CN213261337U - Die cutting plate - Google Patents

Abstract

The utility model relates to a cross cutting version, include: a base; the indentation knife is fixedly arranged on the base; the stress relief device is fixedly arranged on the base and is arranged adjacent to the side face of the indentation knife, and the height of the stress relief device is lower than that of the indentation knife. Above-mentioned cross cutting version, the side at the indentation sword is adjoint and is provided with stress relief device, during the cross cutting operation, indentation sword and stress relief device exert pressure simultaneously on hole paper material, under the pressure effect, the wave refill of hole paper takes place folding deformation in many places to lose deflection and bearing capacity, make the trough position of hole paper refill no longer become the stress concentration point when folding, consequently, when folding, packaging material can only go on along this stress concentration point of the mid point position of indentation line, thereby the problem of taking place the off normal deformation when having avoided hole paper packaging material to fold.

Description

Die cutting plate

Technical Field

The utility model relates to a post-press processing equipment field especially relates to a cross cutting version.

Background

The pit paper has a paper core with a wave-shaped structure, and on one hand, the special structure endows the pit paper with good compression resistance and shock resistance, so that the pit paper serving as a common packaging material is widely applied to the field of packaging; on the other hand, when the pit paper material with the special structure is subjected to die cutting in the prior art, the quality of a packaged product has larger instability: when the crease line is located at the valley position of the paper core, the pot paper can be folded into an ideal shape by pressing the crease line, however, when the crease line is located at the peak position of the paper core, the peak of the base paper core forms a new valley under the action of the die cutting plate and becomes a stress concentration point with two adjacent valleys at the same time, as shown in fig. 1, when the pot paper packaging material is folded along the crease line a, the pot paper packaging material may be bent at any one of positions a1, a2 and A3, and when the bending position is a2 or A3, the package will be deflected, thereby affecting the quality of the package.

SUMMERY OF THE UTILITY MODEL

Therefore, a die cutting plate is needed, which can provide stable indentation quality when being applied to indentation of a pitted paper material.

A die-cutting plate securable to a pressure plate of a die-cutting machine, comprising:

a base;

the indentation knife is fixedly arranged on the base;

the stress relief device is fixedly arranged on the base and is arranged adjacent to the side face of the indentation knife, and the height of the stress relief device is lower than that of the indentation knife.

In one embodiment, the stress relief means is made of a hard block material.

In one embodiment, the stress relief means is made of a metallic material.

In one embodiment, the metallic material is selected from any one of iron, aluminum, copper, or stainless steel.

In one embodiment, the stress relief means has a width greater than the sum of the widths of at least one peak and one valley of the pitted paper core.

In one embodiment, the stress relief means has a width of 10 MM.

In one embodiment, the stress relief means is provided in an arc shape at both ends in the length direction.

In one embodiment, the blade edge of the creasing blade is provided with a rounded chamfer.

In one embodiment, the stress relief device further comprises a first stress relief device and a second stress relief device, the first stress relief device and the second stress relief device being disposed on both sides of the creasing blade.

In one embodiment, the die cutting machine further comprises an auxiliary indentation device, wherein the auxiliary indentation device is arranged on a bearing plate of the die cutting machine and is provided with a groove and shoulder parts positioned on two sides of the groove, and the groove corresponds to the indentation knife.

Above-mentioned cross cutting version, the side at the indentation sword is adjoint and is provided with stress relief device, during the cross cutting operation, indentation sword and stress relief device exert pressure simultaneously on hole paper material, under the pressure effect, many places of the wave refill of hole paper take place folding deformation to lose deflection and bearing capacity, the trough position that makes hole paper refill no longer becomes stress concentration point when folding, consequently, when folding, packaging material can only go on along this stress concentration point of indentation line, thereby the problem of taking place the off normal deformation when having avoided hole paper packaging material to fold.

Drawings

Fig. 1 is a schematic view of a prior art pitted paper embossing line;

FIG. 2 is a schematic diagram of a die cutting plate structure according to an embodiment;

FIG. 3 is a schematic diagram of another embodiment of a die cutting plate structure;

FIG. 4 is a schematic diagram of another embodiment of a die cutting plate structure;

fig. 5 is a schematic view of the pit paper after being indented by the die-cutting plate shown in fig. 2;

FIG. 6 is a schematic perspective view of a die cutting plate according to an embodiment;

FIG. 7 is a perspective view of another embodiment of a die cutting plate;

fig. 8 is a partially enlarged view of the die-cut plate shown in fig. 7.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" or "in communication with" another element, it can be directly connected to the other element or intervening elements may also be present. The terms "upper", "lower", "vertical", "horizontal", "left", "right" and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 2, a die cutting plate according to an embodiment includes a base 10, an indentation blade 20, and a stress relief device 30.

The base 10 is used for fixing the indentation cutter 20 and the stress relief device 30, and when the die cutting plate works, the die cutting plate is fixed on a pressing plate of a die cutting machine through the back surface of the base 10.

Specifically, the base 10 is a flat plate, and has a fixing portion for fixing the indentation cutter 20, the material of the base 10 is selected from any one of a fiber board, a polymer plastic board and a metal board, and preferably, an artificial fiber board is used as a cheap and light material, which can be used as the material of the base 10 of the present invention.

Further, the fixing portion is a slit, and the size of the slit is matched with that of the creasing blade 20 and used for fixing the creasing blade 20.

And an indentation knife 20 fixedly arranged on the base 10 for making an indentation line on the packaging material.

Specifically, the indentation knife 20 is in a convex sheet shape, and is fixedly disposed on the base 10 through the fixing portion, and has good pressure stability, and may not be deformed under the working pressure of the die cutting machine, thereby preventing the indentation knife 20 from being deformed or displaced during the die cutting operation. The creasing blade 20 is made of a metal material, and preferably, the creasing blade 20 is made of an elongated stainless steel material. Referring to fig. 5, in operation, the paper packaging material is disposed between the die cutting plate and the pressure plate, and the corrugated paper core of the packaging material is pressed, folded and deformed by the pressure of the creasing blade 20, and thus loses stiffness and pressure-bearing capacity to form a creasing line a.

Further, the indentation blade 20 is designed in a "convex" shape, and its convex portion is engaged with the slit of the base 10 as a blade back as a fixed portion.

In some embodiments, referring to fig. 8, the indentation knife 20 is provided with a rounded chamfer 201, and by providing the rounded chamfer 201, the acting force of the indentation knife 20 during the indentation operation can be dispersed, and the surface layer material of the pitted paper packaging material can be prevented from being broken during the indentation operation.

The stress relief device 30 is arranged adjacent to the creasing blade 20 and is used for destroying the corrugated paper core structure of the packaging material and preventing the corrugated paper core from generating position sheet deviation due to stress concentration when the corrugated paper core is folded.

Specifically, the stress relief means 30 is made of a hard block material, which has good shape stability and does not deform in operation against the reaction force of the packaging material, is fixedly disposed on the base 10 by glue, and is disposed adjacent to the creasing blade 20, and the stress relief means 30 has a height smaller than that of the creasing blade 20. When the pressing plate of the die-cutting machine is combined with the bearing plate, the distance between the stress relief device 30 and the pressing plate of the die-cutting machine is smaller than the thickness of the pitted paper packaging material, so that the wavy structure of the paper core of the pitted paper packaging material is damaged by pressure. Referring to fig. 5, in operation, the paper packaging material is disposed between the die cutting plate and the pressure-bearing plate, and the corrugated paper core of the packaging material is pressed, folded and deformed under the pressure of the stress relief device 30, and thus loses stiffness and pressure-bearing capacity, thereby forming a stress relief area B.

Furthermore, the stress relief device 30 is made of a metal material, and the metal material has good stability, and the hardness of the metal material is far greater than that of the packaging material, so that the stress relief device can meet the requirements of the pit paper packaging materials with different specifications.

Still further, the stress relief means 30 is selected from any one of iron, aluminum, copper, or stainless steel.

In some embodiments, the width of the stress relief means 30 is greater than the sum of the widths of at least one peak and one valley of the pitted paper core, in which case, when the indentation is applied, the stress relief means 30 may break the at least one corrugation of the pitted paper core of the critical score line, whether the indentation blade 20 is applied at a peak or a valley of the pitted paper core, thereby providing stability to the pitted paper packaging material when folded.

Preferably, the width of the stress relief means 30 is 10MM, and by selecting the width, the pitted paper packaging material can have excellent anti-deviation effect when folded, and meanwhile, the impact resistance of the packaging material can not be reduced due to the damage of excessive paper core corrugated structure.

In another embodiment, the stress relief device 30 further comprises a first stress relief device 310 and a second stress relief device 320, and the first stress relief device 310 and the second stress relief device 320 are respectively disposed at two sides of the indenting blade 20, and when the pressing plate of the die cutting machine is combined with the bearing plate, the distance between the first stress relief device 310 and the pressing plate of the die cutting machine and the second stress relief device 320 is less than the thickness of the paper packaging material. By arranging the first stress relief device 310 and the second stress relief device 320 at the same time, the corrugated structures of the pitted paper packaging material on two sides of the pressing line can be destroyed simultaneously during the die cutting operation, so that the pitted paper packaging material has more stability during folding.

In another embodiment, referring to fig. 7 and 8, the two ends 311 and 312 of the first stress relief means 310 are disposed in an arc shape, and the two ends 321 and 322 of the second stress relief means 320 are disposed in an arc shape, so that the stress relief means can prevent the edges of the surface layer of the paper packaging material from being cracked when the surface layer is pressed.

In another embodiment, the die-cutting plate further includes an auxiliary indentation device 40, referring to fig. 4, the auxiliary indentation device 40 is independently disposed on a pressure plate of the die-cutting machine, and the auxiliary indentation device 40 is designed in a shape of a "concave" and has a groove 410 and a shoulder 420.

Specifically, the position of the groove 410 matches the position of the creasing blade 20, when the pressing plate of the die cutting machine is combined with the pressure bearing plate, the creasing blade 20 is combined with the groove 410, the shoulder 420 further comprises a first shoulder 421 and a second shoulder 422, and the width of the groove 410 is larger than that of the creasing blade 20, so that the pitted paper packaging material is pressed into the groove to form a creasing line during a creasing operation. Meanwhile, when the pressing plate of the die-cutting machine is combined with the bearing plate, the distance between the stress relief device 30 and the shoulder part 420 is smaller than the width of the pitted paper packaging material, so that the paper core corrugated structure of the pitted paper packaging material is damaged during operation, and the problem of stress concentration of the paper core near the pressing line is further solved.

Above-mentioned cross cutting version, the side at indentation sword 20 is adjoint and is provided with stress relief device 30, during the cross cutting operation, indentation sword 20 and stress relief device 30 exert pressure simultaneously on pitted paper material, under the pressure effect, the wave refill of pitted paper takes place folding deformation in many places, and lose deflection and bearing capacity, the trough position that makes pitted paper refill no longer becomes stress concentration point when folding, consequently, during folding, packaging material can only go on along this stress concentration point of the mid point position of indentation line A, thereby the problem of taking place the off normal deformation when having avoided pitted paper packaging material to fold.

Specific examples are as follows.

Example 1

Referring to fig. 2 and 5, the die-cutting plate includes a base 10, an indentation knife 20, and a stress relief device 30.

The base 10 is made of artificial fiber board, a linear gap is arranged on the base 10, the indentation knife 20 is made of stainless steel strip material and is in a convex design, the indentation knife 20 is clamped on the base 10 through a convex knife back, the stress relieving device 30 is made of massive iron, the width of the stress relieving device is larger than the sum of the widths of at least one wave crest and one wave trough of the pitted paper core, the indentation knife is fixed on the base 10 through glue and is arranged adjacent to the indentation knife 20, and the height of the indentation knife 20 is larger than the height of the stress relieving device 30.

The die cutting plate is fixed on a pressing plate of the die cutting machine through an adhesive material, the pit paper packaging material is arranged between bearing plates of the die cutting machine, when the die cutting plate fixed on the pressing plate is combined with the bearing plates, the distance between the stress relief device 30 and the bearing plates is smaller than the thickness of the pit paper packaging material, at the moment, under the pressure action of the indentation knife 20 and the stress relief device 30, a wavy paper core of the pit paper packaging material is pressed, folded and deformed, and therefore loses stiffness and bearing capacity, and thus a pressing crease line A and a stress relief area B are formed. Because the trough position of the pit paper core in the stress relief area B is no longer a stress concentration point during folding, the packaging material can only be carried out along the stress concentration point of the midpoint position A1 of the crease line A during folding, thereby avoiding the problem of deflection deformation during folding of the pit paper packaging material.

Example 2

Referring to fig. 3, 5 and 6, the die-cutting plate includes a base 10, an indentation cutter 20 and a stress relief device 30.

The base 10 is made of artificial fiber board, and is provided with a linear slit, the indentation knife 20 is made of stainless steel strip material, and is designed in a shape of 'convex', the indentation knife 20 is clamped on the base 10 through a convex knife back, the stress relief device 30 is made of blocky aluminum, and further comprises a first stress relief device 310 and a second stress relief device 320, and the width of the first stress relief device 310 and the width of the second stress relief device 320 are both 10MM, the stress relief device 30 is fixed on the base 10 through glue and is arranged adjacent to two sides of the indentation knife 20, and the height of the indentation knife 20 is larger than that of the stress relief device 30.

The die cutting plate is fixed on a pressing plate of the die cutting machine through an adhesive material, the pit paper packaging material is arranged between bearing plates of the die cutting machine, when the die cutting plate fixed on the pressing plate is combined with the bearing plates, the distance between the stress relief device 30 and the bearing plates is smaller than the thickness of the pit paper packaging material, at the moment, under the pressure action of the indentation knife 20 and the stress relief device 30, a wavy paper core of the pit paper packaging material is pressed, folded and deformed, and therefore loses stiffness and bearing capacity, and thus a pressing crease line A and a stress relief area B are formed. Because the trough position that is located regional B hole paper core of stress relief no longer becomes the stress concentration point when folding, consequently, during folding, packaging material can only go on along this stress concentration point of the mid point position A1 of indentation line A to take place the problem of off normal deformation when having avoided hole paper packaging material to fold, in addition, through setting up first stress relief device 310 and second stress relief device 320, form two regional B of stress relief, make hole paper packaging material have more stability when folding.

Example 3

Referring to fig. 3, 5, 7 and 8, the die-cutting plate of the present embodiment includes a base 10, an indentation knife 20 and a stress relief device 30.

The base 10 is made of artificial fiber board, a linear gap is arranged on the base 10, the indentation knife 20 is made of stainless steel strip material and is in a convex design, the indentation knife 20 is clamped on the base 10 through a convex knife back, the knife edge is provided with a circular chamfer 201, the stress relieving device 30 is made of blocky copper, the indentation knife further comprises a first stress relieving device 310 and a second stress relieving device 320, two ends 311 and 312 of the first stress relieving device 310 in the length direction are in arc arrangement, two ends 321 and 322 of the second stress relieving device 320 in the length direction are in arc arrangement, the stress relieving device 30 is fixed on the base 10 through glue and is arranged adjacent to two side faces of the indentation knife 20, and the height of the indentation knife 20 is larger than that of the stress relieving device 30.

The die cutting plate is fixed on a pressing plate of the die cutting machine through an adhesive material, the pit paper packaging material is arranged between bearing plates of the die cutting machine, when the die cutting plate fixed on the pressing plate is combined with the bearing plates, the distance between the stress relief device 30 and the bearing plates is smaller than the thickness of the pit paper packaging material, at the moment, under the pressure action of the indentation knife 20 and the stress relief device 30, a wavy paper core of the pit paper packaging material is pressed, folded and deformed, and therefore loses stiffness and bearing capacity, and thus a pressing crease line A and a stress relief area B are formed. Because the trough position that is located regional B hole paper core of stress relief no longer becomes stress concentration point when folding, consequently, when folding, packaging material can only go on along this stress concentration point of the mid point position A1 of indentation line A to take place the problem of off normal deformation when having avoided hole paper packaging material to fold, in addition, through set up circular chamfer 201 on the blade edge of indentation sword 20, and set up arc at stress relief device 30 length direction's both ends, can avoid hole paper packaging material's surface course edge fracture when the pressurized.

Example 4

Referring to fig. 4 and 5, a die cutting plate is provided in this embodiment, which is similar to embodiment 3 except that an auxiliary indentation device 40 is further provided.

The auxiliary indentation device 40 is fixedly arranged on the pressure bearing plate for die cutting, a groove 410 and a shoulder 420 are arranged on the auxiliary indentation device 40, the shoulder 420 further comprises a first shoulder 421 and a second shoulder 422, the position of the groove 410 corresponds to the position of the indentation knife 20, the width of the groove is larger than the width of the indentation knife 20, and when the die cutting plate is combined with the auxiliary indentation device 40, the distance between the stress relief device 30 and the shoulder 420 is smaller than the thickness of the pitted paper packaging material.

During the creasing operation, the creasing blade 20 presses the pitted paper packaging material into the recess 410 to form a crease line a. Meanwhile, under the pressure action of the stress relief device 30 and the shoulder 420, the wavy structure of the paper core of the pitted paper packaging material is damaged to form a stress relief area B, and because the trough position of the pitted paper core positioned in the stress relief area B does not become a stress concentration point any more during folding, the packaging material can only be folded along the stress concentration point of the midpoint position A1 of the crease line A, thereby avoiding the problem of deflection deformation during folding of the pitted paper packaging material

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a cross cutting version can be fixed in the board of exerting pressure of cross cutting machine, its characterized in that includes:

a base;

the indentation knife is fixedly arranged on the base;

the stress relief device is fixedly arranged on the base and is arranged adjacent to the side face of the indentation knife, and the height of the stress relief device is lower than that of the indentation knife.

2. The die cut plate of claim 1, wherein the stress relief means is a rigid block of material.

3. The die-cut plate of claim 2, wherein the stress relief means is made of a metallic material.

4. The die-cut plate according to claim 3, wherein the metal material is selected from any one of iron, aluminum, copper or stainless steel.

5. The die-cut plate of claim 1, wherein the stress relief means has a width greater than the sum of the widths of at least one peak and one valley of the pitted paper core.

6. The die-cut plate of claim 5, wherein the stress relief means has a width of 10 MM.

7. The die cut plate of claim 1, wherein the stress relief means is arcuate at both ends in the length direction.

8. The die-cut plate of claim 1, wherein the blade of the creasing knife is provided with a rounded chamfer.

9. The die-cut plate according to any one of claims 1 to 8, wherein the stress relief device further comprises a first stress relief device and a second stress relief device, and the first stress relief device and the second stress relief device are respectively disposed at two sides of the creasing blade.

10. The die-cutting plate according to claim 9, further comprising an auxiliary indentation device, wherein the auxiliary indentation device is disposed on the pressure plate of the die-cutting machine, and is provided with a groove and shoulder portions located at two sides of the groove, and the groove corresponds to the indentation knife.

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