CN221019244U - Sleeve pattern cutting device based on laser drilling machine - Google Patents

Abstract

The utility model relates to a sleeve pattern cutting device based on a laser drilling machine, which is used for cutting a sleeve pattern of filling the pre-punched tipping paper, and comprises the following components: the guide roller sets are rectangular and sequentially comprise a guide roller No. 4, a guide roller No. 3, a guide roller No. 2 and a guide roller No. 1; a paper collecting reel for storing the pre-punched tipping paper; the vibrating mirror is positioned between the No. 2 guide roller and the No. 1 guide roller and above the pre-punched tipping paper for laser cutting; the pre-punching tipping paper starts from the paper release reel, sequentially passes through the guide roller set, and before passing through the No. 1 guide roller set, the vibrating mirror can cut the pre-punching tipping paper and go up a sleeve chart, and finally reaches the paper release reel for storage. Compared with the prior art, the utility model can realize the function of cutting the sleeve pattern on the existing laser cutting machine.

Description

Sleeve pattern cutting device based on laser drilling machine

Technical Field

The utility model relates to automatic industrial equipment, in particular to a sleeve drawing cutting device based on a laser drilling machine.

Background

With the development of the tobacco industry, the demand for pre-perforated tipping paper, which is one of the main materials, is greatly increased, and the conventional pre-perforated tipping paper is perforated by a laser perforating machine, but the conventional laser perforating machine cannot cut the sleeve pattern, and additional procedures and equipment are required. In addition, an increasing number of tipping paper suppliers, in turn, place new demands on pre-perforated tipping paper due to the demands of the tobacco production process: the laser-beam punch adds a cutting pattern functionality, i.e., it is desirable to integrate the cutting pattern with the laser-beam punch. In view of the above, various manufacturers of laser drilling equipment are actively developing cutting devices that meet the above requirements, and are used in laser drilling machines.

Disclosure of utility model

The utility model aims to overcome the defects of the prior art and provide a sleeve pattern cutting device based on a laser drilling machine, which realizes the function of cutting a sleeve pattern on the prior laser cutting machine.

The aim of the utility model can be achieved by the following technical scheme:

A laser-based pattern cutting apparatus for pattern cutting of a pre-perforated tipping paper, comprising:

A paper feed reel for feeding the pre-punched tipping paper;

The guide roller set is used for guiding the pre-punching tipping paper and comprises a No. 4 guide roller, a No. 3 guide roller, a No. 2 guide roller and a No. 1 guide roller which are sequentially distributed in a rectangular mode, so that the pre-punching tipping paper between the No. 2 guide roller and the No. 1 guide roller is smooth and stable;

a paper collecting reel for storing the pre-punched tipping paper;

and a vibrating mirror which is arranged between the No. 2 guide roller and the No. 1 guide roller from the upper part and sleeved with a pattern template for laser cutting.

Further, the pattern cutting device further comprises a paper unwinding motor for controlling the paper unwinding shaft to rotate and a paper winding motor for controlling the paper winding shaft to rotate, the paper unwinding shaft is installed on the paper unwinding motor, and the paper winding shaft is installed on the paper winding motor.

Furthermore, in the running process of the pattern cutting device, the running speeds and the running directions of the paper unwinding motor and the paper winding motor are always consistent.

Further, the guide roller No. 4 and the guide roller No. 3 are positioned on the rectangular lower layer, the guide roller No. 2 and the guide roller No. 1 are positioned on the rectangular lower layer, and the axis connecting line of the guide roller No. 1 and the guide roller No. 2 is parallel to the axis connecting line of the guide roller No. 3 and the guide roller No. 4. The layout of the 4 guide rollers is the best combination obtained through a large number of layout experiments, the flatness of the pre-punched tipping paper on the No. 1 guide roller and the No. 2 guide roller is a key factor influencing the final cutting sleeve effect of the pre-punched tipping paper, and in order to achieve the best cutting effect of the vibrating mirror, the axes of the No. 1 guide roller and the No. 2 guide roller are parallel to the lower surfaces of the front scanning vibrating mirror device and the rear scanning vibrating mirror device.

Further, the galvanometer comprises a front scanning galvanometer device and a rear scanning galvanometer device, wherein the front scanning galvanometer device is positioned in front of the rear scanning galvanometer device on the same horizontal plane, and the front scanning galvanometer device and the rear scanning galvanometer device are combined to complete a complete set of pictures.

Furthermore, the front scanning galvanometer device and the rear scanning galvanometer device are parallel on the horizontal plane, and the vertical distance between the front scanning galvanometer device and the pre-punched tipping paper is the same.

Further, the pattern cutting device further comprises a paper roll roller for tightening the pre-punched tipping paper, and the paper roll roller is positioned between the No. 1 guide roller and the paper collecting roll.

Furthermore, the position of the paper roll roller is adjustable, and the tightness degree of the pre-punched tipping paper is controlled. Too tight may result in a high friction force which may lead to tightening of the pre-perforated tipping paper, which may easily damage the pre-perforated tipping paper; too loose results in poor guidance during movement and manifests itself as wobble of the pre-perforated tipping paper during operation.

Still further, the pattern cutting device further comprises a high-definition camera positioned between the paper roll roller and the paper collecting roll, the pattern cut by the vibrating mirror is scanned and compared with a preset pattern, and whether the pattern is qualified is detected.

Further, the pattern cutting device further comprises a waste receiving box positioned below the No. 2 guide roller and the No. 1 guide roller and used for receiving waste generated by pattern cutting of the vibrating mirror.

Compared with the prior art, the utility model has the following advantages:

The utility model adds a cutting pattern sleeving function on the basis of a laser drilling machine, a pattern template is sleeved on a vibration mirror, and then a scanning vibration mirror device cuts pre-perforated tipping paper according to the pattern shape. The device can realize the upgrading and updating of functions by simply arranging the guide roller groups and adding simple executing mechanisms such as a motor on the old-type equipment, has small burden and low cost on the original laser drilling machine, and has better economical efficiency.

Drawings

FIG. 1 is a schematic view of the structure of the device of example 1;

fig. 2 is a top view of the device of example 1.

The figure indicates:

1-galvanometer, 101-front scanning galvanometer device, 102-back scanning galvanometer device; 2-high definition camera; 3-a paper collecting scroll, 301-a paper collecting scroll motor; 4-guiding roller group, 401-1 guiding roller, 402-2 guiding roller, 403-3 guiding roller and 404-4 guiding roller; 5-pre-perforating tipping paper; 6-a waste receiving box; 7-a paper roll roller; 8-paper discharge scroll, 801-paper discharge scroll motor.

Detailed Description

The utility model will now be described in detail with reference to the drawings and specific examples. The present embodiment is implemented on the premise of the technical scheme of the present utility model, and a detailed implementation manner and a specific operation process are given, but the protection scope of the present utility model is not limited to the following examples. In the following embodiments or examples, unless otherwise specified, functional components or structures are indicated as conventional components or structures employed in the art to achieve the corresponding functions.

In the description of the present utility model, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "front", "rear", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the following examples, the galvanometer model number scancube, available from SCANLAB GmbH.

Example 1

A laser-based pattern cutting apparatus for pattern cutting of a loading 45 pre-perforated tipping paper, comprising:

A paper feed reel for feeding the pre-punched tipping paper;

The guide roller set is used for guiding the pre-punching tipping paper and comprises a No. 4 guide roller, a No. 3 guide roller, a No. 2 guide roller and a No. 1 guide roller which are sequentially distributed in a rectangular mode, so that the pre-punching tipping paper between the No. 2 guide roller and the No. 1 guide roller is smooth and stable;

a paper collecting reel for storing the pre-punched tipping paper;

and a vibrating mirror which is arranged between the No. 2 guide roller and the No. 1 guide roller from the upper part and sleeved with a pattern template for laser cutting.

In this embodiment, the pre-punched tipping paper 5 starts from the paper releasing reel 8, sequentially passes through the guide roller No. 4 404, the guide roller No. 3 403, the guide roller No. 2 402 and the guide roller No. 1 401, and before passing through the guide roller No. 1 401, the vibrating mirror 1 cuts the pre-punched tipping paper 5 into a sleeve pattern, and finally reaches the paper collecting reel 3 for storage.

In this embodiment, the pattern cutting device further includes a paper unwinding motor 801 for controlling the rotation of the paper unwinding shaft 8 and a paper winding motor 301 for controlling the rotation of the paper winding shaft 3, the paper unwinding shaft 8 is mounted on the paper unwinding motor 801, and the paper winding shaft 3 is mounted on the paper winding motor 301. During the running process of the device, the running speeds and directions of the paper unreeling shaft motor 801 and the paper reeling shaft motor 301 are always consistent.

In this embodiment, the guide rollers No. 4 and No. 3 are located on the rectangular lower layer, the guide rollers No. 2 and No. 1 are located on the rectangular lower layer, and the axis connecting line of the guide rollers No. 1 and No. 2 are parallel to the axis connecting line of the guide rollers No. 3 and No. 4 are located on the guide rollers No. 3 and No. 403, and No. 1 are located on the rectangular lower layer, and the axis connecting line of the guide rollers No. 401 and No. 2 are located on the guide rollers No. 401 and No. 2 are parallel to the axis connecting line of the guide rollers No. 3 and No. 4 are located on the guide rollers No. 404. The layout of the 4 guide rollers is the best combination obtained through a large number of layout experiments, the flatness of the pre-punched tipping paper 5 on the guide rollers 401 and 402 is a key factor affecting the final cutting effect of the pre-punched tipping paper 5 in the cutting process of the sleeve, and in order to optimize the cutting effect of the vibrating mirror 1, the axes of the guide rollers 401 and 402 are required to be parallel to the lower surfaces of the front scanning vibrating mirror device 101 and the rear scanning vibrating mirror device 102. The pre-punched tipping paper 5 comes out of the paper placing scroll 8, passes through the No. 4 guide roller 404 and the No. 3 guide roller 403 successively, the No. 4 guide roller 404 and the No. 3 guide roller 403 are on the same horizontal plane, then the pre-punched tipping paper 5 vertically upwards reaches the No. 2 guide roller 402, then passes through the No. 1 guide roller 401 and the paper roll roller 7 successively, and finally reaches the paper collecting scroll 3 for storage.

In this embodiment, as shown in fig. 2, the galvanometer 1 includes a front scanning galvanometer device 101 and a rear scanning galvanometer device 102, the front scanning galvanometer device 101 is located in front of the rear scanning galvanometer device 102, and the front scanning galvanometer device 101 and the rear scanning galvanometer device 102 are combined to complete a complete set of images. The front scanning galvanometer device 101 and the rear scanning galvanometer device 102 are parallel on the horizontal plane, and the vertical distance between the front scanning galvanometer device and the pre-punched tipping paper 5 is the same. The front scanning galvanometer device 101 and the rear scanning galvanometer device 102 are positioned in front of each other, the pre-punching tipping paper 5 passes through a space between the guide roller 401 No. 1 and the guide roller 402 No. 2, the front scanning galvanometer device 101 and the rear scanning galvanometer device 102 can work simultaneously to cut the sleeve for the pre-punching tipping paper 5, the front scanning galvanometer device 101 cuts the front half sleeve of the pre-punching tipping paper 5, and the rear scanning galvanometer device 102 cuts the rear half sleeve of the pre-punching tipping paper 5 and finally forms a complete sleeve.

In this embodiment, the pattern cutting device further includes a paper roll roller 7 for tightening the pre-perforated tipping paper 5, the paper roll roller 7 is located between the guide roller No. 1 401 and the paper collecting reel 3, an axis connecting line of the paper roll roller 7 and the guide roller No. 1 401 forms an acute angle with an axis connecting line of the paper roll roller 7 and the paper collecting reel 3, and the overall tightness of the pre-perforated tipping paper 5 can be changed by adjusting the position of the paper roll roller 7. Too tight results in a high friction force which can lead to tightening of the pre-perforated tipping paper 5, which tends to damage the pre-perforated tipping paper 5; too loose results in poor guiding properties during movement, which is manifested by a jerking of the pre-perforated tipping paper 5 during operation.

In this embodiment, the pattern cutting device further includes a high-definition camera 2 located between the paper roll roller 7 and the paper collecting roll 3, scans the pattern cut by the vibrating mirror 1, compares the scanned pattern with a preset pattern, and detects whether the pattern is qualified. If the detection set pattern is qualified, the whole device keeps normal operation; if the detected pattern is unqualified, the cutting speeds of the front scanning galvanometer device 101 and the rear scanning galvanometer device 102 are adjusted to enable the pattern finally cut by the front scanning galvanometer device to be qualified, and the previously detected unqualified pattern section reminds an operator to cut out the pattern.

In this embodiment, the pattern cutting device further includes a waste receiving box 6 located below the guide roller 402 No. 2 and the guide roller 401 No. 1, for receiving waste generated when the vibrating mirror 1 cuts the pattern.

The previous description of the embodiments is provided to facilitate a person of ordinary skill in the art in order to make and use the present utility model. It will be apparent to those skilled in the art that various modifications can be readily made to these embodiments and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present utility model is not limited to the above-described embodiments, and those skilled in the art, based on the present disclosure, should make improvements and modifications without departing from the scope of the present utility model.

Claims (10)

1. A laser-based pattern cutting apparatus for pattern cutting of a pre-perforated tipping paper, comprising:

a paper feed reel (8) for feeding the pre-perforated tipping paper (5);

The guide roller set (4) is used for guiding the pre-punched tipping paper (5) and comprises a number 4 guide roller (404), a number 3 guide roller (403), a number 2 guide roller (402) and a number 1 guide roller (401) which are sequentially distributed in a rectangular mode, so that the pre-punched tipping paper (5) between the number 2 guide roller (402) and the number 1 guide roller (401) is smooth and stable;

a paper take-up reel (3) for holding the pre-perforated tipping paper (5);

And a vibrating mirror (1) which is arranged between the No. 2 guide roller (402) and the No. 1 guide roller (401) from the upper part and sleeved with a pattern template for laser cutting.

2. The pattern cutting device based on the laser-beam drilling machine according to claim 1, further comprising a paper discharge reel motor (801) for controlling the rotation of the paper discharge reel (8) and a paper collection reel motor (301) for controlling the rotation of the paper collection reel (3), wherein the paper discharge reel (8) is mounted on the paper discharge reel motor (801), and the paper collection reel (3) is mounted on the paper collection reel motor (301).

3. A laser-based pattern cutting apparatus as claimed in claim 2, wherein the speed and direction of operation of the unwind reel motor (801) and the rewind reel motor (301) are maintained consistent throughout the operation of the pattern cutting apparatus.

4. The pattern cutting device based on the laser drilling machine according to claim 1, wherein the guide roller No. 4 (404) and the guide roller No. 3 (403) are positioned on a rectangular lower layer, the guide roller No. 2 (402) and the guide roller No. 1 (401) are positioned on a rectangular lower layer, and the axis connecting line of the guide roller No. 1 (401) and the guide roller No. 2 (402) is parallel to the axis connecting line of the guide roller No. 3 (403) and the guide roller No. 4 (404).

5. The pattern cutting device based on the laser drilling machine according to claim 1, wherein the galvanometer (1) comprises a front scanning galvanometer device (101) and a rear scanning galvanometer device (102), the front scanning galvanometer device (101) is positioned in front of the rear scanning galvanometer device (102), and the front scanning galvanometer device (101) and the rear scanning galvanometer device (102) are combined to complete a complete pattern.

6. The pattern cutting device based on the laser drilling machine according to claim 5, wherein the front scanning galvanometer device (101) and the rear scanning galvanometer device (102) are parallel to each other on a horizontal plane, and have the same vertical distance with the pre-drilling tipping paper (5).

7. A laser-based pattern cutting apparatus as claimed in claim 1, further comprising a paper roll roller (7) for tightening the pre-perforated tipping paper (5), the paper roll roller (7) being located between the guide roller No. 1 (401) and the take-up reel (3).

8. A laser-based pattern cutting apparatus as claimed in claim 7, characterized in that the position of the paper roll (7) is adjustable, controlling the tightness of the pre-perforated tipping paper (5).

9. The pattern cutting device based on the laser drilling machine according to claim 7, further comprising a high-definition camera (2) positioned between the paper roll roller (7) and the paper collecting reel (3)), wherein the pattern cut by the vibrating mirror (1) is scanned and compared with a preset pattern, and whether the pattern is qualified is detected.

10. The pattern cutting device based on the laser drilling machine according to claim 1, further comprising a waste receiving box (6) positioned below the guide roller (402) No. 2 and the guide roller (401) No. 1, and used for receiving waste generated by cutting the pattern by the vibrating mirror (1).