CN212496023U - Die cutting laser machine - Google Patents

Abstract

The utility model provides a cross cutting laser machine. According to the technical scheme, the die cutting executing mechanism and the laser cutting mechanism are integrated, so that the cooperation of two cutting processes is realized. Specifically, the utility model utilizes the horizontal and vertical translation mechanisms to bear the die cutting assembly together, after the workpiece is processed and formed in the die cutting assembly, the workpiece is pushed out by the electric push rod at the rear side to move to the surface of the vertical translation mechanism, then the vertical translation mechanism is started to translate the workpiece to the lower part of the laser cutting head, and the laser cutting is executed; in the process of executing laser cutting, the horizontal and vertical translation mechanisms drive the workpiece to make compound motion in a horizontal plane, so that a required cutting seam is formed. Use the utility model discloses, can utilize laser to adjust the edge shape after cross cutting processing, also can directly utilize laser to form jumbo size joint-cutting, effectively extended the range of work, play supplementary, perfect effect to the function of die cutting machine.

Description

Die cutting laser machine

Technical Field

The utility model relates to a mechanical cutting technical field, concretely relates to cross cutting laser machine.

Background

The die cutting machine is a device which applies a certain pressure to a print product or a paperboard by utilizing a die cutting knife, a steel knife, a hardware die and a steel wire (or a template carved by a steel plate) through a printing plate and cuts the print product or the paperboard into a certain shape by rolling. The method has wide application in the processing of nonmetal materials such as adhesive products, dustproof materials, shockproof products, insulating materials, EMI shielding materials, heat-resistant and heat-insulating materials, paper packaging materials and the like. In recent years, the processing requirements of various large-board products are gradually increased, and the conventional die-cutting machine is difficult to directly process and form the large-board products; in addition, the conventional die cutting machine is difficult to flexibly adjust the direction of the seam in the processing process, so that the lifting and the improvement of the process are not facilitated.

Laser cutting is to irradiate workpiece with focused high-power-density laser beam to melt, vaporize and ablate the irradiated material quickly, so as to achieve the cutting-off function. The laser cutting has the advantages of flexible trend and easy adjustment, can form a longer cutting seam, but has relatively slow cutting speed and certain complementarity with a die cutting process; however, the two principles and implementations are completely different, so it is difficult to integrate the two in structure.

Disclosure of Invention

The utility model discloses aim at to prior art's technical defect, provide a cross cutting laser machine to solve prior art, conventional cross cutting machine is difficult to the technical problem of the great face product of disposable processing.

The utility model discloses another technical problem who solves is, how to cooperate cross cutting and laser cutting, cuts the processing to the product jointly.

In order to realize the technical purpose, the utility model adopts the following technical scheme:

the die-cutting laser machine comprises a base station, a transverse conveyor belt, a longitudinal conveyor belt, a bearing plate, a first electric cylinder, an upper die, an electric push rod, a fixed arm, a second electric cylinder, a support frame and a laser cutting head, wherein the transverse conveyor belt is arranged on the base station, the longitudinal conveyor belt is integrally borne on the transverse conveyor belt, the bearing plate is fixedly connected on the longitudinal conveyor belt, the upper end of the bearing plate is fixedly connected with a plurality of first electric cylinders, and the upper die is fixedly connected on the upper ends of the first electric cylinders; a fixed arm is fixedly connected to the base station, an electric push rod is fixedly connected to the front end of the fixed arm, and the plane where the electric push rod is located at the upper end of the plane where the bearing and cutting plate is located; the fixed arm is fixedly connected with a vertical second electric cylinder, the lower end of the second electric cylinder is fixedly connected with a support frame, and two sides of the support frame are respectively and fixedly connected with laser cutting heads.

Preferably, the laser cutting head comprises an air pump, an air conveying pipe, a spray head and a clamp, wherein the air pump is fixedly connected to the side end of the laser cutting head, the air conveying pipe is connected to the air exhaust end of the air pump, the spray head is arranged at the tail end of the air conveying pipe, the spray head is located on the side of the output end of the laser cutting head, and the air conveying pipe and the laser cutting head are fixedly clamped through the clamp.

Preferably, there are 4 groups of the first electric cylinders, and the 4 groups of the first electric cylinders are respectively positioned at four corners of the upper end of the bearing plate.

Preferably, the die further comprises a lower die and a workpiece, the lower die is fixedly connected to the bearing and cutting plate, the lower die is located below the upper die, the workpiece is located between the lower die and the upper die, and the electric push rod and the workpiece are located on the same plane.

Preferably, the air inlet end of the air pump is connected to a nitrogen gas source.

In the above technical solution, the base station is used for bearing the whole structure of the utility model; the transverse conveyor belt can drive the longitudinal conveyor belt and all structures on the longitudinal conveyor belt to move transversely; the longitudinal conveyor belt is used for driving all structures on the longitudinal conveyor belt to move longitudinally; based on the compound movement of the transverse conveyor belt and the longitudinal conveyor belt, the workpiece on the longitudinal conveyor belt can be randomly positioned on the horizontal plane to meet the trend requirement of laser cutting; wherein, the transverse conveyor belt and the longitudinal conveyor belt can be respectively replaced by a transverse sliding table and a longitudinal sliding table, and the principles are the same; the bearing and cutting plate is used for bearing a workpiece; the first electric cylinder is used for driving the upper die to vertically move so as to execute die cutting action; after the workpiece is subjected to die cutting between the upper die and the bearing and cutting plate, the workpiece is pushed out of the bearing and cutting plate by using an electric push rod, and then the workpiece is moved to the position below the laser cutting head by using a longitudinal conveyor belt to perform laser cutting; in the process of executing laser cutting, the transverse conveyor belt and the longitudinal conveyor belt drive the workpiece to do compound motion in a horizontal plane, so that a required cutting seam is formed; in the process, the movement of the transverse conveyor belt and the longitudinal conveyor belt can be controlled manually or realized by conventional programming; the fixed arm is used for bearing the electric push rod and the second electric cylinder; the second electric cylinder is used for driving the support frame and the laser cutting head on the support frame to do lifting motion; the support frame is used for bearing the laser cutting head; the laser cutting head is a conventional modularized product and can be integrally purchased from the market.

In preferred technical scheme, add extra nitrogen gas in the laser cutting head periphery and sweep the mechanism: the air pump is used for outputting nitrogen through the air delivery pipe and the spray head, so that the blowing effect is achieved on the cutting seam, and the solidification of the melting part is accelerated; the clamp is used for fixing the gas pipe.

The utility model provides a cross cutting laser machine. According to the technical scheme, the die cutting executing mechanism and the laser cutting mechanism are integrated, so that the cooperation of two cutting processes is realized. Specifically, the utility model utilizes the horizontal and vertical translation mechanisms to bear the die cutting assembly together, after the workpiece is processed and formed in the die cutting assembly, the workpiece is pushed out by the electric push rod at the rear side to move to the surface of the vertical translation mechanism, then the vertical translation mechanism is started to translate the workpiece to the lower part of the laser cutting head, and the laser cutting is executed; in the process of executing laser cutting, the horizontal and vertical translation mechanisms drive the workpiece to make compound motion in a horizontal plane, so that a required cutting seam is formed. Use the utility model discloses, can utilize laser to adjust the edge shape after cross cutting processing, also can directly utilize laser to form jumbo size joint-cutting, effectively extended the range of work, play supplementary, perfect effect to the function of die cutting machine.

Drawings

FIG. 1 is a perspective view of the present invention;

fig. 2 is a front view of the present invention;

FIG. 3 is a schematic view of the laser cutting head according to the present invention;

in the figure:

1. base platform 2, transverse conveyor belt 3, longitudinal conveyor belt 4 and cutting plate

5. First electric cylinder 6, upper die 7, electric push rod 8 and fixed arm

9. Second electric cylinder 10, support frame 11, laser cutting head 12 and air pump

13. Gas pipe 14, shower nozzle 15, output 16, clamp.

Detailed Description

The following will describe in detail specific embodiments of the present invention. Well-known structures or functions may not be described in detail in the following embodiments in order to avoid unnecessarily obscuring the details. Approximating language, as used herein in the following examples, may be applied to identify quantitative representations that could permissibly vary in number without resulting in a change in the basic function. Unless defined otherwise, technical and scientific terms used in the following examples have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Example 1

The die-cutting laser machine comprises a base platform 1, a transverse conveyor belt 2, a longitudinal conveyor belt 3, a cutting bearing plate 4, a first electric cylinder 5, an upper die 6, an electric push rod 7, a fixed arm 8, a second electric cylinder 9, a support frame 10 and a laser cutting head 11, wherein the transverse conveyor belt 2 is arranged on the base platform 1, the longitudinal conveyor belt 3 is integrally borne on the transverse conveyor belt 2, the cutting bearing plate 4 is fixedly connected on the longitudinal conveyor belt 3, the upper end of the cutting bearing plate 4 is fixedly connected with a plurality of first electric cylinders 5, and the upper end of the first electric cylinders 5 is fixedly connected with the upper die 6; a fixed arm 8 is fixedly connected to the base station 1, an electric push rod 7 is fixedly connected to the front end of the fixed arm 8, and the plane where the electric push rod 7 is located at the upper end of the plane where the cutting plate 4 is located; a vertical second electric cylinder 9 is fixedly connected to the fixed arm 8, a support frame 10 is fixedly connected to the lower end of the second electric cylinder 9, and laser cutting heads 11 are fixedly connected to two sides of the support frame 10 respectively.

The device has the following structural characteristics: the base station 1 is used for bearing the whole structure of the utility model; the transverse conveyor belt 2 can drive the longitudinal conveyor belt 3 and all structures thereon to move transversely; the longitudinal conveyor belt 3 is used for driving all structures on the longitudinal conveyor belt to move longitudinally; based on the compound movement of the transverse conveyor belt 2 and the longitudinal conveyor belt 3, the workpiece on the longitudinal conveyor belt 3 can be randomly positioned on the horizontal plane to meet the trend requirement of laser cutting; wherein, the transverse conveyor belt 2 and the longitudinal conveyor belt 3 can be replaced by a transverse sliding table and a longitudinal sliding table respectively, and the principles are the same; the bearing and cutting plate 4 is used for bearing a workpiece; the first electric cylinder 5 is used for driving the upper die 6 to move vertically so as to execute die cutting action; after the workpiece is subjected to die cutting between the upper die 6 and the bearing and cutting plate 4, the workpiece is pushed out of the bearing and cutting plate 4 by the electric push rod 7, and then the workpiece is moved to the position below the laser cutting head 11 by the longitudinal conveyor belt 3 to perform laser cutting; in the process of executing laser cutting, the transverse conveyor belt 2 and the longitudinal conveyor belt 3 drive the workpiece to do compound motion in a horizontal plane, so that a required cutting seam is formed; in the process, the movement of the transverse conveyor belt 2 and the longitudinal conveyor belt 3 can be controlled manually or can be realized by conventional programming; the fixed arm 8 is used for bearing the electric push rod 7 and the second electric cylinder 9; the second electric cylinder 9 is used for driving the support frame 10 and the laser cutting head 11 thereon to do lifting motion; the support frame 10 is used for bearing the laser cutting head 11; the laser cutting head 11 is a conventional modular product, and is commercially available as a whole.

Example 2

A die-cutting laser machine, as shown in fig. 1-3, comprising a base platform 1, a transverse conveyor belt 2, a longitudinal conveyor belt 3, a cutting-bearing plate 4, a first electric cylinder 5, an upper die 6, an electric push rod 7, a fixed arm 8, a second electric cylinder 9, a support frame 10 and a laser cutting head 11, wherein the transverse conveyor belt 2 is arranged on the base platform 1, the longitudinal conveyor belt 3 is integrally borne on the transverse conveyor belt 2, the cutting-bearing plate 4 is fixedly connected on the longitudinal conveyor belt 3, the upper end of the cutting-bearing plate 4 is fixedly connected with a plurality of first electric cylinders 5, and the upper die 6 is fixedly connected on the upper ends of the first electric cylinders 5; a fixed arm 8 is fixedly connected to the base station 1, an electric push rod 7 is fixedly connected to the front end of the fixed arm 8, and the plane where the electric push rod 7 is located at the upper end of the plane where the cutting plate 4 is located; a vertical second electric cylinder 9 is fixedly connected to the fixed arm 8, a support frame 10 is fixedly connected to the lower end of the second electric cylinder 9, and laser cutting heads 11 are fixedly connected to two sides of the support frame 10 respectively. Wherein, the laser cutting head 11 is an optical fiber plane cutting head D18-TAG manufactured by Suzhou Amitdt laser technology limited.

Simultaneously, still include air pump 12, air supply pipe 13, shower nozzle 14, clamp 16, wherein, air pump 12 fixed connection is connected with 11 sides of laser cutting head, is connected with air supply pipe 13 at the exhaust end of air pump 12, and the end of air supply pipe 13 is shower nozzle 14, and shower nozzle 14 is located the side of the output 15 of laser cutting head 11, and it is fixed through clamp 16 joint between air supply pipe 13 and the laser cutting head 11. The first electric cylinders 5 are provided with 4 groups, and the 4 groups of the first electric cylinders 5 are respectively positioned at the four corners of the upper end of the bearing and cutting plate 4. Still include lower mould and work piece, lower mould fixed connection is on holding cutting plate 4, and the lower mould is located mould 6 below, and the work piece is located between lower mould and the last mould 6, electric putter 7 with the work piece is in on the coplanar. The air inlet end of the air pump 12 is connected to a nitrogen gas source.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention, and is not intended to limit the present invention. Any modification, equivalent replacement, and improvement made within the scope of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The die-cutting laser machine is characterized by comprising a base platform (1), a transverse conveyor belt (2), a longitudinal conveyor belt (3), a bearing plate (4), a first electric cylinder (5), an upper die (6), an electric push rod (7), a fixed arm (8), a second electric cylinder (9), a support frame (10) and a laser cutting head (11), wherein the transverse conveyor belt (2) is arranged on the base platform (1), the longitudinal conveyor belt (3) is integrally borne on the transverse conveyor belt (2), the bearing plate (4) is fixedly connected on the longitudinal conveyor belt (3), a plurality of first electric cylinders (5) are fixedly connected at the upper end of the bearing plate (4), and the upper die (6) is fixedly connected at the upper end of each first electric cylinder (5); a fixed arm (8) is fixedly connected to the base platform (1), an electric push rod (7) is fixedly connected to the front end of the fixed arm (8), and the plane where the electric push rod (7) is located at the upper end of the plane where the cutting-bearing plate (4) is located; a vertical second electric cylinder (9) is fixedly connected to the fixed arm (8), a support frame (10) is fixedly connected to the lower end of the second electric cylinder (9), and laser cutting heads (11) are fixedly connected to two sides of the support frame (10) respectively.

2. The die cutting laser machine according to claim 1, further comprising an air pump (12), an air pipe (13), a spray head (14) and a clamp (16), wherein the air pump (12) is fixedly connected to the side end of the laser cutting head (11), the air exhaust end of the air pump (12) is connected with the air pipe (13), the spray head (14) is arranged at the tail end of the air pipe (13), the spray head (14) is located on the side of the output end (15) of the laser cutting head (11), and the air pipe (13) and the laser cutting head (11) are clamped and fixed through the clamp (16).

3. The die-cutting laser machine according to claim 1, wherein the first electric cylinders (5) have 4 sets, and the 4 sets of the first electric cylinders (5) are respectively located at four corners of the upper end of the cutting plate (4).

4. The die-cutting laser machine according to claim 1, further comprising a lower die and a workpiece, wherein the lower die is fixedly connected to the cutting plate (4), the lower die is located below the upper die (6), the workpiece is located between the lower die and the upper die (6), and the electric push rod (7) and the workpiece are located on the same plane.

5. The die cutting laser machine according to claim 2, wherein the air inlet of the air pump (12) is connected to a nitrogen gas source.

Images