CN211762066U - Embossing punching equipment - Google Patents

Abstract

The utility model discloses an embossing punching device, which comprises a square working platform, wherein a paper feeding mechanism, an embossing mechanism for forming lines by extruding paper and a punching mechanism for punching the paper are sequentially arranged from one side edge of the top surface of the working platform to the other opposite side edge; the paper feeding mechanism comprises a paper feeding power roller, a paper feeding mechanism vertical plate arranged on the top surface of the working platform, a paper feeding motor driving the paper feeding power roller to rotate, a paper supporting roller for supporting roll paper and a paper supporting rod for supporting the paper supporting roller; one end of the paper feeding power roller is vertically connected with the side face of the vertical plate of the paper feeding mechanism, the paper supporting rod is arranged at the paper inlet of the paper feeding mechanism, one end of the paper supporting rod is connected with the working platform, and the other end of the paper supporting rod is rotatably connected with the paper supporting roller. The paper feeding, embossing and punching processes are integrated into one process, so that the working flow is saved, the processing link is simplified, the efficiency is improved, and the cost is reduced.

Description

Embossing punching equipment

Technical Field

The utility model relates to a paper products packing field, concretely relates to die-cut equipment of impressed watermark.

Background

Along with the increase of the consumption concept of people, the double-layer paper cup is newly required when the disposable paper cup is used, and indentation ripple patterns in different forms are added on the basis of the original common hollow paper cup. The outer indentation has the existing anti-scalding and anti-skidding function, and surface patterns are novel and various in style, so that the double-layer impression of visual touch of a customer is met. The existing common punching machine only has punching function, and additionally, embossing equipment is required to be arranged before and after punching.

SUMMERY OF THE UTILITY MODEL

Not enough to above-mentioned prior art exists, the utility model provides a die-cut equipment of impressed watermark, it will form advance paper, impressed watermark and die-cut process integration become a process, has saved work flow, has simplified the processing link, the cost is reduced when raising efficiency.

The utility model adopts the technical proposal that:

the embossing and punching equipment comprises a square working platform, wherein a paper feeding mechanism, an embossing mechanism and a punching mechanism are sequentially arranged from one side edge of the top surface of the working platform to the other opposite side edge of the top surface of the working platform; the paper feeding mechanism comprises a paper feeding power roller, a paper feeding mechanism vertical plate arranged on the top surface of the working platform, a paper feeding motor driving the paper feeding power roller to rotate, a paper supporting roller for supporting roll paper and a paper supporting rod for supporting the paper supporting roller; one end of the paper feeding power roller is vertically connected with the side face of the vertical plate of the paper feeding mechanism, the paper supporting rod is arranged at the paper inlet of the paper feeding mechanism, one end of the paper supporting rod is connected with the working platform, and the other end of the paper supporting rod is rotatably connected with the paper supporting roller.

The paper roll is sleeved on the paper supporting roll, and the paper is fed into the embossing mechanism through the paper feeding power roll to be subjected to grain pressing and then fed into the punching mechanism to be punched into single paper; so set up, form paper, impressed watermark and the die-cut process integration of paper into a process, saved work flow, simplified the processing link, the cost is reduced when promoting efficiency.

Preferably, the paper supporting rod is hinged to one side of the working platform, the paper feeding mechanism further comprises a telescopic member, one end of the telescopic member is hinged to the side face of the working platform, the other end of the telescopic member is hinged to the paper supporting rod, and the hinged position is far away from the hinged position of the paper supporting rod and the working platform.

When a paper roll needs to be fed into the paper feeding mechanism, the paper roll is manually rolled to the side of the workbench, the paper supporting roller penetrates into the center of the paper roll, and finally the telescopic component is started to lift the paper supporting rod to a required position; because the weight of the paper roll is large, the paper roll cannot be lifted and fed by workers directly, and the telescopic component is arranged, so that the feeding of the workers can be facilitated.

Preferably, the embossing mechanism comprises an embossing mechanism vertical plate, an embossing roller, an embossing servo motor, a rear power roller and a rear traction servo motor, an output shaft of the embossing servo motor is connected with the embossing roller, an output shaft of the rear traction servo motor is connected with the rear power roller, the embossing roller and the rear power roller which are perpendicular to the side face are arranged on one side face of the embossing mechanism vertical plate, and the side face is consistent with the side face of the paper feeding mechanism vertical plate, which is provided with the paper feeding power roller, in direction.

The embossing mechanism is a double-roller embossing mechanism, paper enters an embossing roller for embossing the paper from the paper feeding mechanism, passes through a pair of rear power rollers for providing power for conveying the paper, and is sent into the punching mechanism after being embossed; the double-roller embossing is continuous embossing, can continuously press the lines of paper without stopping, and has high efficiency.

Further preferably, the embossing mechanism further comprises a front power roller and a front traction servo motor for driving the front power roller to rotate, the front power roller, the embossing roller and the rear power roller are all arranged on the same side face of the vertical plate of the embossing mechanism, and the embossing roller is located between the front power roller and the rear power roller.

A pair of power rollers is respectively arranged in front of and behind the embossing roller, so that the tension degree of the paper in the embossing process is kept, and the paper is prevented from being folded and loosened.

Further preferably, the embossing roller comprises an upper roller and a lower roller which are abutted against each other, and the peripheral sides of the upper roller and the lower roller are provided with matched patterns.

When carrying out the impressed watermark to the paper, the paper is through going up the gap between roller and the lower roll and being extruded the line, so set up, the line is even and continuous, can not produce disconnected line.

Further preferably, a coating layer is arranged on the peripheral side of the upper roller.

The coating layer can be used for further processing lines in the embossing process, such as gold stamping, coloring and the like.

Further preferably, the embossing mechanism is plural.

A plurality of embossing mechanisms enable more complex grain pressing.

Further preferably, embossing mechanism is including the mounting bracket of locating the work platform top surface and the last mould cylinder, last mould and the lower mould that set gradually from the mounting bracket top to the bottom, embossing mechanism still includes embossing power roller and drives the rotatory embossing of embossing power roller pulls servo motor.

This embossing mechanism is the unsmooth mode impressed watermark, and the paper is transported to going up between mould and the lower mould by impressed watermark power roller, and the motion of suspending is gone up mould and lower mould and is extruded the line to the paper, transports next section blank paper to going up between mould and the lower mould again, extrudees the line to the paper with the unsmooth mould, and the paper can bear bigger mould pressure.

Further preferably, a waste removing mechanism is arranged between the embossing mechanism and the punching mechanism.

Because embossing mechanism is at the in-process of die-cut line, the waste material of die-cut production can not break away from the paper completely, sets up clear useless mechanism and can clear up the waste material.

Further preferably, a paper deviation rectifying mechanism is arranged between the paper feeding mechanism and the embossing mechanism.

When the paper deviates the moving track, the paper deviation rectifying mechanism rectifies the paper so as to enable the embossing and punching equipment to continuously operate.

The beneficial effects of the utility model include:

1. the paper roll is sleeved on the paper supporting roll, and the paper is fed into the embossing mechanism through the paper feeding power roll to be subjected to grain pressing and then fed into the punching mechanism to be punched into single paper; by the arrangement, the paper feeding, embossing and punching processes of the paper are integrated into one process, so that the working flow is saved, the processing link is simplified, the efficiency is improved, and the cost is reduced;

2. when a paper roll needs to be fed into the paper feeding mechanism, the paper roll is manually rolled to the side of the workbench, the paper supporting roller penetrates into the center of the paper roll, and finally the telescopic component is started to lift the paper supporting rod to a required position; due to the fact that the paper roll is heavy, workers cannot lift and feed the paper roll directly, and the telescopic component is arranged to facilitate feeding of workers;

3. the embossing mechanism is a double-roller embossing mechanism, paper enters an embossing roller for embossing the paper from the paper feeding mechanism, passes through a pair of rear power rollers for providing power for conveying the paper, and is sent into the punching mechanism after being embossed; the double-roller embossing is continuous embossing, so that the lines of the paper can be continuously pressed without stopping, and the efficiency is high;

4. a pair of power rollers is respectively arranged in front of and behind the embossing roller, which is beneficial to keeping the tension degree of the paper in the embossing process and avoiding the paper from being loosened and folded;

5. when the paper is embossed, the paper is pressed into grains through a gap between the upper roller and the lower roller, and the grains are uniform and continuous without generating broken grains;

6. the coating layer can be used for further processing lines in the embossing process, such as gold stamping, coloring and the like;

7. the multiple embossing mechanisms can realize more complex grain pressing;

8. the embossing mechanism is embossing in a concave-convex mode, paper is conveyed between an upper die and a lower die by an embossing power roller, the movement is suspended, the upper die and the lower die extrude paper into lines, then the next section of blank paper is conveyed between the upper die and the lower die, the paper is extruded into lines by the concave-convex die, and the paper can bear higher die pressure;

9. because embossing mechanism is at the in-process of die-cut line, the waste material of die-cut production can not break away from the paper completely, sets up clear useless mechanism and can clear up the waste material.

10. When the paper deviates the moving track, the paper is corrected by the tension correcting mechanism so that the embossing and punching equipment can continuously run.

Drawings

Fig. 1 is a schematic view of an embossing and punching apparatus according to embodiment 1 of the present invention;

fig. 2 is a schematic view of an embossing and punching apparatus according to embodiment 2 of the present invention;

fig. 3 is a schematic view of an embossing and punching apparatus according to embodiment 5 of the present invention;

fig. 4 is a schematic view of an embossing and die cutting apparatus according to embodiment 6 of the present invention;

fig. 5 is a schematic view of an embossing roller of an embossing and punching device according to embodiment 7 of the present invention;

fig. 6 is a schematic view of an upper roller of an embossing and die cutting device according to embodiment 9 of the present invention;

fig. 7 is a schematic view of a cutting machine and a sampling pattern adjusting track of an embossing and die-cutting device according to embodiment 11 of the present invention;

fig. 8 is a schematic view of an embossing and die cutting apparatus according to embodiment 13 of the present invention.

Reference numerals:

1-working platform, 2-paper feeding mechanism, 21-paper feeding power roller, 22-paper feeding mechanism vertical plate, 23-paper feeding motor, 24-paper setting roller, 25-paper setting rod, 26-telescopic member, 3-embossing mechanism, 31-embossing mechanism vertical plate, 32-rear power roller, 33-rear traction servo motor, 34-embossing roller, 341-upper roller, 342-lower roller, 343-embossing, 344-coating layer, 35-front power roller, 36-front traction servo motor, 37-embossing servo motor, 41-mounting frame, 42-upper die air cylinder, 43-upper die, 44-lower die, 45-embossing power roller, 46-embossing traction servo motor, 5-paper deviation rectifying mechanism and 6-punching mechanism.

Detailed Description

Example 1:

as shown in fig. 1, the embossing and punching device comprises a square working platform 1, wherein a paper feeding mechanism 2, an embossing mechanism 3 and a punching mechanism 6 are sequentially arranged on the top surface of the working platform 1 from right to left; the paper feeding mechanism 2 comprises a paper feeding power roller 21, a paper feeding mechanism vertical plate 22, a paper feeding motor 23 for driving the paper feeding power roller 21 to rotate, a paper supporting roller 24 for supporting roll paper and a paper supporting rod 25 for supporting the paper supporting roller 24; the paper feeding mechanism vertical plate 22 is vertically arranged on the top surface of the working platform 1, the paper feeding power roller 21 is vertically arranged on the front surface of the paper feeding mechanism vertical plate 22, the paper supporting rod 25 is arranged at a paper inlet of the paper feeding mechanism 2, the left end of the paper supporting rod 25 is connected with the working platform 1, and the right end of the paper supporting rod is rotatably connected with the paper supporting roller 24.

The paper roll is sleeved on the paper-holding roll 24, the paper is fed into the embossing mechanism 3 through the paper-feeding power roll 21 to be subjected to grain pressing, and then the paper is fed into the punching mechanism 6 to be punched into single paper; so set up, form paper, impressed watermark and the die-cut process integration of paper into a process, saved work flow, simplified the processing link, the cost is reduced when promoting efficiency.

Example 2:

as shown in fig. 2, based on embodiment 1, the left end of the paper supporting rod 25 is hinged to the working platform 1, the paper feeding mechanism 2 further includes a telescopic member 26, the left end of the telescopic member 26 is hinged to the right side surface of the working platform 1, the swinging plane of the telescopic member 26 is parallel to the paper feeding mechanism vertical plate 22, and the right end of the telescopic member 26 is hinged to the middle of the paper supporting rod 25.

When the paper roll needs to be fed into the paper feeding mechanism 2, the paper roll is manually rolled to the side of the workbench, the paper supporting roller 24 penetrates into the center of the paper roll, and finally the telescopic component 26 is started to lift the paper supporting rod 25 to a required position; because the weight of the paper roll is large, the paper roll cannot be lifted and fed by workers directly by manpower, and the telescopic members 26 are arranged to facilitate feeding of workers.

Example 3:

in addition to embodiment 2, the telescopic member 26 is a cylinder or a hydraulic cylinder

The air cylinder and the hydraulic cylinder have large power and are suitable for winding heavier paper rolls;

example 4:

in addition to embodiment 2, the telescopic member 26 is an electric telescopic rod.

The telescopic stroke of the electric telescopic rod is adjustable and more accurate, and the electric telescopic rod is suitable for paper rolls with special requirements on the upper position.

Example 5:

as shown in fig. 3, in embodiment 3 or embodiment 4, the embossing mechanism 3 includes an embossing mechanism vertical plate 31, an embossing roller 34, an embossing servo motor 37, a rear power roller 32, and a rear traction servo motor 33, an output shaft of the embossing servo motor 37 is connected to the embossing roller 34, an output shaft of the rear traction servo motor 33 is connected to the rear power roller 32, the rear power roller 32 is disposed on the left side of the embossing roller 34, both the rear power roller 32 and the embossing roller 34 are disposed on the front surface of the embossing mechanism vertical plate 31, and the embossing mechanism vertical plate 31 and the paper feeding mechanism vertical plate 22 are located on the same plane.

The embossing mechanism 3 is a double-roller embossing, the paper enters an embossing roller 34 for embossing the paper from the paper feeding mechanism 2, passes through a pair of rear power rollers 32 for providing power for conveying the paper, and is sent to the punching mechanism 6 after being embossed; the double-roller embossing is continuous embossing, can continuously press the lines of paper without stopping, and has high efficiency.

Example 6:

as shown in fig. 4, in addition to embodiment 5, the embossing mechanism 3 further includes a front power roller 35 and a front traction servo motor 36 for driving the front power roller 35 to rotate, and the rear power roller 32, the embossing roller 34 and the front power roller 35 are sequentially disposed on the front surface of the upright plate 31 of the embossing mechanism from right to left.

A pair of powered rollers are provided before and after the embossing roller 34 to help maintain tension on the paper during embossing and to avoid the paper from collapsing.

Example 7:

as shown in fig. 5, in example 6, the embossing roller 34 includes an upper roller 341 and a lower roller 342 which are abutted against each other, and the peripheral sides of the upper roller 341 and the lower roller 342 are provided with a matching pattern 343.

When the paper is embossed, the paper is pressed out of grains through the gap between the upper roller 341 and the lower roller 342, and the grains are uniform and continuous without generating broken grains.

Example 8:

on the basis of example 7, pattern 343 has knife edges.

The pattern 343 with the edge can cut off the paper on the lines in the pressing process to form hollow lines.

Example 9:

as shown in fig. 6, in example 8, a coating layer 344 is provided on the peripheral side of the upper roller 341.

The paint layer 344 enables further processing of the texture, such as gold stamping, coloring, etc.

Example 10:

in example 5, there are a plurality of embossing mechanisms 3.

A plurality of embossing mechanisms 3 enables more complex grain pressing.

Example 11:

as shown in fig. 7, based on embodiment 3 or embodiment 4, the embossing mechanism 3 includes a mounting frame 41 disposed on the top surface of the working platform 1, and an upper die cylinder 42, an upper die 43, and a lower die 44 sequentially disposed on the mounting frame 41 from top to bottom, and the embossing mechanism 3 further includes an embossing power roller 45 and an embossing traction servo motor 46 for driving the embossing power roller 45 to rotate.

This embossing mechanism 3 is the embossing of unsmooth mode, and the paper is carried to going up between mould 43 and the lower mould 44 by embossing power roller 45, and pause motion goes up mould 43 and lower mould 44 and extrudes into the line to the paper, transports next section blank paper to going up between mould 43 and the lower mould 44 again, extrudes into the line to the paper with the unsmooth mould, and the paper can bear bigger mould pressure.

Example 12:

in addition to embodiment 11, a waste cleaning mechanism is provided between the emboss mechanism 3 and the die-cutting mechanism 6.

Because embossing mechanism 3 is at the in-process of die-cut line, the waste material of die-cut production can not break away from the paper completely, sets up clear useless mechanism and can clear up the waste material.

Example 13:

as shown in fig. 8, in addition to embodiment 3 or embodiment 4, a paper skew correcting mechanism 5 is provided between the paper feeding mechanism 2 and the embossing mechanism 3.

When the paper deviates the moving track, the paper deviation rectifying mechanism 5 rectifies the paper so as to enable the embossing and punching equipment to continuously operate.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. The embossing and punching equipment comprises a square working platform and is characterized in that a paper feeding mechanism, an embossing mechanism and a punching mechanism are sequentially arranged from one side edge of the top surface of the working platform to the other opposite side edge; the paper feeding mechanism comprises a paper feeding power roller, a paper feeding mechanism vertical plate arranged on the top surface of the working platform, a paper feeding motor driving the paper feeding power roller to rotate, a paper supporting roller for supporting roll paper and a paper supporting rod for supporting the paper supporting roller; one end of the paper feeding power roller is vertically connected with the side face of the vertical plate of the paper feeding mechanism, the paper supporting rod is arranged at the paper inlet of the paper feeding mechanism, one end of the paper supporting rod is connected with the working platform, and the other end of the paper supporting rod is rotatably connected with the paper supporting roller.

2. The embossing and punching device as claimed in claim 1, wherein the paper supporting rod is hinged to one side of the working platform, the paper feeding mechanism further comprises a telescopic member, one end of the telescopic member is hinged to the side of the working platform, the other end of the telescopic member is hinged to the paper supporting rod, and the hinged position is far away from the hinged position of the paper supporting rod and the working platform.

3. The embossing and punching device as claimed in claim 2, wherein the embossing mechanism comprises an embossing mechanism vertical plate, an embossing roller, an embossing servo motor, a rear power roller and a rear traction servo motor, an output shaft of the embossing servo motor is connected with the embossing roller, an output shaft of the rear traction servo motor is connected with the rear power roller, the embossing roller and the rear power roller which are perpendicular to the embossing roller and the rear power roller are arranged on one side face of the embossing mechanism vertical plate, and the side face is consistent with the side face of the paper feeding mechanism vertical plate, on which the paper feeding power roller is arranged.

4. The embossing and punching device as claimed in claim 3, wherein the embossing mechanism further comprises a front power roller and a front traction servo motor for driving the front power roller to rotate, the front power roller, the embossing roller and the rear power roller are all arranged on the same side of the vertical plate of the embossing mechanism, and the embossing roller is positioned between the front power roller and the rear power roller.

5. The embossing and blanking device of claim 4 wherein said embossing rollers comprise abutting upper and lower rollers, said upper and lower rollers having peripheral sides provided with mating patterns.

6. The embossing and blanking device of claim 5 wherein the upper roller is coated with a layer of paint around its periphery.

7. The embossing die cutting apparatus of claim 3 wherein there are a plurality of said embossing mechanisms.

8. The embossing and punching device as claimed in claim 2, wherein the embossing mechanism comprises a mounting frame arranged on the top surface of the working platform, and an upper die cylinder, an upper die and a lower die which are sequentially arranged from the top to the bottom of the mounting frame, and the embossing mechanism further comprises an embossing power roller and an embossing traction servo motor driving the embossing power roller to rotate.

9. The embossing and blanking device of claim 8 wherein a waste removal mechanism is disposed between the embossing mechanism and the blanking mechanism.

10. The embossing and die cutting apparatus of claim 2, wherein a paper deviation correcting mechanism is provided between the paper feeding mechanism and the embossing mechanism.

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