invented for label printing, and of course, the printer is not only applied to printing of labels, but also can be used for printing paper sheets which are similar to labels, smaller in size and identical in character pattern.

When the existing automatic label printing die-cutting machine works, only a worker is required to load raw materials onto a feeding mechanism, tensioning, printing and die-cutting can be automatically performed, but labels after die-cutting cannot be automatically tidied and collected, the labels are required to be tidied by the worker, mechanical equipment works without fatigue, the worker continuously works behind the equipment, so that the work of the worker is tension, and the labor intensity is high.

Disclosure of Invention

In order to solve the technical problems, the utility model provides printing die cutting equipment.

The embodiment of the application provides printing die cutting equipment, which comprises a machine body, and an unreeling mechanism, a printing mechanism, a die cutting mechanism and a slitting and reeling mechanism which are sequentially arranged on the machine body;

the slitting rolling mechanism comprises a slitting assembly and at least two groups of rolling assemblies, wherein the slitting assembly is positioned between the die-cutting mechanism and the rolling assemblies and used for slitting die-cut materials, and the rolling assemblies are arranged at one end, far away from the unreeling mechanism, of the machine body side by side and used for rolling the slit materials.

In one embodiment, the slitting assembly comprises a power source, a lower cutter shaft, an upper cutter shaft, a slitting cutter and a slitting upper cutter, wherein the lower cutter shaft and the upper cutter shaft are rotatably arranged on the machine body and are arranged along the direction perpendicular to the conveying direction of materials, the upper cutter shaft is positioned right above the lower cutter shaft, the slitting lower cutter and the slitting upper cutter are respectively arranged on the lower cutter shaft and the upper cutter shaft, the slitting lower cutter is opposite to the slitting upper cutter, the power source is fixed on the machine body, the power output end of the power source is connected with the lower cutter shaft or the upper cutter shaft, and the lower cutter shaft is in transmission connection with the upper cutter shaft.

In one embodiment, the winding assembly comprises a winding power piece and a winding shaft, one end of the winding shaft is rotatably connected to one end of the machine body, which is far away from the unwinding mechanism, the other end of the winding shaft extends along the direction perpendicular to the conveying direction of the materials, the winding power piece is fixed on the machine body, and the power output end of the winding power piece is connected with one end of the winding shaft so as to drive the winding shaft to rotate.

In one embodiment, the unreeling mechanism comprises an air expansion shaft and an unreeling force piece, one end of the air expansion shaft is rotatably arranged at one end of the machine body away from the reeling component, the other end of the air expansion shaft extends along the direction perpendicular to the conveying direction of the materials, the unreeling force piece is fixed on the machine body, and the power output end of the unreeling force piece is connected with one end of the air expansion shaft so as to drive the air expansion shaft to rotate.

In one embodiment, the device further comprises a first deviation corrector arranged above the air expansion shaft and used for correcting deviation of materials discharged from the air expansion shaft.

In one embodiment, the printing mechanism comprises a digital printing component, an ink curing component, a flexible printing component and a drying component which are sequentially arranged on the machine body, wherein the digital printing component is arranged on one side of the unreeling mechanism, the ink curing component is arranged at a discharge hole of the digital printing component, the flexible printing component is arranged above one side of the ink curing component, and the drying component is arranged at a discharge hole of the flexible printing component.

In one embodiment, the device further comprises a waste collection mechanism, wherein the waste collection mechanism is arranged between the die cutting mechanism and the slitting and winding mechanism and is used for collecting waste edges generated by cutting of the die cutting mechanism.

In one embodiment, the device further comprises a second deviation corrector, wherein the second deviation corrector is arranged below the strip dividing assembly and is used for correcting deviation of materials guided to the strip dividing assembly.

In one embodiment, the device further comprises a dust remover, wherein the dust remover is arranged between the unreeling mechanism and the printing mechanism and is used for removing dust on the surface of the material.

In one embodiment, a plurality of guide rollers for conveying the material are provided on the machine body in the conveying direction of the material.

Compared with the prior art, the above technical scheme provided by the embodiment of the application has the beneficial effects that:

the material to be printed is coiled on the unreeling mechanism, then the unreeling mechanism conveys the material towards the direction of the printing mechanism, so that the material is printed on the surface of the material to required characters, patterns and other contents through the printing mechanism, then the material is divided into label materials and slitter edge materials through the die cutting mechanism, then the label materials are divided into single-row label finished products through the slitting assembly, and finally the label finished products are automatically coiled through the coiling assembly, so that the automatic printing, die cutting and collecting integration of labels are realized, manual operation is not needed, the labor intensity is greatly reduced, the problem that when the conventional automatic label printing die cutting machine works, label products need workers to be continuously arranged, the workers are stressed in work and the labor intensity is high is solved.

Drawings

FIG. 1 is a schematic view of a printing die cutting apparatus of the present application;

FIG. 2 is a schematic view of another embodiment of a printing die cutting apparatus of the present application;

FIG. 3 is a schematic structural view of a slitting and winding mechanism in a printing die-cutting apparatus according to the present application;

FIG. 4 is a schematic view of a further view of a slitting take-up mechanism in a printing die-cutting apparatus according to the present application;

FIG. 5 is a schematic view of the unreeling mechanism of the printing die cutting apparatus of the present application;

fig. 6 is a schematic view of a printing mechanism in a printing die-cutting apparatus of the present application.

Reference numerals in the drawings:

10. a body; 20. an unreeling mechanism; 30. a printing mechanism; 31. a digital printing assembly; 32. an ink curing assembly; 33. a flexo printing component; 34. a drying assembly; 40. a slitting and winding mechanism; 41. a slitting assembly; 411. a power source; 412. an upper cutter shaft; 413. a lower cutter shaft; 414. cutting and feeding; 415. dividing and cutting the cutter; 42. a winding assembly; 421. rolling the power piece; 422. a winding shaft; 423. a driving wheel; 424. driven wheel; 425. a transmission belt; 50. a die cutting mechanism; 60. a waste collection mechanism; 70. a first deviation corrector; 80. a second deviation corrector; 90. a dust remover; 100. and (5) a guide roller.

Detailed Description

For a clearer understanding of technical features, objects and effects of the present utility model, a detailed description of embodiments of the present utility model will be made with reference to the accompanying drawings. In the following description, it should be understood that the directions or positional relationships indicated by "front", "rear", "upper", "lower", "left", "right", "longitudinal", "transverse", "vertical", "horizontal", "top", "bottom", "inner", "outer", "head", "tail", etc. are configured and operated in specific directions based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model, and do not indicate that the apparatus or element to be referred to must have specific directions, and thus should not be construed as limiting the present utility model.

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

FIG. 1 is a schematic view of a printing die cutting apparatus of the present application; fig. 2 is a schematic view of another embodiment of a printing die cutting apparatus of the present application.

Referring to fig. 1 and 2, an embodiment of the present application provides a printing die cutting apparatus, which includes a machine body 10, and an unreeling mechanism 20, a printing mechanism 30, a die cutting mechanism 50, and a slitting and reeling mechanism 40 which are sequentially provided on the machine body 10.

Specifically, the slitting winding mechanism 40 includes a slitting assembly 41 and at least two sets of winding assemblies 42, the slitting assembly 41 is located between the die-cutting mechanism 50 and the at least two sets of winding assemblies 42, and is used for slitting die-cut materials, and the at least two sets of winding assemblies 42 are arranged at one end of the machine body 10 far away from the unreeling mechanism 20 side by side, and are used for winding the slit materials.

Here, it should be noted that, the "at least two sets" mentioned above refers to two or more sets, and the specific number of the winding assemblies 42 is determined according to the type of the material being split by the splitting assembly 41. For example: the material with characters and patterns sprayed on the surface is divided into two single-row label finished products of the characters and the patterns by the slitting component 41, at this time, the rolling component 42 is provided with two groups, and the two groups of rolling components 42 respectively and automatically roll the two single-row label finished products, but the utility model is not limited to the two groups of label finished products.

Illustratively, the die-cutting mechanism 50 is mainly used for separating the material sprayed with the characters and the patterns into the label material and the slitter edge material according to the design requirement, so that the label material can be rolled by the subsequent slitting and rolling mechanism 40, and the slitter edge material can be collected by the waste collecting component, which is not described in detail. In addition, the die cutting mechanism 50 may be a die cutting member in the prior art, and the die cutting mechanism is not limited to this, as long as the material can be separated into a label material and a scrap edge material.

The unreeling mechanism 20 and the printing mechanism 30 may be any of unreeling members and printing members in the prior art, and the unreeling mechanism 20 and the printing mechanism 30 may be any of those specifically configured in the following embodiments, which are not limited thereto.

In this embodiment, the material to be printed is wound on the unwinding mechanism 20, and then the unwinding mechanism 20 conveys the material towards the printing mechanism 30, so that the printing mechanism 30 sprays and prints the required characters, patterns and other contents on the surface of the material, and then the die cutting mechanism 50 divides the material into label materials and slitter edge materials, and then the slitting assembly 41 divides the label materials into single-row label finished products, and finally the winding assembly 42 automatically winds the label finished products, thereby realizing the integration of automatic printing, die cutting and collecting of labels, reducing the labor intensity to a great extent without manual operation, and solving the problems of relatively tense work and high labor intensity of workers because the label products need to be continuously arranged by workers when the current automatic label printing die cutting machine works.

In order to smoothly pass the material outputted from the unreeling mechanism 20 through the printing mechanism 30, the die cutting mechanism 50, the slitting assembly 41 and the reeling assembly 42 in this order, in one embodiment, a plurality of guide rollers 100 for conveying the material are provided on the machine body 10 in the conveying direction of the material. In this manner, the material wound on the unwind mechanism 20 may be guided to the printing mechanism 30, the die cutting mechanism 50, the slitting assembly 41, and the winding assembly 42 in order by the guide roller 100, ensuring automatic production of the label product.

FIG. 3 is a schematic structural view of a slitting and winding mechanism in a printing die-cutting apparatus according to the present application; fig. 4 is a schematic structural view of another view of a slitting take-up mechanism in a printing die-cutting apparatus according to the present application.

Referring to fig. 3 and 4, in one embodiment, the slitting assembly 41 includes a power source 411, a lower cutter shaft 413, an upper cutter shaft 412, a slitting lower cutter 415 and a slitting upper cutter 414, the lower cutter shaft 413 and the upper cutter shaft 412 are rotatably disposed on the machine body 10 and are disposed along a direction perpendicular to a material conveying direction, the upper cutter shaft 412 is located right above the lower cutter shaft 413, the slitting lower cutter 415 and the slitting upper cutter 414 are respectively mounted on the lower cutter shaft 413 and the upper cutter shaft 412, the slitting lower cutter 415 is opposite to the slitting upper cutter 414, the power source 411 is fixed on the machine body 10, a power output end of the power source 411 is connected with the lower cutter shaft 413 or the upper cutter shaft 412, and the lower cutter shaft 413 is in transmission connection with the upper cutter shaft 412.

Illustratively, the output end of the power source 411 may be connected to the lower cutter shaft 413 or to the upper cutter shaft 412, and only one of the upper cutter shaft 412 and the lower cutter shaft 413 needs to be driven. In this embodiment, the output end of the power source 411 is connected to the lower cutter shaft 413.

In this embodiment, the material with characters and patterns is guided to the slitting component 41, and then the material is located between the upper blade and the lower blade, and then the power source 411 drives the lower cutter shaft 413 to rotate so as to drive the upper blade and the lower blade respectively mounted on the upper cutter shaft 412 and the lower cutter shaft 413 to rotate, so that the label material is split into single-row label finished products, and the single-row label finished products are convenient to sort and collect later, and have a simple structure and convenient operation. In addition, the power source 411 may adopt a motor, a driving wheel 423 is disposed at a power output end of the motor, a driven wheel 424 is disposed at one end of the lower cutter shaft 413, and a driving belt 425 is disposed between the driven wheel 424 and the driving wheel 423, so as to drive the lower cutter shaft 413. But is not limited thereto.

Referring to fig. 3 and 4, in one embodiment, the winding assembly 42 includes a winding power member 421 and a winding shaft 422, one end of the winding shaft 422 is rotatably connected to one end of the machine body 10 far away from the unreeling mechanism 20, the other end of the winding shaft 422 extends along a direction perpendicular to the material conveying direction, the winding power member 421 is fixed on the machine body 10, and a power output end of the winding power member 421 is connected to one end of the winding shaft 422 to drive the winding shaft 422 to rotate.

In this embodiment, the winding frame is installed on the winding shaft 422, then the to-be-split component 41 divides the label material into label finished products, the winding power piece 421 drives the winding shaft 422 to rotate so as to drive the winding frame to rotate, so that the divided label finished products are wound by the winding frame, automatic collection of the label finished products is realized, and the problems that the label products need to be continuously tidied by workers, the workers are relatively tense in work and the labor intensity is high are solved. In addition, the winding power member 421 may be a motor, and the winding shaft 422 is driven to rotate by a motor driving synchronization belt, but is not limited thereto.

Fig. 5 is a schematic structural view of an unreeling mechanism in a printing die-cutting apparatus of the present application.

Referring to fig. 5, in one embodiment, the unreeling mechanism 20 includes an air-expanding shaft and an unreeling power member, one end of the air-expanding shaft is rotatably disposed at one end of the machine body 10 far away from the reeling component 42, the other end of the air-expanding shaft extends along a direction perpendicular to the material conveying direction, the unreeling power member is fixed on the machine body 10, and the power output end of the unreeling power member is connected with one end of the air-expanding shaft to drive the air-expanding shaft to rotate.

Illustratively, the coiled material to be printed is mounted on the air expansion shaft, and then the air expansion shaft is driven to rotate by the unreeling power piece, so that the coiled material is conveyed towards the printing mechanism 30, the die cutting mechanism 50 and the slitting and reeling mechanism 40, and automatic conveying of the automatic material is realized, and the automatic printing machine is simple in structure and convenient to operate. In addition, the problem of material deviation in the discharging process can be effectively reduced by adopting the inflatable shaft.

It should be noted that, the "material conveying direction" mentioned in the above embodiment refers to a direction in which the material sequentially passes through the printing mechanism 30, the die cutting mechanism 50, and the slitting and winding mechanism 40, and specifically refers to the x direction in fig. 1.

In one embodiment, the device further comprises a first deviation corrector 70, wherein the first deviation corrector 70 is arranged above the air expansion shaft and is used for correcting deviation of the material discharged from the air expansion shaft. In this way, the first deviation corrector 70 can be utilized to correct the deviation of the discharged material, so as to correct the material led to the printing mechanism 30, and avoid the problem of poor jet printing effect caused by deviation in the subsequent jet printing process.

Fig. 6 is a schematic view of a printing mechanism in a printing die-cutting apparatus of the present application.

Referring to fig. 6, in one embodiment, the printing mechanism 30 includes a digital printing unit 31, an ink curing unit 32, a flexo printing unit 33 and a drying unit 34 sequentially disposed on the machine body 10, the digital printing unit 31 is mounted on one side of the unreeling mechanism 20, the ink curing unit 32 is mounted at a discharge port of the digital printing unit 31, the flexo printing unit 33 is disposed above one side of the ink curing unit 32, and the drying unit 34 is mounted at a discharge port of the flexo printing unit 33.

Illustratively, the material coming out of the unreeling mechanism 20 is subjected to digital printing assembly 31 to spray-print the required characters, patterns and the like on the surface of the material, then the ink curing assembly 32 is used for drying the ink on the surface of the material, then the flexible printing assembly 33 is used for uniformly coating the water-based varnish on the surface of the material, and finally the drying assembly 34 is used for drying the surface of the material, so that the water-based varnish coated on the surface of the material is reformed and cured to finish the printing of the label. It should be noted that, the digital printing assembly 31, the ink curing assembly 32, the flexo printing assembly 33 and the drying assembly 34 may be corresponding components in the prior art, for example: the ink curing assembly 32 may employ a curing light and the drying assembly 34 may employ a hot air oven. In addition, it should be noted that, referring to the prior art, the specific structures and mounting manners of the digital printing assembly 31, the ink curing assembly 32, the flexo printing assembly 33 and the drying assembly 34 can be set by those skilled in the art, and will not be described in detail.

In one embodiment, the device further comprises a waste collection mechanism 60, wherein the waste collection mechanism 60 is arranged between the die cutting mechanism 50 and the slitting and winding mechanism 40 and is used for collecting waste edges generated by cutting of the die cutting mechanism 50.

In one embodiment, the device further comprises a second deviation corrector 80, wherein the second deviation corrector 80 is arranged below the strip dividing assembly 41 and is used for correcting the deviation of the material guided to the strip dividing assembly 41. In this way, the second deviation corrector 80 can be used to correct the deviation of the material guided to the slitting assembly 41, so that the slitting assembly 41 can be ensured to accurately cut the material, and the label is prevented from being cut due to the error of the material.

In one embodiment, the device further comprises a dust remover 90, and the dust remover 90 is arranged between the unreeling mechanism 20 and the printing mechanism 30 and is used for removing dust on the surface of the material. In this way, the dust remover 90 removes dust on the surface of the material transported to the printing mechanism 30 for printing, so that the problem of poor printing effect caused by dust on the surface of the material in the subsequent printing of characters, patterns and the like can be avoided. In addition, the dust remover 90 may be a dust removing device in the prior art, which will not be described in detail.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present utility model, and these modifications and substitutions should also be considered as being within the scope of the present utility model.

Claims (8)

1. The printing die-cutting equipment is characterized by comprising a machine body, and an unreeling mechanism, a printing mechanism, a die-cutting mechanism and a slitting and reeling mechanism which are sequentially arranged on the machine body;

the slitting rolling mechanism comprises a slitting assembly and at least two groups of rolling assemblies, wherein the slitting assembly is positioned between the die-cutting mechanism and the at least two groups of rolling assemblies and is used for slitting die-cut materials, and the at least two groups of rolling assemblies are arranged at one end, far away from the unreeling mechanism, of the machine body side by side and are used for rolling the slit materials;

the slitting assembly comprises a power source, a lower cutter shaft, an upper cutter shaft, a slitting cutter and a slitting upper cutter, wherein the lower cutter shaft and the upper cutter shaft are rotatably arranged on a machine body and are arranged along the direction perpendicular to the conveying direction of materials, the upper cutter shaft is positioned right above the lower cutter shaft, the slitting lower cutter and the slitting upper cutter are respectively arranged on the lower cutter shaft and the upper cutter shaft, the slitting lower cutter is right opposite to the slitting upper cutter, the power source is fixed on the machine body, the power output end of the power source is connected with the lower cutter shaft or the upper cutter shaft, and the lower cutter shaft is in transmission connection with the upper cutter shaft;

the winding assembly comprises a winding power piece and a winding shaft, one end of the winding shaft is rotatably connected with the machine body at one end far away from the unreeling mechanism, the other end of the winding shaft extends along the direction perpendicular to the conveying direction of materials, the winding power piece is fixed on the machine body, and the power output end of the winding power piece is connected with one end of the winding shaft so as to drive the winding shaft to rotate.

2. The printing die cutting device of claim 1, wherein the unreeling mechanism comprises an air expansion shaft and an unreeling power piece, one end of the air expansion shaft is rotatably arranged at one end of the machine body far away from the reeling component, the other end of the air expansion shaft extends along a direction perpendicular to the conveying direction of materials, the unreeling power piece is fixed on the machine body, and a power output end of the unreeling power piece is connected with one end of the air expansion shaft so as to drive the air expansion shaft to rotate.

3. The printing die cutting apparatus of claim 2, further comprising a first deviation corrector disposed above the inflatable shaft for correcting deviation of material discharged from the inflatable shaft.

4. The printing die cutting device of claim 1, wherein the printing mechanism comprises a digital printing assembly, an ink curing assembly, a flexo printing assembly and a drying assembly which are sequentially arranged on the machine body, the digital printing assembly is arranged on one side of the unreeling mechanism, the ink curing assembly is arranged at a discharge hole of the digital printing assembly, the flexo printing assembly is arranged above one side of the ink curing assembly, and the drying assembly is arranged at a discharge hole of the flexo printing assembly.

5. The printing die cutting apparatus of claim 1 further comprising a waste collection mechanism disposed between said die cutting mechanism and said slitter winding mechanism for collecting waste edges resulting from cutting by said die cutting mechanism.

6. The printing die cutting apparatus of claim 1, further comprising a second deviation corrector disposed below the slitting assembly for correcting deviation of material directed toward the slitting assembly.

7. The printing die cutting apparatus of any of claims 1 to 6, further comprising a dust remover disposed between the unwind mechanism and the printing mechanism for removing dust from a surface of the material.

8. The printing die cutting apparatus of claim 1, wherein a plurality of guide rollers for conveying the material are provided on the body in a conveying direction of the material.