CN113335985B

CN113335985B - Processing technology of adhesive label paper

Info

Publication number: CN113335985B
Application number: CN202110651267.7A
Authority: CN
Inventors: 车志鹏
Original assignee: Guangzhou Caibang Label Co ltd
Current assignee: Guangzhou Caibang Label Co ltd
Priority date: 2021-06-10
Filing date: 2021-06-10
Publication date: 2023-01-06
Anticipated expiration: 2041-06-10
Also published as: CN113335985A

Abstract

The application relates to the field of label production, in particular to a processing technology of self-adhesive label paper, which comprises the following steps: cutting the raw paper, namely cutting the raw paper to cut off the label paper, the first waste edge and the second waste edge, wherein the label paper, the first waste edge and the second waste edge are all kept in a state of being adhered to the base paper; and (3) thermally sealing the transfer film with the first waste edge, adhering one side of the first waste edge, which is far away from the non-setting adhesive, to the transfer film, and uncovering the transfer film to continuously remove the first waste edge. This application has the effect that improves waste material and rejects efficiency.

Description

Processing technology of adhesive label paper

Technical Field

The application relates to the field of label production, in particular to a processing technology of self-adhesive label paper.

Background

The label needs to be printed firstly during production, the printed label raw material is a strip-shaped paper tape roll, a plurality of label papers can be printed in the same width direction according to the size of the label papers, as shown in the figure, the raw material papers comprise a base paper 00 and a sticker 01, one side of the sticker 01 is painted with a non-setting adhesive, the other side is a printing surface, and the side of the sticker 01 with the non-setting adhesive is adhered to the base paper 00. The sticker 01 includes first slitter edge 010, second slitter edge 011 and label paper 012, and the label paper 012 sets up to ring shape paper, and first slitter edge 010 sets up the disc-shaped paper that is located the intermediate position of label paper 012, and second slitter edge 011 is the outside continuous waste material paper of ring, needs to reject first slitter edge 010 and second slitter edge 011 to make and leave label paper 012 on the base stock 00.

In the related art, in order to remove the first slitter edge 010 and the second slitter edge 011, a strip paper tape is put into a label die-cutting machine, and the label die-cutting machine cuts or cuts the position of a label on the paper tape, so that the shape of the label is formed. The label die-cutting machine in the prior art comprises a frame, a cutting device and a winding device, wherein the cutting device comprises a cutting roller and a conveying belt, the cutting roller is rotatably supported on the frame, raw paper enters the lower portion of the cutting roller to cut the raw paper, the winding device is located at the lower portion of the frame and winds the rest of the raw paper, and the winding device pulls the label raw material downwards so as to separate waste edge two 011 outside the label paper from bottom paper 00.

In view of the above-mentioned related art, the inventor considers that the following defects exist, in such a structure, the worker is required to manually clean the waste material in the middle of each label paper, and the waste material removing efficiency is low.

Disclosure of Invention

In order to improve the efficiency that the waste material was rejected, this application provides a processing technology of non-setting adhesive label paper.

The application provides a processing technology of non-setting adhesive label paper adopts following technical scheme:

a processing technology of self-adhesive label paper comprises the following steps:

cutting the raw paper, namely cutting the raw paper to cut off the label paper, the first waste edge and the second waste edge, wherein the label paper, the first waste edge and the second waste edge are all adhered to the base paper;

and (3) thermally sealing the transfer film with the first waste edge, adhering one surface of the first waste edge, which is far away from the adhesive sticker, with the transfer film, and uncovering the transfer film to continuously remove the first waste edge.

By adopting the technical scheme, the transfer film is thermally bonded with the waste edge, and the waste edge can be continuously removed from the base paper by uncovering the transfer film, so that the aim of improving the waste material removal is achieved.

Preferably, the transfer paper is used for removing the waste edge on the transfer film from the transfer film, and the side, with the non-setting adhesive, of the waste edge is bonded with the transfer paper.

By adopting the technical scheme, the transfer film can be repeatedly utilized, and materials are saved.

Preferably, the processing technology of the non-setting adhesive label paper is carried out by using a processing device, the processing device comprises a rack, a raw material unwinding shaft used for enabling the raw material paper to be unwound, a film unwinding shaft wound with a transfer film, a cutting device used for cutting the raw material paper, a heat sealing device used for enabling the first waste edge to be bonded with the transfer film, a waste edge winding device used for rejecting the second waste edge and a raw material winding device used for accommodating and rejecting the first waste edge and the second waste edge, and the raw material unwinding shaft and the film unwinding shaft are both in rotating connection with the rack.

By adopting the technical scheme, the raw material paper is discharged from the raw material discharge reel, the discharged raw material paper is cut by the cutting device to cut the label paper, the transfer film is bonded with the waste edge I in a heat sealing manner, the waste edge I can be removed from the raw material paper by removing the transfer film, and the waste edge II is removed from the base paper by the waste edge winding device, so that the purpose of improving the waste material removing efficiency is achieved.

Preferably, the cutting device includes cutting assembly and the push-down subassembly that is used for making cutting assembly move down the cutting, cutting assembly includes the cutting board and fixes the tool line on the cutting board, cutting board and frame sliding connection, be provided with the elastic component one that is used for making the cutting board reset in the frame, the tool line is including the outer sword that is used for separating slitter edge two and label paper and the interior sword that is used for separating slitter edge one and label paper.

By adopting the technical scheme, the purpose of cutting the label paper is achieved.

Preferably, the outer knife and the inner knife are both circular blades.

By adopting the technical scheme, the second waste edge and the label paper and the first waste edge and the label paper are separated.

Preferably, the heat seal device includes the heat seal board, sets up the arch on the heat seal board and carries out the heating member that heats to the arch, protruding and slitter edge one correspond, heat seal board and frame sliding connection, heat seal board is fixed with the cutting board.

By adopting the technical scheme, the heat-seal plate is pressed downwards, so that the bulge is thermally bonded with the waste edge, and the heat-seal plate is fixed with the cutting board, so that the heat-seal plate and the cutting board synchronously move.

Preferably, a waste material transferring device is further arranged on the rack and comprises a transferring plate, a second pressing assembly used for pressing the transferring plate downwards and a transferring assembly used for recycling the waste edge I on the transferring film, the transferring paper is arranged on the transferring assembly, and a supporting plate used for supporting the transferring paper is arranged below the transferring paper.

Through adopting above-mentioned technical scheme, the transfer board pushes down, makes transfer membrane and transfer paper butt in the backup pad, and the slitter edge on the transfer membrane is once breaking away from the transfer membrane and bonding on the transfer paper to make transfer membrane can reuse.

Preferably, the transfer assembly comprises a first rotating shaft, a second rotating shaft and a second rotating part for driving the second rotating shaft to rotate, the transfer paper is wound on the first rotating shaft, and the transfer paper is fixed with the second rotating shaft.

Through adopting above-mentioned technical scheme, the transfer paper is emitted on pivot two, and the pivot is emitted on one to make two even glues of slitter edge be absorbed in with paper.

Preferably, the slitter edge winding device comprises a slitter edge winding shaft rotationally arranged on the rack and a rotating part III used for driving the slitter edge winding shaft to rotate.

Through adopting above-mentioned technical scheme, rotate three drive slitter edge rolling axle rotations of piece to make slitter edge two take off from the base stock, and accomodate on slitter edge rolling axle.

Preferably, the raw material winding device comprises a raw material winding shaft rotatably arranged on the rack and a rotating part IV used for driving a raw material winding shaft rotating pipe.

Through adopting above-mentioned technical scheme, rotate the rotation piece and drive the rotation of raw materials rolling axle four times to make raw materials rolling axle rotate and accomodate the lapping with the base stock that has the label paper.

Drawings

FIG. 1 is a drawing of the background art

Fig. 2 is a schematic view of the overall structure of the processing device for self-adhesive label paper in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a cutting device, a heat sealing device, a raw material unwinding shaft, a raw material winding shaft, a film winding device and a waste edge winding device in a processing device for self-adhesive label paper according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a waste transfer device in a processing device for self-adhesive label paper in an embodiment of the application.

Fig. 5 is a schematic structural diagram of a blade and a lead in the processing device for self-adhesive label paper according to the embodiment of the present application.

FIG. 6 is a schematic structural diagram of a heat-sealing plate in the processing device of self-adhesive label paper in the embodiment of the present application.

Reference numerals: 00. base paper; 01. pasting a paper; 010. waste edge one; 011. waste edge two; 012. label paper; 1. a frame; 10. a first sliding rod; 11. a first connecting frame; 12. a first elastic part; 13. a second sliding rod; 14. a second elastic piece; 15. a tension roller; 2. a raw material unreeling shaft; 3. a raw material winding device; 30. a raw material winding shaft; 31. a rotating part IV; 40. a film unreeling shaft; 41. a film winding device; 410. a film take-up shaft; 411. a first rotating part; 42. transferring the film; 5. a cutting device; 50. a cutting assembly; 500. a cutting board; 501. cutting lines; 5010. an outer cutter; 5011. inner cutter; 51. pressing the first component; 510. a first cam; 511. a first driving part; 6. a heat seal device; 60. a heat-sealing plate; 61. a protrusion; 62. a heating member; 7. a waste transfer device; 70. a transfer plate; 700. a second connecting frame; 71. pressing the component II; 710. a second cam; 711. a driving part II; 72. a waste transfer assembly; 720. a first rotating shaft; 721. a second rotating shaft; 722. a second rotating part; 723. transferring paper; 8. a slitter edge winding device; 80. a slitter edge winding shaft; 81. and a third rotating part.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses processingequipment of non-setting adhesive label paper.

Referring to fig. 2 and 3, the processing device for the self-adhesive label paper comprises a frame 1, a raw material unwinding shaft 2 arranged on the frame 1, a raw material winding device 3, a film unwinding shaft 40, a film winding device 41, a cutting device 5, a heat sealing device 6, a waste material transfer device 7 and a waste edge winding device 8. The raw material paper unwinding device is used for unwinding the raw material paper, the cutting device 5 is used for separating the label paper 012 from the first waste edge 010 and the second waste edge 011, the film unwinding shaft 40 is used for unwinding the transfer film 42, and the heat sealing device 6 is used for heat sealing the first waste edge 010 with the transfer film 42, so that the first waste edge 010 is removed by the transfer film 42, and the first waste edge 010 is continuously removed. Referring to fig. 4, the scrap transferring device 7 is configured to remove the first slitter edge 010 from the transfer film 42, remove the transfer film 42 having the first slitter edge 010, and retract the transfer film 42 by the film winding device 41, so that the transfer film 42 can be reused. After the second slitter 011 is lifted from the raw material paper, the second slitter is collected by the slitter winding device 8, and the base paper 00 with the label paper 012 is collected by the raw material winding device 3.

Referring to fig. 2 and 3, the raw material unwinding shaft 2 is rotatably disposed on the frame 1, the raw material paper is wound on the raw material unwinding shaft 2, two tension rollers 15 are rotatably disposed on the frame 1, and one end of the raw material paper passes through the tension rollers 15, and then passes through the cutting device 5 and the heat sealing device 6.

Referring to fig. 3, the cutting device 5 includes a cutting assembly 50 and a first pressing assembly 51, wherein the first pressing assembly 51 is used for driving the cutting assembly 50 to move in a vertical direction. Referring to fig. 5, the cutting assembly 50 includes a cutting board 500 and a cutting line 501, the cutting board 500 is slidably connected to the frame 1 in the vertical direction, the cutting line 501 is configured as an outer cutter 5010 and an inner cutter 5011, the outer cutter 5010 and the inner cutter 5011 are both configured as circular blades, the centers of the outer cutter 5010 and the inner cutter 5011 coincide, the diameters of the outer cutter 5010 and the inner cutter 5011 are the same as the outer diameter of the label paper 012, and the diameter of the inner cutter 5011 is the same as the inner diameter of the label paper 012, when the raw paper passes under the cutting board 500, the cutting board 500 moves downward to cut the label paper 012 by a wire.

Referring to fig. 6, the heat sealing apparatus 6 includes a heat sealing plate 60, a plurality of protrusions 61 provided on a lower surface of the heat sealing plate 60, and a heating member 62 provided on the heat sealing plate 60, the heating member 62 being provided as a heating wire, the heating member 62 being embedded inside the heat sealing plate 60, and the heat sealing plate 60 being provided as a material capable of conducting heat, such as iron, stainless steel, etc. The protrusions 61 are arranged in a cylindrical shape, the protrusions 61 are arranged in multiple rows and multiple columns, the protrusions 61 correspond to the first slitter edge 010 at the center of the label paper 012 one by one, the transfer film 42 is arranged above the label paper 012, and the heat-sealing plate 60 moves downwards to enable the first slitter edge 010 to be adhered to the transfer film 42.

Referring to fig. 2, a first sliding rod 10 is arranged on the frame 1, a first connecting frame 11 is arranged on one side of the knife board 500 and the thermal sealing plate 60, the first sliding rod 10 penetrates through the first connecting frame 11, the first connecting frame 11 is slidably connected with the first sliding rod 10, a first elastic part 12 is arranged on the first sliding rod 10, the first elastic part 12 is arranged as a spring, the first elastic part 12 is sleeved on the first sliding rod 10, and two ends of the first elastic part 12 are respectively welded with the first connecting frame 11 and the frame 1. The first push-down assembly 51 comprises a first cam 510 and a first driving member 511, the first driving member 511 is provided as a motor, the first driving member 511 is fixed on the rack 1, the first cam 510 is fixed on an output shaft of the first driving member 511, the first cam 510 abuts against the first connecting frame 11, and the first driving member 511 drives the first cam 510 to rotate, so that the knife board 500 and the heat sealing board 60 can move up and down.

Referring to fig. 3, the film unwinding shaft 40 is rotatably disposed on the frame 1, the transfer film 42 is a plastic film, the transfer film 42 is wound on the film unwinding shaft 40, the film unwinding shaft 40 is disposed above the knife plate 500, the film winding device 41 includes a film winding shaft 410 and a rotating member 411, the rotating member 411 is a motor, a motor shaft of the rotating member 411 is coaxially fixed to the film winding shaft 410, one end of the transfer film 42 is fixed to the film winding shaft 410 after passing through a gap between the knife plate 500 and the heat-sealing plate 60, the rotating member 411 drives the film winding shaft 410 to rotate so as to accommodate the film, the waste edge 010 is bonded to the transfer film 42, and two tensioning rollers 15 are disposed below the heat-sealing plate 60 so as to keep the transfer film 42 in a tensioned state.

Referring to fig. 4, the waste material transferring device 7 includes a transferring plate 70, a second pushing assembly 71 and a waste material transferring assembly 72, a second connecting frame 700 is arranged at one end of the transferring plate 70, a second sliding rod 13 is arranged on the frame 1, the second sliding rod 13 is slidably connected with the second connecting frame 700, a second elastic member 14 is arranged on the second sliding rod 13, the second elastic member 14 is a spring, the second elastic member 14 is sleeved on the second sliding rod 13, one end of the second elastic member 14 is welded to the second connecting frame 700, and the bottom end of the second elastic member 14 is welded to the frame 1.

Referring to the figure, the waste material transferring assembly 72 includes a first rotating shaft 720, a second rotating shaft 721 and a second rotating member 722, the first rotating shaft 720 and the second rotating shaft 721 are rotatably connected with the frame 1, the second rotating member 722 is set as a motor, the second rotating member 722 is coaxially fixed with the second rotating shaft 721, the first rotating shaft 720 is wound with transfer paper, the first rotating shaft 720 is used for unwinding the transfer paper, the second rotating shaft 721 is used for winding the transfer paper 723, the second pressing assembly 71 is used for enabling the first waste edge 010 transfer film 42 to abut against the transfer paper 723, and one side of the first waste edge 010 with non-drying glue can be adhered to the transfer paper 723 so that the transfer film 42 can be reused.

Referring to fig. 4, the second pushing assembly 71 includes a second cam 710 and a second driving member 711, the second driving member 711 is provided as a motor, the second driving member 711 is fixed on the frame 1, the second cam 710 is fixed on an output shaft of the second driving member 711, the second cam 710 abuts against the second connecting frame 700, and the second driving member 711 drives the second cam 710 to rotate, so that the transfer plate 70 can move downward, and the transfer film 42 is pressed on the transfer paper 723.

Referring to fig. 3, the slitter edge rolling device 8 includes a slitter edge rolling shaft 80 and a third rotating member 81, the slitter edge rolling shaft 80 is rotatably disposed on the frame 1, the third rotating member 81 is disposed as a motor, an output shaft of the third rotating member 81 is coaxially fixed to the slitter edge rolling shaft 80, and the third rotating member 81 drives the slitter edge rolling shaft 80 to rotate, so that the continuous slitter edge two 011 is wound on the slitter edge rolling shaft 80.

Referring to fig. 3, the raw material winding device 3 includes a raw material winding shaft 30 and a rotating member four 31, the raw material winding shaft 30 is rotatably disposed on the frame 1, the rotating member four 31 is provided as a motor, an output shaft of the rotating member four 31 is coaxially fixed with the raw material winding shaft 30, and the rotating member four 31 drives the raw material winding shaft 30 to rotate, so that the base paper 00 with the label paper 012 is wound on the raw material winding shaft 30.

The implementation principle of the processing device for the adhesive label paper in the embodiment of the application is as follows: the raw material paper is cut by the cutting device 5 and then cut off among the label paper 012, the first slitter edge 010 and the second slitter edge 011, at the moment, the label paper 012, the first slitter edge 010 and the second slitter edge 011 are all kept bonded on the base paper 00, the transfer film 42 sticker 01 passes above the heat sealing device 6, the first slitter edge 010 is bonded with the transfer film 42, the first slitter edge 010 is removed, the second slitter edge 011 is stored in the waste edge winding shaft 80 in a rotating mode, the base paper 00 with the label paper 012 is stored in the raw material winding shaft 30 in a rotating mode, and the second slitter edge 011 is removed.

The embodiment of the application discloses processing technology of self-adhesive label paper, has used the processingequipment of above-mentioned self-adhesive label paper, include that following processing step is:

the raw paper is cut, and the raw paper passes through the cutting device 5, and the label paper 012, the first slitter 010, and the second slitter 011 are cut off, and the label paper 012, the first slitter 010, and the second slitter 011 are all kept adhered to the base paper 00.

And removing the waste edge 010 to enable the waste edge 010 to be thermally sealed with the transfer film 42, and adhering the side, which is far away from the adhesive sticker, of the waste edge 010 to the transfer film 42.

After the first slitter edge 010 is adhered to the transfer film 42, the transfer plate 70 presses down to adhere the non-setting adhesive side of the first slitter edge 010 to the transfer paper 723, and the first slitter edge 010 is separated from the transfer film 42.

And removing the second waste edge 011, rotating and winding the second waste edge 011 on the waste edge winding shaft 80, and rotating and winding the base paper 00 with the label paper 012 on the raw material winding shaft 30, so that the second waste edge 011 is peeled off from the base paper 00 and is stored on the waste edge winding device 8.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The processing technology of the self-adhesive label paper is characterized by comprising the following steps of: the method comprises the following steps:

cutting the raw paper to cut off the label paper (012), the first slitter edge (010) and the second slitter edge (011), wherein the label paper (012), the first slitter edge (010) and the second slitter edge (011) are all adhered to the base paper (00);

the transfer film (42) is used for being thermally sealed with the first waste edge (010), one side, away from the non-setting adhesive, of the first waste edge (010) is bonded with the transfer film (42), and the transfer film (42) is uncovered to continuously remove the first waste edge (010);

removing a first slitter edge (010) on the transfer film (42) from the transfer film (42) by using transfer paper (723), wherein the side, provided with adhesive sticker, of the first slitter edge (010) is adhered to the transfer paper (723);

the processing technology of the self-adhesive label paper is carried out by using a processing device, the processing device comprises a rack (1), a raw material unwinding shaft (2) used for enabling the raw material paper to be unwound, a film unwinding shaft (40) wound with a transfer film (42), a cutting device (5) used for cutting the raw material paper, a heat sealing device (6) used for enabling a first waste edge (010) to be bonded with the transfer film (42), a second waste edge winding device (8) used for rejecting a second waste edge (011), and a raw material winding device (3) used for accommodating and rejecting the first waste edge (010) and the second waste edge (011), wherein the raw material unwinding shaft (2) and the film unwinding shaft (40) are rotatably connected with the rack (1);

the machine frame (1) is further provided with a waste material transfer device (7), the waste material transfer device (7) comprises a transfer plate (70), a second pressing component (71) used for pressing down the transfer plate (70) and a waste material transfer component (72) used for recycling the waste edge I (010) on the transfer film (42), and the transfer paper (723) is arranged on the waste material transfer component (72).

2. The processing technology of the self-adhesive label paper as claimed in claim 1, which is characterized in that: cutting device (5) are including cutting assembly (50) and be used for making the push down subassembly (51) of cutting assembly (50) lapse of downward movement cutting, cutting assembly (50) include cutting board (500) and fix tool line (501) on cutting board (500), cutting board (500) and frame (1) sliding connection, be provided with the elastic component (12) that are used for making cutting board (500) reset on frame (1), tool line (501) are including outer sword (5010) that are used for separating slitter edge two (011) and label paper (012) and interior sword (5011) that is used for separating slitter edge one (010) and label paper (012).

3. The processing technology of the self-adhesive label paper as claimed in claim 2, characterized in that: the outer cutter (5010) and the inner cutter (5011) are both circular blades.

4. The processing technology of the self-adhesive label paper according to claim 2, characterized in that: heat sealing device (6) include heat seal board (60), set up protruding (61) on heat seal board (60) and carry out heating member (62) that heats to protruding (61), protruding (61) correspond with slitter edge (010), heat seal board (60) and frame (1) sliding connection, heat seal board (60) are fixed with cutting board (500).

5. The processing technology of the self-adhesive label paper as claimed in claim 1, which is characterized in that: the waste material transferring assembly (72) comprises a first rotating shaft (720), a second rotating shaft (721) and a second rotating member (722) for driving the second rotating shaft (721) to rotate, the transferring paper (723) is wound on the first rotating shaft (720), and the transferring paper (723) is fixed with the second rotating shaft (721).

6. The processing technology of the self-adhesive label paper as claimed in claim 1, characterized in that: the slitter edge winding device (8) comprises a slitter edge winding shaft (80) rotatably arranged on the rack (1) and a rotating part III (81) used for driving the slitter edge winding shaft (80) to rotate.

7. The processing technology of the self-adhesive label paper as claimed in claim 1, which is characterized in that: the raw material winding device (3) comprises a raw material winding shaft (30) rotatably arranged on the rack (1) and a rotating part IV (31) used for driving a rotating pipe of the raw material winding shaft (30).