CN218314028U - Die-cutting machine comprising integrated frame - Google Patents

Abstract

The utility model belongs to the die cutting field, in particular to a die cutting machine comprising an integrated frame, which is characterized in that the die cutting machine comprises an unreeling component, a die cutting component, a reeling component and an integrated frame, wherein the unreeling component, the die cutting component and the reeling component are all arranged on the frame, and the unreeling component, the die cutting component and the reeling component form a die cutting path for unreeling, die cutting and reeling paper; the die-cutting machine also comprises a film coating shaft group, a compression roller assembly and a waste collecting shaft group. In the utility model, the die-cutting machine is more convenient to assemble by the arrangement of the integrally formed frame; and the overall size of the die cutting machine can be smaller. And the die cutting machine is integrated with the film covering and die cutting functions, so that the film covering can be carried out while the die cutting is carried out, the processing efficiency is increased, and the production cost is reduced.

Description

Die-cutting machine comprising integrated frame

Technical Field

The utility model belongs to the cross cutting field, in particular to cross cutting machine.

Background

The die cutting machine is called as a beer machine, a cutting machine and a numerical control punching machine, and is mainly used for die cutting (full breaking and half breaking), indentation and gold stamping operation, fitting and automatic waste discharge of corresponding nonmetal materials, non-setting adhesive, EVA (ethylene vinyl acetate), double-sided adhesive, electronics, mobile phone rubber mats and the like; the traditional die cutting machine utilizes a steel knife, a hardware die and a steel wire (or a template carved by a steel plate) to apply certain pressure through a printing plate, and a printed product or a paperboard is rolled and cut into a certain shape. Is an important device for processing and forming the packages after printing.

The frame part of the existing die cutting machine is not integrally formed, but a plurality of parts are produced separately firstly and then assembled to form the frame part, however, the structural design of the prior art is troublesome in production and assembly, and the whole volume of the frame is larger undoubtedly. And current die-cutting process and tectorial membrane process are mostly realized respectively through two devices, and the cost of producing like this is higher, and production machining efficiency is lower.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned problems, a primary object of the present invention is to provide a die-cutting machine including an integrally formed frame, wherein the frame portion of the die-cutting machine is integrally formed, and the die-cutting machine is more convenient to assemble; and the overall size of the die-cutting machine is smaller.

Another object of the utility model is to provide a cross cutting machine including integrated into one piece frame, this cross cutting machine integration has tectorial membrane and cross cutting function, can carry out tectorial membrane and cross cutting simultaneously, has increased machining efficiency to manufacturing cost has been reduced.

In order to realize the purpose, the technical scheme of the utility model is as follows.

The die-cutting machine comprises an integrally-formed machine frame, and is characterized by comprising an unreeling assembly, a die-cutting assembly, a reeling assembly and the integrally-formed machine frame, wherein the unreeling assembly, the die-cutting assembly and the reeling assembly are all arranged on the machine frame, and a die-cutting path for unreeling, die-cutting and reeling paper materials is formed from the unreeling assembly to the die-cutting assembly and then from the unreeling assembly to the reeling assembly;

the die cutting machine further comprises a film laminating shaft group, a compression roller assembly and a waste collecting shaft group, wherein the film laminating shaft group, the compression roller assembly and the waste collecting shaft group are all arranged on the frame, the film laminating shaft group is positioned above the unreeling assembly, the waste collecting shaft group is positioned above the reeling assembly, the compression roller assembly is arranged between the unreeling assembly and the die cutting assembly, a film pressing gap for covering a film on a paper material is arranged in the compression roller assembly, and the die cutting path passes through the film pressing gap; and a film sticking path for unreeling, laminating, die cutting and reeling the film is formed from the film covering shaft group to the press roll assembly, then to the die cutting assembly and finally to the waste collecting shaft group.

The unwinding assembly is provided with paper, and the film coating shaft group is provided with a film; when the paper passes through the unwinding assembly, the compression roller assembly, the die cutting assembly and the winding assembly in sequence, the paper is subjected to die cutting by the die cutting assembly after the unwinding assembly is unwound, and then is wound by the winding assembly; and when the paper stock is die-cut, the film is through passing through tectorial membrane axle group, compression roller subassembly, cross cutting subassembly, receipts waste axle group in proper order, after the roll is put to the tectorial membrane axle group, is covered by compression roller subassembly and laminates on the paper stock when the press mold clearance through compression roller subassembly to follow the paper stock and enter into jointly and carry out the cross cutting in the cross cutting subassembly, then carry out the rolling by receiving waste axle subassembly surplus waste material.

In the die-cutting machine, the die-cutting machine is more convenient to assemble by the arrangement of the integrally formed frame; and the overall size of the die cutting machine can be smaller. And the die cutting machine is integrated with the film covering and die cutting functions, so that the film covering can be carried out while the die cutting is carried out, the processing efficiency is increased, and the production cost is reduced.

Furthermore, the die cutting machine further comprises a deviation rectifying assembly used for rectifying deviation of the paper materials, the deviation rectifying assembly is arranged on the machine frame, two sides of the deviation rectifying assembly correspond to the pressing roller assembly and the unreeling assembly respectively, and the die cutting path passes through the deviation rectifying assembly.

Furthermore, the unreeling component is positioned on the lower side of the deviation rectifying component, the pressing roller component is positioned on the side of the deviation rectifying component, and the deviation rectifying component is obliquely arranged on the rack; the die cutting machine also comprises a first paper guide roller assembly and a second paper guide roller assembly; the first paper guide roller assembly is positioned between the deviation rectifying assembly and the unreeling assembly, and the die cutting path passes through the first paper guide roller assembly; the second paper guide roller assembly is located between the deviation rectifying assembly and the pressing roller assembly, and the die cutting path passes through the second paper guide roller assembly. This deviation correcting assembly, the position setting of unreeling subassembly, compression roller assembly for unreeling the setting that subassembly, deviation correcting assembly, compression roller assembly arranged into one row, can more rationally utilize the space in the frame to it is littleer to make this cross cutting machine wholly take up an area of the volume.

Furthermore, the compression roller assembly comprises an auxiliary discharging roller, a paper pressing roller and two air cylinder assemblies, wherein the two ends of the auxiliary discharging roller are arranged on the frame, the two ends of the paper pressing roller are respectively in driving connection with the two air cylinder assemblies, the two air cylinder assemblies are arranged on the frame, and a film pressing gap is formed between the auxiliary discharging roller and the paper pressing roller. The cylinder assembly can drive the paper pressing roller to move through an output shaft of the cylinder assembly so as to adjust the distance between the film pressing gaps, film covering is conveniently carried out, and the film covering can be adapted to more products.

Further, the die cutting machine further comprises a first material storage assembly and a second material storage assembly, wherein the first material storage assembly and the second material storage assembly are arranged on the machine frame and are respectively positioned on two sides of the die cutting assembly; the die cutting path sequentially passes through the unreeling assembly, the press roller assembly, the first storage assembly, the die cutting assembly, the second storage assembly and the reeling assembly. Through the arrangement of the first storage component and the second storage component, no matter the paper material is subjected to die cutting, no matter the paper material retreats or advances, the length of the paper material in a die cutting path is always kept constant, the tension of the paper material is stable, and a dynamic balance is realized.

Furthermore, pulling components are arranged on two sides of the die cutting component, and the pulling components are arranged on the rack; the die cutting path sequentially passes through the unreeling assembly, the press roller assembly, the first material storage assembly, one material pulling assembly, the die cutting assembly, the other material pulling assembly, the second material storage assembly and the reeling assembly.

Further, still be provided with the slitting knife tackle spare in the frame, the cross cutting route is in proper order through unreeling subassembly, compression roller subassembly, first storage subassembly, one draw material subassembly, cross cutting subassembly, another draw material subassembly, second storage subassembly, slitting knife tackle spare, rolling component.

Furthermore, still be provided with the cutter unit spare of wasting discharge in the frame, the cutter unit spare of wasting discharge is located receipts useless axle group downside, the pad pasting route is in proper order through tectorial membrane axle group, compression roller assembly, cross cutting subassembly, the cutter unit spare of wasting discharge, receipts useless axle group.

The utility model has the advantages that in the die-cutting machine, the die-cutting machine is more convenient to assemble by the arrangement of the integrally formed frame; and the overall size of the die cutting machine can be smaller. And the die cutting machine is integrated with the film covering and die cutting functions, so that the film covering can be carried out while the die cutting is carried out, the processing efficiency is increased, and the production cost is reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention with the hidden frame.

Fig. 3 is a schematic diagram illustrating a die cutting path and a film pasting path.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-3, a die cutting machine including an integrally formed frame is characterized in that the die cutting machine includes an unwinding assembly 1, a die cutting assembly 2, a winding assembly 3 and an integrally formed frame 4, wherein the unwinding assembly 1, the die cutting assembly 2 and the winding assembly 3 are all arranged on the frame 1, and a die cutting path 5 for unwinding, die cutting and winding paper materials is formed from the unwinding assembly 1 to the die cutting assembly 2 and then from the unwinding assembly 1 to the winding assembly 3;

the die-cutting machine further comprises a film laminating shaft group 6, a compression roller assembly 7 and a waste collecting shaft group 8, wherein the film laminating shaft group 6, the compression roller assembly 7 and the waste collecting shaft group 8 are all arranged on the frame 4, the film laminating shaft group 6 is positioned above the unreeling assembly 1, the waste collecting shaft group 8 is positioned above the reeling assembly 1, the compression roller assembly 7 is arranged between the unreeling assembly 1 and the die-cutting assembly 2, a film pressing gap for covering a film on paper materials is arranged in the compression roller assembly 7, and the die-cutting path 2 passes through the film pressing gap; and a film sticking path 9 for unreeling, sticking, die cutting and reeling films is formed from the film coating shaft group 6 to the press roll assembly 7, then to the die cutting assembly 2 and finally to the waste collecting shaft group 8.

Specifically, unreel subassembly 1, winding mechanism 3, receive useless axle group 8 and be the structure including hand axle 11 that expands, its structure of hand axle that expands is prior art to and unreel subassembly 1, winding mechanism 3 specifically how to realize unreeling or the structure and the principle of rolling through hand axle 11 that expand and be prior art. The die cutting component 2 is a structure for realizing die cutting of paper materials, and the structure and the working principle of the die cutting component are the prior art. The film covering component 6 is a structure for installing a film, and the structure and the working principle of the film covering component are both the prior art.

In this embodiment, the die cutting machine further comprises a deviation rectifying assembly 41 for rectifying deviation of the paper material, the deviation rectifying assembly is arranged on the machine frame 4, two sides of the deviation rectifying assembly 41 respectively correspond to the pressing roller assembly 7 and the unreeling assembly 1, and the die cutting path 5 passes through the deviation rectifying assembly 41. The structure and the working principle of the deviation rectifying assembly 41 are the prior art.

In this embodiment, the unwinding assembly 1 is located at the lower side of the deviation rectifying assembly 41, the pressing roller assembly 7 is located at the side of the deviation rectifying assembly 41, and the deviation rectifying assembly 41 is obliquely arranged on the rack 1, where the inclination is relative to the ground; the die cutting machine also comprises a first paper guide roller assembly 42 and a second paper guide roller assembly 43; the first paper guide roller assembly 42 is positioned between the deviation rectifying assembly 41 and the unreeling assembly 1, and the die cutting path 5 passes through the first paper guide roller assembly 42; the second paper guide roller assembly 43 is located between the deviation correcting assembly 41 and the press roller assembly 7, and the die cutting path 5 passes through the second paper guide roller assembly 43. Specifically, the first paper guide roller assembly 42 and the second paper guide roller assembly 43 are each configured to include a plurality of paper guide rollers 421, and the plurality of paper guide rollers 421 are each disposed on the frame and guide the paper by the plurality of paper guide rollers 421.

In this embodiment, the pressure roller assembly 7 includes an auxiliary discharging roller 73, a platen roller 72, and two air cylinder assemblies, two ends of the auxiliary discharging roller 73 are both disposed on the frame 4, two ends of the platen roller 72 are respectively connected with the two air cylinder assemblies in a driving manner, the two air cylinder assemblies are disposed on the frame 4, and a film pressing gap is formed between the auxiliary discharging roller 73 and the platen roller 72. Specifically, the air cylinder comprises an air cylinder seat 74 and an air cylinder 71, the air cylinder 71 is fixed on the air cylinder seat 74, the air cylinder seat 74 is fixed on the frame 4, and an output shaft of the air cylinder 71 is in driving connection with the platen roller 72.

In this embodiment, the die cutting machine further comprises a first magazine assembly 21 and a second magazine assembly 22, wherein the first magazine assembly 21 and the second magazine assembly 22 are both arranged on the machine frame 4, and the first magazine assembly 21 and the second magazine assembly 22 are respectively located at two sides of the die cutting assembly 2; the die cutting path 5 sequentially passes through the unreeling assembly 1, the press roller assembly 7, the first storage assembly 21, the die cutting assembly 2, the second storage assembly 22 and the reeling assembly 3. The first magazine assembly 21 and the second magazine assembly 22 are prior art, and the implementation principle and structure thereof are the same as those of the first magazine assembly and the second magazine assembly of a digital die-cutting and laser die-cutting integrated machine (application number CN 202121385261.1) in the prior patent.

In this embodiment, the two sides of the die cutting assembly 2 are both provided with the pulling assembly 23, and the pulling assembly 23 is arranged on the rack 4; the die cutting path 5 sequentially passes through the unreeling assembly 1, the press roller assembly 7, the first storage assembly 21, one material pulling assembly 23, the die cutting assembly 2, the other material pulling assembly 23, the second storage assembly 22 and the reeling assembly 3. The material pulling assembly 23 comprises a material pulling roller 231, a material pulling motor 232 and a material pulling pressure roller 233, wherein the material pulling motor 232 is in driving connection with the material pulling roller 231, and a gap for pulling materials is formed between the material pulling pressure roller 233 and the material pulling roller 231.

In this embodiment, the rack 4 is further provided with a slitting knife assembly 44, and the die cutting path 5 sequentially passes through the unwinding assembly 1, the pressing roller assembly 7, the first storage assembly 21, one material pulling assembly 23, the die cutting assembly 2, the other material pulling assembly 23, the second storage assembly 22, the slitting knife assembly 44, and the winding assembly 3. The slitting knife assembly 44 comprises a slitting knife shaft 441 and a slitting knife roller 442, wherein a plurality of slitting knives 443 are arranged on the slitting knife shaft 441, and the slitting knives 443 correspond to the slitting knife shaft 442.

In this embodiment, the frame 4 is further provided with a waste discharging knife assembly 45, the waste discharging knife assembly 45 is located on the lower side of the waste collecting shaft assembly 8, and the film sticking path 9 sequentially passes through the film laminating shaft assembly 6, the compression roller assembly 7, the die cutting assembly 2, the waste discharging knife assembly 45 and the waste collecting shaft assembly 8. The waste blade assembly 45 includes a waste blade guide roller 451 and a waste blade 452, and a gap for discharging waste is provided between the waste blade 452 and the waste blade guide roller 451.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The die-cutting machine comprises an integrally-formed machine frame, and is characterized by comprising an unreeling assembly, a die-cutting assembly, a reeling assembly and the integrally-formed machine frame, wherein the unreeling assembly, the die-cutting assembly and the reeling assembly are all arranged on the machine frame, and a die-cutting path for unreeling, die-cutting and reeling paper materials is formed from the unreeling assembly to the die-cutting assembly and then from the unreeling assembly to the reeling assembly;

the die-cutting machine also comprises a film laminating shaft group, a compression roller assembly and a waste collecting shaft group, wherein the film laminating shaft group, the compression roller assembly and the waste collecting shaft group are all arranged on the frame, the film laminating shaft group is positioned above the unreeling assembly, the waste collecting shaft group is positioned above the reeling assembly, the compression roller assembly is arranged between the unreeling assembly and the die-cutting assembly, a film pressing gap for covering a film on paper materials is arranged in the compression roller assembly, and the die-cutting path passes through the film pressing gap; and a film sticking path for unreeling, laminating, die cutting and reeling the film is formed from the film covering shaft group to the press roll assembly, then to the die cutting assembly and finally to the waste collecting shaft group.

2. The die cutting machine as claimed in claim 1, further comprising a deviation rectifying assembly for rectifying deviation of the paper, wherein the deviation rectifying assembly is disposed on the frame, two sides of the deviation rectifying assembly respectively correspond to the pressing roller assembly and the unwinding assembly, and the die cutting path passes through the deviation rectifying assembly.

3. The die cutting machine comprising the integrally formed machine frame as claimed in claim 2, wherein the unwinding assembly is located at the lower side of the deviation rectifying assembly, the pressing roller assembly is located at the side of the deviation rectifying assembly, and the deviation rectifying assembly is obliquely arranged on the machine frame; the die cutting machine also comprises a first paper guide roller assembly and a second paper guide roller assembly; the first paper guide roller assembly is positioned between the deviation rectifying assembly and the unreeling assembly, and the die cutting path passes through the first paper guide roller assembly; the second paper guide roller assembly is located between the deviation rectifying assembly and the press roller assembly, and the die cutting path passes through the second paper guide roller assembly.

4. The die cutting machine according to claim 1, wherein the press roll assembly comprises an auxiliary discharging roll, a platen roller and two air cylinder assemblies, two ends of the auxiliary discharging roll are arranged on the frame, two ends of the platen roller are respectively in driving connection with the two air cylinder assemblies, the two air cylinder assemblies are arranged on the frame, and a film pressing gap is formed between the press roll assembly and the auxiliary discharging roll and between the press roll assembly and the platen roller.

5. The die cutting machine with the integrally formed machine frame according to claim 1, further comprising a first storage assembly and a second storage assembly, wherein the first storage assembly and the second storage assembly are both arranged on the machine frame, and the first storage assembly and the second storage assembly are respectively positioned at two sides of the die cutting assembly; the die cutting path sequentially passes through the unreeling assembly, the press roller assembly, the first storage assembly, the die cutting assembly, the second storage assembly and the reeling assembly.

6. The die cutting machine comprising the integrally formed machine frame according to claim 5, wherein the two sides of the die cutting assembly are provided with the material pulling assemblies, and the material pulling assemblies are arranged on the machine frame; the die cutting path sequentially passes through the unreeling assembly, the press roller assembly, the first material storage assembly, one material pulling assembly, the die cutting assembly, the other material pulling assembly, the second material storage assembly and the reeling assembly.

7. The die cutting machine comprising the integrally formed machine frame as claimed in claim 6, wherein a slitting knife assembly is further arranged on the machine frame, and a die cutting path sequentially passes through the unwinding assembly, the pressing roller assembly, the first storage assembly, one material pulling assembly, the die cutting assembly, the other material pulling assembly, the second storage assembly, the slitting knife assembly and the winding assembly.

8. The die cutting machine according to claim 1, wherein the die cutting machine comprises an integrally formed frame, and is characterized in that a waste discharging knife assembly is further arranged on the frame and located on the lower side of the waste collecting shaft assembly, and the film pasting path sequentially passes through the film laminating shaft assembly, the compression roller assembly, the die cutting assembly, the waste discharging knife assembly and the waste collecting shaft assembly.

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