CN216862099U - Online printing and labeling integrated machine - Google Patents

Abstract

The utility model relates to the technical field of labeling machines, in particular to an on-line printing and labeling all-in-one machine, wherein a discharging station comprises a plurality of bottom paper discharging rollers and surface paper discharging rollers, and a plurality of bottom paper conveying rollers for conveying bottom paper and surface paper conveying rollers for conveying surface paper are arranged on a rack; a printing station, a labeling station and a die cutting station are sequentially arranged on the frame along the conveying direction of the base paper; at least two facial tissue conveying rollers are positioned between the labeling station and the die cutting station, wherein the at least two facial tissue conveying rollers are positioned between the bottom tissue discharging roller and the printing station; the method can be realized by the labeling machine, so that the functionality of the labeling machine is greatly improved, the surface paper and the bottom paper are not required to be compounded by adopting extra compounding equipment, the processing cost is reduced, and the processing process steps are reduced.

Description

Online printing and labeling integrated machine

Technical Field

The utility model relates to the technical field of labeling machines, in particular to an on-line printing and labeling all-in-one machine.

Background

The self-adhesive label is not needed to be brushed with glue or pasted with paste when being pasted, is not needed to be dipped in water, basically has no pollution, saves the labeling time, and is convenient and quick to apply to various occasions. The self-adhesive label is also called self-adhesive label, instant adhesive label, etc. and is a composite material with paper, film or special material as surface material, back coated with adhesive to form back adhesive layer and silicon coated protecting paper as base paper, and through printing, die cutting and other steps, the label is produced.

The existing product is generally required to be printed with marks such as designated characters or patterns before being labeled, and then labeled at the relative position of the marks. However, the existing printing and labeling are respectively carried out on two independent devices, coiled products are printed by a printer and then conveyed to a labeling machine for labeling, so that the problems of large occupied space of the devices, high cost and inconvenient processing exist, and the devices of the products need to be repositioned during conversion, so that the problems of inaccurate positioning and low labeling position precision are easily caused. Moreover, most of the existing labeling machines can only print and label single-layer base paper, and when the base paper is required to be labeled according to the requirement of paper, the base paper and the facial paper which are different from each other need to be compounded in advance to be printed and labeled.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an on-line printing and labeling all-in-one machine aiming at the defects in the prior art.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

an on-line printing and labeling integrated machine comprises a rack, wherein a discharging station is arranged on the rack and comprises a plurality of bottom paper discharging rollers and surface paper discharging rollers, and a plurality of bottom paper conveying rollers for conveying bottom paper and surface paper conveying rollers for conveying surface paper are arranged on the rack; a printing station, a labeling station and a die cutting station are sequentially arranged on the frame along the conveying direction of the base paper; wherein the at least two facial tissue conveying rollers are positioned between the labeling station and the die cutting station, and the at least two facial tissue conveying rollers are positioned between the bottom paper discharging roller and the printing station.

Further: an antenna discharging roller is arranged on one side of the labeling station, a plurality of antenna conveying rollers are arranged between the antenna discharging roller and the labeling station, and one of the antenna conveying rollers is located on one side of an inlet of the labeling station.

Further: still be provided with the facial tissue in the frame and receive the waste roller, the entrance one side that the waste roller was located the cross cutting station is received to the facial tissue, and facial tissue is received waste roller one side and is provided with the facial tissue separation roller with facial tissue conveying roller complex.

Further: the facial tissue conveying roller on one side of the inlet of the labeling station is a first facial tissue conveying roller, and the first facial tissue conveying rollers are arranged between the outlet of the facial tissue separating roller and the inlet of the die cutting station at intervals.

Further: the facial tissue conveying roller on one side of the inlet of the printing station is a second facial tissue conveying roller, and the second facial tissue conveying rollers are arranged at intervals from the outlet of the facial tissue separating roller to the inlet of the printing station.

And further: the number of second face paper conveying roller is more than five, and one of them second face paper conveying roller is located the exit of dividing the face paper separation roller, and second face paper conveying roller still arranges respectively in the entrance of frame top, frame upper right corner, frame lower right corner and printing station.

Further: the machine frame is also provided with a material receiving station positioned on one side of the die cutting station, the material receiving station comprises a material receiving conveying belt arranged along the outlet of the die cutting station, and a plurality of labeling material receiving rollers are respectively arranged on the upper side and the lower side of the material receiving conveying belt.

Further: the printing station and the labeling station are also provided with a UV curing station, a bottom paper waste collecting station positioned on one side of the UV curing station is arranged between the printing station and the labeling station, and the bottom paper waste collecting station comprises a bottom paper separating roller arranged at an outlet of the UV curing station and a bottom paper collecting roller arranged on one side of the bottom paper separating roller.

The utility model has the beneficial effects that: the on-line printing and labeling integrated machine integrates printing and labeling, can successively realize printing and labeling on the same equipment, does not need to transfer products for multiple times, and is convenient and efficient to process and high in labeling position precision. Further, can only process the body paper according to the demand, also can get into before the printing station with the facial tissue complex at the body paper, still can come out the back at the subsides mark station at the body paper and compound before getting into the cross cutting station with the facial tissue, above process all can be realized at this labeller to improve the functionality of labeller greatly, need not to adopt extra compound equipment to compound facial tissue and body paper to different process demands, reduced the processing cost, reduced the processing technology step.

Drawings

Fig. 1 is a schematic structural diagram of a labeling machine.

Fig. 2 is a partially enlarged schematic view of one of the structures in fig. 1.

Fig. 3 is another enlarged partial schematic view of fig. 1.

The reference numerals include:

1-a machine frame,

10-base paper, 101-release paper,

11-bottom paper feeding roller, 12-bottom paper conveying roller, 13-bottom paper waste collecting station, 14-bottom paper collecting roller,

15-a base paper separating roller,

2-printing station,

21-UV curing station, 22-labeling station, 23-antenna discharging roller, 24-antenna conveying roller,

25-die cutting station,

3-a facial tissue discharge roller,

30-face paper, 301-protective film,

31-a first face paper conveying roller, 32-a second face paper conveying roller, 33-a face paper separating roller,

34-a surface paper waste collecting roller, 4-a material collecting station, 41-a material collecting conveyer belt and 42-a labeling material collecting roller.

Detailed Description

The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1-3, an on-line printing and labeling all-in-one machine comprises a frame 1, wherein a discharging station is arranged on the frame 1, the discharging station comprises a plurality of bottom paper discharging rollers 11 and surface paper discharging rollers 3, and a plurality of bottom paper conveying rollers 12 for conveying bottom paper 10 and surface paper conveying rollers for conveying surface paper 30 are arranged on the frame 1; the frame 1 is provided with a printing station 2, a labeling station 22 and a die cutting station 25 in sequence along the conveying direction of the base paper 10; at least two facial tissue conveying rollers are positioned between the labeling station 22 and the die cutting station 25, and at least two facial tissue conveying rollers are positioned between the bottom paper discharging roller 11 and the printing station 2.

The facial tissue 30 can be wound and arranged on the facial tissue discharging roller 3 at a specified position according to requirements, the bottom tissue 10 is wound and arranged on the bottom tissue discharging roller 11 at a specified position, and the bottom tissue 10 is subjected to labeling process along the printing station 2, the labeling station 22 and the die cutting station 25 respectively; if the surface paper 30 needs to be combined with the bottom paper 10 before printing, the surface paper 30 wound on the surface paper discharging roller 3 can be conveyed around the surface paper conveying roller between the bottom paper discharging roller 11 and the printing station 2, so that the surface paper 30 and the bottom paper 10 can be wound and combined before entering the printing station 2, and then enter the printing station 2 after combination.

If the labeled bottom paper 10 and the labeled surface paper 30 need to be compounded, the surface paper 30 wound on the surface paper discharging roller 3 can be conveyed around the surface paper conveying roller between the bottom paper discharging roller 11 and the die cutting station 25, so that the labeled bottom paper 10 can be compounded with the surface paper 30, and the labeled bottom paper 10 can be protected by the surface paper 30 and then enters the die cutting station 25 for forming.

The on-line printing and labeling integrated machine can only process the bottom paper 10 according to requirements, can also be compounded with the surface paper 30 before the bottom paper 10 enters the printing station 2, and can also be compounded with the surface paper 30 before the bottom paper 10 enters the die cutting station 25 after coming out of the labeling station 22.

An antenna discharging roller 23 is arranged on one side of the labeling station 22, a plurality of antenna conveying rollers 24 are arranged between the antenna discharging roller 23 and the labeling station 22, one of the antenna conveying rollers 24 is located on one side of an inlet of the labeling station 22, the labeling station 22 is matched with a wound antenna, the antenna discharging roller 23 is wound and installed on the antenna discharging roller 23, the antenna enters the labeling station 22 along the plurality of antenna conveying rollers 24, the labeling station 22 cuts the antenna into a section, and then the antenna is attached to the passing base paper 10 in a covering mode to complete a labeling process.

The other antenna conveying roller 24 is positioned at the inlet of the die cutting station 25, and the antenna is directly attached to the base paper 10 without labeling and enters the die cutting station 25 for molding, so that the labeling step is omitted.

Labeling station 22 is conventional, and the detailed labeling principle and the related mechanical structure of labeling station 22 are not described herein.

A UV curing station 21 is arranged between the printing station 2 and the labeling station 22, the printing station 2 prints characters on the top surface of the base paper 10, and then the printed ink is cured through the UV curing station 21 to prevent deinking.

A layer of release paper 101 is adhered to the adhesive surface of the bottom surface of some base papers 10, and in order to separate the release paper 101 from the base papers 10; a base paper waste receiving station 13 positioned on one side of the UV curing station 21 is arranged between the printing station 2 and the labeling station 22, and the base paper waste receiving station 13 comprises a base paper separating roller 15 arranged at the outlet of the UV curing station 21 and a base paper collecting roller 14 arranged on one side of the base paper separating roller 15; the solidified base paper 10 enters the base paper separation roller 15, the base paper 10 obliquely and upwards enters the labeling station 22 after passing through an outlet of the base paper separation roller 15, when the base paper 10 enters the labeling station 22, the adhesive surface of the base paper 10 is attached to an antenna to perform a labeling process, and the release paper 101 obliquely and downwards winds onto the base paper receiving roller 14 after passing through an outlet of the base paper separation roller 15, so that the base paper 10 is separated and waste is received.

The protective film 301 is covered on the adhesive surface of some facial tissues 30, in order to facilitate the separation of the protective film 301 from the facial tissues 30, a facial tissue waste receiving roller 34 is further arranged on the frame 1, the facial tissue waste receiving roller 34 is positioned at the inlet side of the die cutting station 25, a facial tissue separating roller 33 matched with the facial tissue conveying rollers is arranged at one side of the facial tissue waste receiving roller 34, after the facial tissues 30 pass through the facial tissue separating roller 33, the facial tissues 30 with the adhesive surface are compounded with the bottom tissues 10 before the die cutting station 25 or compounded with the facial tissues 30 before the printing station 2 along the facial tissue conveying rollers, and the protective film 301 is wound on the facial tissue waste receiving roller 34 for waste collection.

The first specific embodiment is as follows: the facial tissue conveying roller on the side of the inlet of the labeling station 22 is a first facial tissue conveying roller 31, and a plurality of first facial tissue conveying rollers 31 are arranged between the outlet of the facial tissue separating roller 33 and the inlet of the die cutting station 25 at intervals. The labeled bottom paper 10 and the labeled surface paper 30 need to be compounded, the bottom paper 10 wound on the surface paper discharging roller 3 enters the first surface paper conveying roller 31 after passing through the surface paper separating roller 33, and is attached to the bottom paper 10 coming out of the labeling station 22 along the surface paper conveying roller, so that the labeled bottom paper 10 can be compounded with the surface paper 30, and the labeled bottom paper 10 can be protected by the surface paper 30 in an attaching mode and then enters the die-cutting station 25 for forming.

Specific example two: the face paper feed roller on the side of the entrance of the printing station 2 is a second face paper feed roller 32, and a plurality of second face paper feed rollers 32 are arranged at intervals along the exit of the face paper separation roller 33 to the entrance of the printing station 2. The surface paper 30 needs to be compounded with the base paper 10 before printing, the surface paper can be wound on the surface paper discharging roller 3 and enters the second surface paper conveying roller 32 after passing through the surface paper separating roller 33, the surface paper is conveyed to an inlet of the printing station 2 along the second surface paper conveying roller 32, the glue surface of the surface paper is attached to the top surface of the base paper 10 needing to be printed, the base paper 10 can be compounded with the surface paper, the base paper 10 after compounding and the surface paper enter the printing station 2 upwards, the printing station 2 prints characters on the surface of the surface paper, and diversified processing and labeling are achieved.

Preferably, the tissue discharge roll 3 is located in the upper right hand corner of the frame 1, and is therefore located a greater distance from the printing station 2, in order to ensure that the face paper can be stably combined with the base paper 10, the number of the second face paper conveying rollers 32 is five or more, one of the second facial tissue conveying rollers 32 is positioned at an outlet of the facial tissue separating roller 33, the second facial tissue conveying rollers 32 are also respectively arranged at the top of the frame 1, the upper right corner of the frame 1, the lower right corner of the frame 1 and an inlet of the printing station 2, a plurality of second facial tissue conveying rollers 32 are arranged on the frame 1 by bypassing the mechanical mechanism without influencing the normal operation of other stations, the facial tissues after separation are arranged around the top, the upper right corner, the right side and the lower right corner of the frame 1, and the bottom paper is intersected with a bottom paper conveying roller 12 at the inlet of the printing station 2, and the bottom paper 10 and the surface paper are attached to form composite paper which enters the printing station 2 for printing processing.

Further, still be provided with the receipts material station 4 that is located cross cutting station 25 one side on the frame 1, receive material station 4 including the receipts conveyer belt 41 of arranging along cross cutting station 25 exit, receive both sides and have arranged a plurality of subsides mark respectively about the conveyer belt 41 and receive material roller 42, can be as required, receive the material along receiving material conveyer belt 41 after the cross cutting shaping, also can convolute on receiving the subsides mark of conveyer belt 41 top and receiving material roller 42, still can convolute on the subsides mark of receiving material conveyer belt 41 below receives material roller 42, improve multiple choice, the variety of processing has been improved.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the performance of the prior art and has practicability, and becomes a product with practical value.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (8)

1. The utility model provides a mark all-in-one is pasted in online printing, includes the frame, installs the blowing station in the frame, its characterized in that: the discharging station comprises a plurality of bottom paper discharging rollers and surface paper discharging rollers, and a plurality of bottom paper conveying rollers for conveying bottom paper and surface paper conveying rollers for conveying surface paper are arranged on the rack; a printing station, a labeling station and a die cutting station are sequentially arranged on the frame along the conveying direction of the base paper; wherein the at least two facial tissue conveying rollers are positioned between the labeling station and the die cutting station, and the at least two facial tissue conveying rollers are positioned between the bottom paper discharging roller and the printing station.

2. The on-line printing and labeling all-in-one machine as claimed in claim 1, wherein: an antenna discharging roller is arranged on one side of the labeling station, a plurality of antenna conveying rollers are arranged between the antenna discharging roller and the labeling station, and one of the antenna conveying rollers is located on one side of an inlet of the labeling station.

3. The on-line printing and labeling all-in-one machine as claimed in claim 1, wherein: still be provided with the facial tissue on the frame and receive the waste roller, the entrance one side that the waste roller was located the cross cutting station is received to the facial tissue, and facial tissue is received waste roller one side and is provided with the facial tissue separation roller with facial tissue conveying roller complex.

4. The on-line printing and labeling all-in-one machine as claimed in claim 3, wherein: the facial tissue conveying rollers on one side of the inlet of the labeling station are first facial tissue conveying rollers, and the first facial tissue conveying rollers are arranged between the outlet of the facial tissue separating roller and the inlet of the die cutting station at intervals.

5. The on-line printing and labeling all-in-one machine as claimed in claim 4, wherein: the facial tissue conveying roller on one side of the inlet of the printing station is a second facial tissue conveying roller, and the second facial tissue conveying rollers are arranged at intervals from the outlet of the facial tissue separating roller to the inlet of the printing station.

6. The on-line printing and labeling all-in-one machine as claimed in claim 5, wherein: the number of the second facial tissue conveying rollers is more than five, one of the second facial tissue conveying rollers is located at an outlet of the facial tissue separating roller, and the second facial tissue conveying rollers are further respectively arranged at the top of the rack, the upper right corner of the rack, the lower right corner of the rack and inlets of printing stations.

7. The on-line printing and labeling all-in-one machine as claimed in claim 1, wherein: the machine frame is also provided with a material receiving station positioned on one side of the die cutting station, the material receiving station comprises a material receiving conveying belt arranged along the outlet of the die cutting station, and a plurality of labeling material receiving rollers are respectively arranged on the upper side and the lower side of the material receiving conveying belt.

8. The on-line printing and labeling all-in-one machine as claimed in claim 1, wherein: the printing station and the labeling station are also provided with a UV curing station, a base paper waste collecting station located on one side of the UV curing station is arranged between the printing station and the labeling station, and the base paper waste collecting station comprises a base paper separating roller arranged at an outlet of the UV curing station and a base paper collecting roller arranged on one side of the base paper separating roller.

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