CN113021960A

CN113021960A - Laser flat plate composite die cutting system and die cutting method thereof

Info

Publication number: CN113021960A
Application number: CN202110134264.6A
Authority: CN
Inventors: 周博; 黄军政
Original assignee: Zhengzhou Triumphlead Technology Co ltd
Current assignee: Zhengzhou Triumphlead Technology Co ltd
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-06-25
Anticipated expiration: 2041-01-29
Also published as: CN113021960B

Abstract

The invention discloses a laser flat plate composite die cutting system and a die cutting method thereof, wherein the system comprises a laser die cutting device, a flat plate die cutting device and a waste discharge device, wherein the laser die cutting device, the flat plate die cutting device and the waste discharge device are sequentially arranged; the laser die cutting device comprises a first compound mechanism, a second compound mechanism, a laser die cutting mechanism, a third compound mechanism and a fourth compound mechanism, wherein the first compound mechanism, the second compound mechanism, the laser die cutting mechanism, the third compound mechanism and the fourth compound mechanism are sequentially arranged; the first material belt, the second material belt and the third material belt are input from the first composite mechanism and sequentially pass through the second composite mechanism, the laser die-cutting mechanism, the third composite mechanism, the fourth composite mechanism and the flat-plate die-cutting device to be input into the discharging device. The productivity of complex products is improved, and the efficiency is improved; the product size is ensured, and accurate tolerance is met; the machine discharges waste, the efficiency is improved, and the cost is reduced; the advantages of the laser process and the flat plate process are combined, and a more optimized process scheme is provided for complex products.

Description

Laser flat plate composite die cutting system and die cutting method thereof

Technical Field

The invention relates to the technical field of die cutting, in particular to a laser flat composite die cutting system and a die cutting method thereof.

Background

In the current die cutting industry, some materials (loose and hard-to-rebound foam, thick PC mylar and no base material glue) are subjected to larger pressure to cause physical property failure (thickness loss, edge flash, deformation and the like), a roller type material-feeding laser die cutting machine is mostly adopted for one-step forming, and a semi-finished product is made into a finished product by removing waste materials in a manual waste discharge mode.

The process has low productivity and low efficiency; the size of the produced product is unstable, and the tolerance is difficult to meet; moreover, the labor efficiency is low and the cost is high.

Disclosure of Invention

According to one aspect of the invention, a laser flat panel composite die cutting system is provided, which comprises a laser die cutting device, a flat panel die cutting device and a waste discharge device, wherein the laser die cutting device, the flat panel die cutting device and the waste discharge device are arranged in sequence;

the laser die cutting device comprises a first compound mechanism, a second compound mechanism, a laser die cutting mechanism, a third compound mechanism and a fourth compound mechanism, wherein the first compound mechanism, the second compound mechanism, the laser die cutting mechanism, the third compound mechanism and the fourth compound mechanism are sequentially arranged;

the first material belt, the second material belt and the third material belt are input from the first composite mechanism and sequentially pass through the second composite mechanism, the laser die-cutting mechanism, the third composite mechanism, the fourth composite mechanism and the flat-plate die-cutting device to be input into the discharging device.

The invention provides a laser and flat plate combined die cutting system which is automatically produced in the whole process. In the system, a first material belt, a second material belt and a third material belt are input into a laser die cutting device, the first material belt, the second material belt and the third material belt are compounded and subjected to laser die cutting by the laser die cutting device to obtain a semi-finished product, and the semi-finished product is input into a flat die cutting device for flat die cutting and then input into a waste discharge device to obtain a finished product. The productivity of complex products is improved, and the efficiency is improved; the product size is ensured, and accurate tolerance is met; the machine discharges waste, the efficiency is improved, and the cost is reduced; the advantages of the laser process and the flat plate process are combined, and a more optimized process scheme is provided for complex products.

In some embodiments, the laser die cutting mechanism includes a laser engraver and a conveyor track, the laser engraver being disposed above the conveyor track.

From this, the material area after the complex is followed the delivery track and is passed through, and laser engraving machine carries out the cross cutting to the material area to reacing semi-manufactured goods.

In some embodiments, a first row of waste rollers is disposed at an end of the third compound mechanism adjacent to the laser die cutting mechanism, and the first row of waste rollers is configured to discharge waste material of the first material strap.

From this, utilize first row of waste roll to discharge the waste material in first material area to reach semi-manufactured goods.

In some embodiments, the first compound mechanism, the second compound mechanism, the third compound mechanism and the fourth compound mechanism have the same structure and each include a second mounting plate and two press rollers distributed up and down, the two press rollers are both arranged on the second mounting plate, and the two press rollers are in a tangent relationship.

Therefore, the first combination mechanism, the second combination mechanism and the third combination mechanism are configured to combine the material belts and are combined through two press rolls which are distributed up and down.

In some embodiments, the flat plate die cutting device comprises an upper die, a lower die, a feeding guide mechanism and a discharging guide mechanism, wherein the feeding guide mechanism and the discharging guide mechanism are arranged at two ends of the lower die, the upper die is arranged above the lower die, and the upper die and the lower die can be matched in a separable mode.

From this, semi-manufactured goods material area gets into the lower mould from feeding guiding mechanism department, exports from ejection of compact guiding mechanism again, and semi-manufactured goods material area is by the lower mould, go up the mould cooperation in lower mould department, carries out dull and stereotyped cross cutting.

In some embodiments, the waste discharge device comprises a rack, a first composite roller group, a second composite roller group, a third composite roller group, a second waste discharge roller and a third waste discharge roller, wherein the first composite roller group, the second composite roller group and the third composite roller group are sequentially arranged in the middle of the rack, the second waste discharge roller is arranged on the upper portion of the rack, the second waste discharge roller is arranged above the second composite roller group, the third waste discharge roller is arranged on the lower portion of the rack, and the third waste discharge roller is arranged between the first composite roller group and the second composite roller group.

Thereby, the upper layer scrap is discharged from the second waste discharge roller, and the lower layer scrap is discharged from the third waste discharge roller.

In some embodiments, the waste discharge device further comprises a material receiving roller, the material receiving roller is arranged on the rack, and the material receiving roller is positioned on one side, away from the second composite roller group, of the third conforming roller.

From this, the material receiving roller is configured to carry out the rolling to the finished material area.

According to another aspect of the invention, a die cutting method is provided, which comprises a laser flat plate composite die cutting system, and is characterized by further comprising the following steps:

s1, feeding and compounding: the first material belt, the second material belt and the third material belt are input from the first compounding mechanism and compounded through the first compounding mechanism and the second compounding mechanism to form a compound material belt;

s2, laser die cutting: the composite material belt is input to the laser die-cutting mechanism, passes through the conveying track, is die-cut by the laser engraving machine to obtain a semi-finished product, is discharged from waste materials of the first material belt by the first row of waste rollers to obtain a semi-finished product, and is pressurized and output by the third conforming mechanism and the fourth compounding mechanism to obtain a semi-finished product;

s3, flat plate die cutting: inputting the semi-finished product into the flat plate die cutting device for flat plate die cutting;

s4, waste discharge: the semi-finished material belt is input into the waste discharging device, the semi-finished material belt is input into the first composite roller group at first, then input into the material receiving roller through the second composite roller group and the third composite roller group, the upper layer waste material is discharged from the second waste discharging roller, and the lower layer waste material is discharged from the third waste discharging roller, so that a finished material belt is obtained;

s5, rolling: finally, the finished material belt is wound by a material receiving roller to obtain a product

The invention has the following beneficial effects: the productivity of complex products is improved, and the efficiency is improved; the product size is ensured, and accurate tolerance is met; the machine discharges waste, the efficiency is improved, and the cost is reduced; the advantages of the laser process and the flat plate process are combined, and a more optimized process scheme is provided for complex products.

Drawings

Fig. 1 is a schematic plan view of a laser flat composite die-cutting system according to an embodiment of the present invention.

Fig. 2 is a schematic plan view of a laser die cutting device in the laser flat composite die cutting system shown in fig. 1.

Fig. 3 is a schematic plan view of a flat plate die cutting device in the laser flat plate composite die cutting system shown in fig. 1.

Fig. 4 is a schematic plan view of a waste discharge device in the laser flat composite die-cutting system shown in fig. 1.

Reference numbers in the figures: 1-laser die cutting device, 11-first composite mechanism, 111-second mounting plate, 112-press roll, 12-second composite mechanism, 13-laser die cutting mechanism, 131-laser engraving machine, 132-conveying track, 133-first mounting plate, 14-third composite mechanism, 15-fourth composite mechanism, 16-first waste discharge roll, 2-flat die cutting device, 21-upper die, 22-lower die, 23-feeding guide mechanism, 24-discharging guide mechanism, 3-waste discharge device, 31-frame, 32-first composite roll set, 33-second composite roll set, 34-third composite roll set, 35-second waste discharge roll, 36-third waste discharge roll, 37-material collecting roll, a-first material belt, b-second material belt, c-a third material belt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 schematically shows a laser flat panel compound die-cutting system according to an embodiment of the present invention, which includes a laser die-cutting device 1, a flat panel die-cutting device 2, and a waste discharge device 3, wherein the laser die-cutting device 1, the flat panel die-cutting device 2, and the waste discharge device are arranged in sequence;

the laser die-cutting device 1 comprises a first compound mechanism 11, a second compound mechanism 12, a laser die-cutting mechanism 13, a third compound mechanism 14 and a fourth compound mechanism 15, wherein the first compound mechanism 11, the second compound mechanism 12, the laser die-cutting mechanism 13, the third compound mechanism 14 and the fourth compound mechanism 15 are sequentially arranged;

the first material belt a, the second material belt b and the third material belt c are input from the first compound mechanism 11 and sequentially pass through the second compound mechanism 12, the laser die-cutting mechanism 13, the third compound mechanism 14, the fourth compound mechanism 15 and the flat-plate die-cutting device 2 to be input into the discharging device.

The invention provides a laser and flat plate combined die cutting system which is automatically produced in the whole process. In the system, a first material belt a, a second material belt b and a third material belt c are input into a laser die cutting device 1, the laser die cutting device 1 is used for compounding and laser die cutting the first material belt a, the second material belt b and the third material belt c to obtain a semi-finished product, and the semi-finished product is input into a flat die cutting device 2 for flat die cutting and then input into a waste discharge device 3 to obtain a finished product. The productivity of complex products is improved, and the efficiency is improved; the product size is ensured, and accurate tolerance is met; the machine discharges waste, the efficiency is improved, and the cost is reduced; the advantages of the laser process and the flat plate process are combined, and a more optimized process scheme is provided for complex products.

Referring to fig. 2, the laser die cutting mechanism 13 includes a laser engraver 131 and a conveying rail 132, and the laser engraver 131 is disposed above the conveying rail 132. The compounded material belt passes through the conveying rail 132, and the laser engraving machine 131 performs die cutting on the material belt, so that a semi-finished product is obtained.

Referring to fig. 2, a first row of waste rollers 16 is disposed at an end of the third compound mechanism 14 close to the laser die-cutting mechanism 13, and the first row of waste rollers 16 is configured to discharge waste material of the first material strap a. The waste material of the first material belt a is discharged by the first waste discharge roller 16, so as to obtain a semi-finished product.

Referring to fig. 2, the first compound mechanism 11, the second compound mechanism 12, the third compound mechanism 14, and the fourth compound mechanism 15 have the same structure, and each of the first compound mechanism, the second compound mechanism, the third compound mechanism, and the fourth compound mechanism includes a second mounting plate 111 and two press rollers 112 distributed vertically, the two press rollers 112 are disposed on the second mounting plate 111, and the two press rollers 112 are in a tangent relationship. The first combining mechanism 11, the second combining mechanism 12, and the third combining mechanism 14 are configured to combine the tapes, and are combined by two press rolls 112 distributed up and down.

Referring to fig. 3, the flat plate die cutting device 2 includes an upper die 21, a lower die 22, a feeding guide mechanism 23 and a discharging guide mechanism 24, the feeding guide mechanism 23 and the discharging guide mechanism 24 are disposed at two ends of the lower die 22, the upper die 21 is disposed above the lower die 22, and the upper die 21 and the lower die 22 are detachably engaged. The semi-finished material belt enters the lower die 22 from the feeding guide mechanism 23 and is output from the discharging guide mechanism 24, and the semi-finished material belt is matched with the lower die 22 and the upper die 21 at the lower die 22 for flat-plate die cutting.

Referring to fig. 4, the waste discharge device 3 includes a frame 31, a first composite roller set 32, a second composite roller set 33, a third composite roller set 34, a second waste discharge roller 35, and a third waste discharge roller 36, wherein the first composite roller set 32, the second composite roller set 33, and the third composite roller set 34 are sequentially disposed in the middle of the frame 31, the second waste discharge roller 35 is disposed on the upper portion of the frame 31, the second waste discharge roller 35 is disposed above the second composite roller set 33, the third waste discharge roller 36 is disposed on the lower portion of the frame 31, and the third waste discharge roller 36 is disposed between the first composite roller set 32 and the second composite roller set 33. The upper layer scrap is discharged from the second waste discharge roll 35 and the lower layer scrap is discharged from the third waste discharge roll 36.

Referring to fig. 4, the waste discharging device 3 further includes a material receiving roller 37, the material receiving roller 37 is disposed on the frame 31, and the material receiving roller 37 is located on a side of the third conforming roller far away from the second composite roller set 33. The take-up roller 37 is configured to take up the finished strip of material.

The specific working mode of the system is as follows:

s1, feeding and compounding: the first material belt a, the second material belt b and the third material belt c are input from the first compounding mechanism 11 and are compounded through the first compounding mechanism 11 and the second compounding mechanism 12 to form the compound material belt.

S2, laser die cutting: the compound material area input laser die cutting mechanism 13 department, the compound material area is from the delivery track 132 process, and laser engraving machine 131 cross cuts the material area to reacing semi-manufactured goods, utilizing first row of waste roll 16 to discharge the waste material of first material area a, thereby reacing semi-manufactured goods, and accord with mechanism, fourth composite structure 15 through the third and pressurize the output, reacing semi-manufactured goods.

S3, flat plate die cutting: the semi-finished product is input into the flat plate die cutting device 2, the semi-finished product material belt enters the lower die 22 from the feeding guide mechanism 23, the semi-finished product material belt is matched with the lower die 22 and the upper die 21 at the lower die 22 for flat plate die cutting, and then the semi-finished product material belt is output from the discharging guide mechanism 24.

S4, waste discharge: and (3) inputting the semi-finished material belt into the waste discharge device 3, inputting the semi-finished material belt into the first composite roller group 32, inputting the semi-finished material belt into the material receiving roller 37 through the second composite roller group 33 and the third composite roller group 34, discharging the upper-layer waste material from the second waste discharge roller 35, and discharging the lower-layer waste material from the third waste discharge roller 36 to obtain the finished material belt.

S6, rolling: and finally, winding the finished material belt by a material receiving roller 37 to obtain a product.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims

1. The laser flat plate composite die cutting system is characterized by comprising a laser die cutting device (1), a flat plate die cutting device (2) and a waste discharge device (3), wherein the laser die cutting device (1), the flat plate die cutting device (2) and the waste discharge device are sequentially arranged;

the laser die cutting device (1) comprises a first composite mechanism (11), a second composite mechanism (12), a laser die cutting mechanism (13), a third composite mechanism (14) and a fourth composite mechanism (15), wherein the first composite mechanism (11), the second composite mechanism (12), the laser die cutting mechanism (13), the third composite mechanism (14) and the fourth composite mechanism (15) are sequentially arranged;

the first material belt (a), the second material belt (b) and the third material belt (c) are input from the first composite mechanism (11) and sequentially input into the discharging device through the second composite mechanism (12), the laser die-cutting mechanism (13), the third composite mechanism (14), the fourth composite mechanism (15) and the flat-plate die-cutting device (2).

2. The laser flat composite die-cutting system according to claim 1, characterized in that the laser die-cutting mechanism (13) comprises a laser engraver (131) and a conveying track (132), the laser engraver (131) being provided above the conveying track (132).

3. The laser flat composite die-cutting system according to claim 2, characterized in that the end of the third composite mechanism (14) close to the laser die-cutting mechanism (13) is provided with a first row of waste rollers (16), and the first row of waste rollers (16) is configured to discharge the waste material of the first material belt (a).

4. The laser flat composite die cutting system according to claim 3, wherein the first composite mechanism (11), the second composite mechanism (12), the third composite mechanism (14) and the fourth composite mechanism (15) are identical in structure and respectively comprise a second mounting plate (111) and two press rollers (112) distributed up and down, the two press rollers (112) are respectively arranged on the second mounting plate (111), and the two press rollers (112) are in a tangent relation.

5. The laser flat composite die cutting system according to claim 4, wherein the flat die cutting device (2) comprises an upper die (21), a lower die (22), a feeding guide mechanism (23) and a discharging guide mechanism (24), the feeding guide mechanism (23) and the discharging guide mechanism (24) are arranged at two ends of the lower die (22), the upper die (21) is arranged above the lower die (22), and the upper die (21) and the lower die (22) can be matched in a separable mode.

6. The laser flat composite die cutting system according to any one of claims 4 to 5, characterized in that the waste discharging device (3) comprises a frame (31), a first composite roller set (32), a second composite roller set (33), a third composite roller set (34), a second waste roller (35) and a third waste roller (36), wherein the first composite roller set (32), the second composite roller set (33) and the third composite roller set (34) are sequentially arranged in the middle of the frame (31), the second waste roller set (35) is arranged at the upper part of the frame (31), the second waste roller set (35) is arranged above the second composite roller set (33), the third waste roller set (36) is arranged at the lower part of the frame (31), and the third waste roller set (36) is arranged between the first composite roller set (32) and the second composite roller set (33).

7. The laser flat composite die-cutting system according to claim 6, characterized in that the waste discharge device (3) further comprises a material receiving roller (37), the material receiving roller (37) is arranged on the frame (31), and the material receiving roller (37) is positioned on the side of the third conforming roller far away from the second composite roller group (33).

8. A die cutting method comprising the laser flat composite die cutting system of claim 7, further comprising the steps of:

s1, feeding and compounding: the first material belt (a), the second material belt (b) and the third material belt (c) are input from a first compounding mechanism (11) and compounded through the first compounding mechanism (11) and a second compounding mechanism (12) to form a compound material belt;

s2, laser die cutting: the composite material belt is input to a laser die-cutting mechanism (13), the composite material belt passes through a conveying track (132), the laser engraving machine (131) performs die-cutting on the material belt to obtain a semi-finished product, a first row of waste rollers (16) are used for discharging waste materials of a first material belt (a) to obtain the semi-finished product, and the semi-finished product is pressurized and output through a third conforming mechanism and a fourth compounding mechanism (15) to obtain the semi-finished product;

s3, flat plate die cutting: inputting the semi-finished product into the flat plate die cutting device (2) for flat plate die cutting;

s4, waste discharge: the semi-finished material belt is input into a waste discharging device (3), the semi-finished material belt is input into the first composite roller group (32) at first, then input into a material receiving roller (37) through the second composite roller group (33) and the third composite roller group (34), upper-layer waste materials are discharged from the second waste discharging roller (35), and lower-layer waste materials are discharged from the third waste discharging roller (36), so that a finished material belt is obtained;

s6, rolling: and finally, winding the finished material belt by a material receiving roller (37) to obtain a product.