CN115991326A

CN115991326A - Multi-column labeling equipment and labeling method

Info

Publication number: CN115991326A
Application number: CN202310122419.3A
Authority: CN
Inventors: 邓伟雄; 李茂阳; 黎理明; 杨林
Original assignee: Shenzhen Yuanmingjie Technology Co ltd
Current assignee: Shenzhen Yuanmingjie Technology Co ltd
Priority date: 2023-02-07
Filing date: 2023-02-07
Publication date: 2023-04-21
Also published as: WO2024164477A1

Abstract

The invention discloses multi-row labeling equipment and a labeling method, wherein the multi-row labeling equipment comprises an operation table, a plurality of groups of unreeling components, a roll feeding component, a tractor, a labeling component and a waste collecting tractor, wherein the plurality of groups of unreeling components are distributed in a staggered manner, label tapes are wound on the outer wall of each group of unreeling components, and the moving paths of the plurality of label tapes are parallel; the outer wall of the roll feeding assembly is wound with a bottom paper tape; the tractor is connected with the roll feeding assembly through a bottom paper tape; the labeling assembly is provided with a first closing shaft and a processing station, the outer wall of the first closing shaft is in rolling connection with the plurality of label strips so that the plurality of label strips are positioned on the same plane, and the first closing shaft is used for guiding the plurality of label strips to the processing station; the first axle that closes can merge the many label area that the multiunit unreels the subassembly and carry, and makes many label area be located the coplanar to be convenient for paste the mark subassembly and once only laminate a plurality of labels simultaneously on the backing paper tape and realize that many are listed as unification and paste the mark, and accomodate in unison the protection film after pasting the mark, improve the success rate of labeling of many row unification.

Description

Multi-column labeling equipment and labeling method

Technical Field

The invention relates to the technical field of product labeling, in particular to multi-column labeling equipment and a labeling method.

Background

The traditional labeler is fixed on the plane of the machine case, only one labeling head is used for labeling, the labeling can not be carried out in a compound mode, the function is relatively single, and a plurality of labeling heads are needed for labeling in a compound mode. If a plurality of labeling heads are arranged on the plane of the case, each labeling head can not label at the same time, and the operation adjustment is frequent, so that the labeling precision error is large and the rejection rate is high; at present, the vacuum drum type compound labeling machine is adopted for compound labeling, but the compound labeling machine is high in price and use cost, and common merchants can only adopt outsourcing processing, so that the cost of enterprises is increased, and the development of the enterprises is restricted.

Disclosure of Invention

The invention mainly aims to provide a multi-column labeling device, which aims to realize labeling by integrating multiple columns, uniformly store labeled protection films and improve the success rate of labeling by integrating multiple columns.

The invention further aims to provide a labeling method, which aims to realize adjustment of the tension degree of a plurality of protective films, so that the label tape is in a tension state after labeling or labeling, and the operation smoothness of multi-row labeling equipment is improved.

In order to achieve the above object, the present invention provides a multi-column labeling apparatus, comprising:

a working table, a working table and a working table,

the plurality of groups of unreeling components are positioned on one side of the workbench, and the plurality of groups of unreeling components are distributed in a staggered manner in the direction perpendicular to the side surface of the workbench; the outer wall of each group of unreeling assemblies is used for winding the label tape, and part of moving paths of the label tapes are mutually parallel; each set of the label tapes comprises a label and a protective film, the label being attached to the protective film;

the outer wall of the roll feeding assembly is used for winding the bottom paper tape;

the tractor is connected with the roll feeding assembly through the base paper tape;

the unreeling assembly, the reeling assembly, the tractor and the labeling assembly are all arranged on the side wall of the workbench; the labeling assembly is provided with a first closing shaft and a processing station, the outer wall of the first closing shaft is in rolling connection with a plurality of label strips, and the first closing shaft is used for guiding the plurality of label strips to the processing station;

the waste collection tractor is connected with the unreeling assembly through the protective film and is used for accommodating a plurality of protective films;

the tractor is used for rotating so as to enable the base paper tape to pass through the processing position; the labeling assembly is used for attaching the label to the base paper tape so as to separate the label from the protective film and form a finished paper tape.

Preferably, the waste collection tractor comprises a collection traction assembly and at least one group of adjusting assemblies, the unreeling assembly is connected with one end of the adjusting assemblies through the protective film, the other end of the adjusting assemblies is connected with the collection traction assembly through the protective film, and the number of the adjusting assemblies corresponds to the number of the unreeling assemblies; the adjusting component is used for adjusting the tension of the protective film, and the storage traction component is used for rotating so that the protective film is wound on the outer wall of the storage traction component.

Preferably, the waste collection tractor is provided with a support frame, one end of the support frame is installed on the labeling assembly, one end of the support frame is provided with a feed inlet, and the other end of the support frame is provided with a discharge outlet; the support frame is internally provided with a plurality of groups of adjusting components, the plurality of groups of adjusting components are arranged in parallel, the plurality of groups of adjusting components are used for collecting a plurality of protective films of the feed inlet, and the protective films are conveyed to the discharge outlet to be discharged.

Preferably, the support frame comprises two side plates, and the two side plates are arranged in parallel; the adjusting assembly comprises a first motor, a rotating shaft, a main pressing roller and an auxiliary pressing roller, wherein an output shaft of the first motor penetrates through one of the side plates to be connected with the rotating shaft, the two side plates are respectively provided with shaft holes, two ends of the rotating shaft are respectively positioned in the shaft holes of the two side plates, the main pressing roller is sleeved on the outer wall of the rotating shaft, and two ends of the auxiliary pressing roller are respectively arranged on the two side plates;

the main press roller and the auxiliary press roller are oppositely arranged, the main press roller is parallel to the auxiliary press roller, a gap for the protective film to pass through is arranged between the main press roller and the auxiliary press roller, the protective film is respectively attached to the main press roller and the auxiliary press roller, and the first motor is used for driving the rotating shaft to rotate so that the tension of the protective film can be adjusted by the main press roller;

the adjusting component is further provided with a driving panel, the driving panel is electrically connected with the first motor, the driving panel is provided with a plurality of gears, and the gears are used for adjusting the rotating speed of the first motor.

Preferably, the support frame is close to the one end of subsides mark subassembly is equipped with the second and closes the axle, the discharge gate is equipped with the third and closes the axle, the second close the axle with the third closes the axle and all installs in two between the curb plate, just the second closes the axle or the third closes the both ends of axle respectively with two the curb plate rotates to be connected, the second closes the axle and is used for guiding the many of feed inlet the protection film, the third closes the axle and is used for guiding the many of discharge gate the protection film.

Preferably, the labeling assembly comprises a first press roller and a second press roller, wherein the first press roller and the second press roller are both arranged on one side plate, and one end of each of the first press roller and the second press roller is rotationally connected with one side plate;

a gap for the bottom paper tape or the label tape to pass through is arranged between the first press roll and the second press roll, the first press roll is in rolling connection with the bottom paper tape, and the second press roll is in rolling connection with the label tape; the label tape having a path of travel on the processing station away from the base tape; and/or the base tape has a path of movement away from the label tape at the processing station; the second press roller is used for enabling the label tape to be in contact with the base paper tape so as to enable the label to be pressed on the base paper tape.

Preferably, the unreeling assembly comprises an unreeling disc and a first guide shaft, the unreeling disc and the first guide shaft are both installed on the side wall of the operation table, the unreeling disc is used for winding the label tape, the unreeling disc is connected with the first guide shaft through the label tape, and the first guide shaft is used for guiding the output direction of the label tape.

Preferably, the side wall of the workbench is also provided with a braiding corrector and a positioning electric eye, the label belt is respectively connected with the braiding corrector and the positioning electric eye in a sliding way, and the positioning electric eye is respectively connected with the driving panel and the braiding corrector electrically; the positioning electric eye is used for sensing the label position of the label tape, and the positioning electric eye is used for sending sensing information to the driving panel so that the driving panel can adjust the tension of a plurality of protective films; the positioning electric eye is used for driving the entanglement unit so that the entanglement unit corrects the transverse position of the label tape.

Preferably, the multi-column labeling device further comprises a finished product winding component, the winding component is mounted on the side wall of the operation table, the finished product winding component is provided with a second motor and a winding shaft, the winding shaft is connected with an output shaft of the second motor, and the second motor is used for driving the winding shaft to rotate so that the winding shaft can store the finished product paper tape.

The invention also provides a labeling method, which comprises the following steps:

step one: starting the multi-row labeling equipment, and conveying the label belt and the backing paper belt towards the processing position;

step two: carrying out correction and positioning on the label tapes, and adjusting the tension of a plurality of label tapes;

step three: the moving path of the label tape and the moving path of the base tape are intersected at the processing station; and labeling the bottom paper tape, and storing the finished paper tape and the protective film.

According to the technical scheme, a plurality of groups of unreeling components are all positioned on one side of the workbench, and the plurality of groups of unreeling components are distributed in a staggered manner in the direction perpendicular to the side surface of the workbench; the outer wall of each group of unreeling assembly is wound with a label tape, and part of moving paths of the label tapes are mutually parallel; the label tape includes a label and a protective film, the label being attached to the protective film; the outer wall of the roll feeding assembly is wound with a bottom paper tape; the tractor is connected with the roll feeding assembly through the backing paper tape; the unreeling assembly, the reeling assembly, the tractor and the labeling assembly are all arranged on the side wall of the workbench; the labeling assembly is provided with a first closing shaft and a processing position, the outer wall of the first closing shaft is in rolling connection with a plurality of label tapes so that the label tapes are positioned on the same plane, and the first closing shaft is used for guiding the label tapes to the processing position; the waste collection tractor is connected with the unreeling assembly through the protective film and is used for accommodating a plurality of protective films; the tractor is used for rotating so as to enable the base paper tape to pass through the processing position; the labeling assembly is used for attaching the label to the base paper tape so as to separate the label from the protective film and form a finished paper tape. Because the plurality of groups of unreeling components are distributed in a staggered way and the moving paths of the plurality of label tapes are parallel, the mutual independence of the plurality of label tapes in the transportation process is realized, and the interference phenomenon is avoided; the first closing shaft can combine a plurality of label strips conveyed by the plurality of groups of unreeling components, the label strips are positioned on the same plane, and meanwhile, the labels of the label strips are positioned on the processing station, so that the labeling component can simultaneously laminate the labels on the base paper strip at one time; the bottom paper tape is pulled by the tractor, and the protective film is pulled by the waste collection tractor, so that after the labeling component finishes labeling, the finished paper tape and the protective film are respectively pulled out, and the protective film and the finished paper tape are respectively contained or collected; the multi-column integrated labeling is realized, the labeled protective films are uniformly stored, and the success rate of the multi-column integrated labeling is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of an embodiment of a multi-column labeling apparatus according to the present invention.

Fig. 2 is an enlarged view of a portion of an embodiment of the multi-column labeling apparatus of the present invention.

FIG. 3 is a side view of the adjustment assembly and the labeling assembly of one embodiment of the multi-column labeling apparatus of the present invention.

Fig. 4 is a schematic view of an adjusting assembly in an embodiment of the multi-column labeling apparatus of the present invention.

Fig. 5 is a schematic diagram of a second adjusting component in an embodiment of the multi-column labeling apparatus of the present invention.

Fig. 6 is an enlarged view of a portion of the adjustment assembly of one embodiment of the multi-column labeling apparatus of the present invention.

Fig. 7 is a schematic view of a label tape in an embodiment of the multi-column labeling apparatus of the present invention.

Fig. 8 is a flow chart of the labeling method of the present invention.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, if a directional indication (such as up, down, left, right, front, and rear … …) is involved in the embodiment of the present invention, the directional indication is merely used to explain the relative positional relationship, movement condition, etc. between the components in a specific posture, and if the specific posture is changed, the directional indication is correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, if "and/or" and/or "are used throughout, the meaning includes three parallel schemes, for example," a and/or B "including a scheme, or B scheme, or a scheme where a and B are satisfied simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The invention provides a multi-column labeling device and a labeling method. Referring to fig. 1 to 8, in a first embodiment of the present invention, the multi-column labeling apparatus 100 includes:

the working table 1 is provided with a plurality of working tables,

a plurality of groups of unreeling components 2, wherein a plurality of groups of unreeling components 2 are positioned on one side of the workbench 1, and a plurality of groups of unreeling components 2 are staggered and distributed in a direction perpendicular to the side surface of the workbench 1; the outer wall of each group of unreeling assemblies 2 is wound with a label tape 21, and part of moving paths of the label tapes 21 are mutually parallel; the tag tape 21 includes a tag 212 and a protective film 211, the tag 212 being attached to the protective film 211;

a roll feeding assembly 5, wherein a bottom paper tape 51 is wound on the outer wall of the roll feeding assembly 5;

a retractor 6, wherein the retractor 6 is connected with the roll feeding assembly 5 through the backing paper tape 51;

the label pasting component 3, the unreeling component 2, the reeling component 5, the tractor 6 and the label pasting component 3 are all arranged on the side wall of the workbench 1; the labeling assembly 3 is provided with a first closing shaft 31 and a processing position 32, the outer wall of the first closing shaft 31 is in rolling connection with the plurality of label tapes 21 so that the plurality of label tapes 21 are positioned on the same plane, and the first closing shaft 31 is used for guiding the plurality of label tapes 21 to the processing position 32;

a waste collection retractor 4, wherein the waste collection retractor 4 is connected with the unreeling assembly 2 through the protective film 211, and the waste collection retractor 4 is used for accommodating a plurality of protective films 211;

the tractor 6 is used for rotating so as to enable the base paper tape 51 to pass through the processing position 32; the labeling assembly 3 is used for attaching the label 21 to the backing paper tape 51 so as to separate the label 212 from the protective film 211 and form a finished paper tape 71.

In the present embodiment, the principle of use of the multi-column labeling apparatus 100 is as follows: the plurality of label strips 21 are conveyed by the plurality of groups of unreeling assemblies 2 at the same time, the plurality of label strips 21 are arranged in parallel, the plurality of label strips 21 are kept relatively independent in the operation process, and the phenomenon of mutual interference in the operation process is avoided. The labels 212 of the plurality of label tapes 21 are simultaneously positioned on the same plane through the first closing shaft 31, and then are pulled to the processing position 32 through the waste collecting tractor 4, and meanwhile, the backing paper tape 51 of the roll feeding assembly 5 is pulled to the processing position 32 by the tractor 6; the label 212 of the label tape 21 is attached to the backing tape 51 through the labeling structure 3 to form a finished product tape 71, and the finished product tape 71 is pulled out by the tractor 6; after the labels 212 on the label tape 21 are separated, a plurality of protective films 211 remain, and the plurality of protective films 211 are collectively stored in the waste collection retractor 4.

According to the technical scheme, a plurality of groups of unreeling assemblies 2 are positioned on one side of the workbench 1, and the plurality of groups of unreeling assemblies 2 are distributed in a staggered manner in the direction perpendicular to the side surface of the workbench 1; the outer wall of each group of unreeling assemblies 2 is wound with a label tape 21, and part of moving paths of the label tapes 21 are mutually parallel; the tag tape 21 includes a tag 212 and a protective film 211, the tag 212 being attached to the protective film 211; the outer wall of the roll feeding assembly 5 is wound with a bottom paper tape 51; the tractor 6 is connected with the roll feeding assembly 5 through the backing paper tape 51; the unreeling assembly 2, the reeling assembly 5, the tractor 6 and the labeling assembly 3 are all arranged on the side wall of the workbench 1; the labeling assembly 3 is provided with a first closing shaft 31 and a processing position 32, the outer wall of the first closing shaft 31 is in rolling connection with the plurality of label tapes 21 so that the plurality of label tapes 21 are positioned on the same plane, and the first closing shaft 31 is used for guiding the plurality of label tapes 21 to the processing position 32; the waste collection retractor 4 is connected with the unreeling assembly 2 through the protective film 211, and the waste collection retractor 4 is used for accommodating a plurality of the protective films 211; the tractor 6 is used for rotating so as to enable the base paper tape 51 to pass through the processing position 32; the labeling assembly 3 is used for attaching the label 212 to the base paper tape 51 so as to separate the label 212 from the protective film 211 and form a finished paper tape 71. Because the plurality of groups of unreeling assemblies 2 are distributed in a staggered way and the moving paths of the plurality of label strips 21 are parallel, the mutual independence of the plurality of label strips 21 in the transportation process is realized, and the interference phenomenon is avoided; the first combining shaft 31 can combine the plurality of label strips 21 conveyed by the plurality of groups of unreeling assemblies 2, and enable the plurality of label strips 21 to be positioned on the same plane, and simultaneously enable the labels 212 of the plurality of label strips 21 to be positioned on the processing station 32, so that the labeling assembly 3 can conveniently bond the plurality of labels 212 on the backing paper tape 51 at one time; after the labeling assembly 3 finishes labeling, the finished paper tape 71 and the protective film 211 are respectively pulled out by pulling the bottom paper tape 51 through the tractor 6 and pulling the protective film 211 through the waste receiving tractor 4, so that the protective film 211 and the finished paper tape 71 are respectively contained or collected; realize unifying more than one and paste the mark, and unify and accomodate the protection film 211 after pasting the mark, improve the success rate of unifying more than one and paste the mark.

In this embodiment, the label tape 21 comprises yellow glassine paper, kraft paper, fluorescent paper, thermal paper, copper wire, silver wire, gold plated paper, silver plated paper, synthetic paper (CPC/PP/hytol/super tough/pearlescent paper), aluminum foil paper, fragile (anti-counterfeit) paper, textured paper, cloth label (taverk/nylon), pearl dragon, sandwich copper plate, thermal paper. The different materials used for the tag tape 21 results in different maximum tensions for the respective tag tapes 21. The protective film 211 may protect the label 212 from creases or wrinkles of the label 212, and serves as a conveyor belt guiding the label 212.

Specifically, the waste collection tractor 4 includes a collection traction component 42 and at least one group of adjustment components 41, the unreeling component 2 is connected with one end of the adjustment components 41 through the protective film 211, the other end of the adjustment components 41 is connected with the collection traction component 42 through the protective film 211, and the number of the adjustment components 41 corresponds to the number of the unreeling components 2; the adjusting component 41 is used for adjusting the tension of the protective film 211, and the accommodating traction component 42 is used for rotating so that the protective film 211 is wound on the outer wall of the accommodating traction component 42. The number of the adjusting assemblies 41 corresponds to the number of the unreeling assemblies 2, in this embodiment, the numbers of the adjusting assemblies 41 and the unreeling assemblies 2 are respectively four groups, so that the label tape 21 of the unreeling assembly 2 is conveyed to the processing position 32, and four protective films 211 are formed after being processed by the labeling assembly 3, the four protective films 211 are respectively transported by the four groups of adjusting assemblies 41, and the four protective films 211 are uniformly contained by the containing traction assembly 42; moreover, the four protective films 211 are independent of each other in the process of storage, so that the four protective films 211 are not affected or interfered with each other in the process of operation, and the stability of the multi-column labeling device 100 is improved. And the storage traction assembly 42 can provide traction power for the four label strips 21, and because the traction force of the storage traction assembly 42 is simultaneously connected with the four protective films 211, the magnitudes of the traction forces suffered by the four protective films 211 are consistent, so that the speeds of the four label strips 21 are consistent during operation, the labels 212 on the label strips 21 are kept in a relatively static state, and the accuracy of labeling 212 can be improved when the label labeling assembly 3 labels 212.

Specifically, the waste collection tractor 4 is provided with a support frame 43, one end of the support frame 43 is mounted on the labeling assembly 3, one end of the support frame 43 is provided with a feed inlet 434, and the other end of the support frame 43 is provided with a discharge outlet 435; the support frame 43 is internally provided with a plurality of groups of adjusting components 41, the plurality of groups of adjusting components 41 are arranged in parallel, the plurality of groups of adjusting components 41 are used for collecting a plurality of protective films 211 of the feeding hole 434, and conveying the plurality of protective films 211 to the discharging hole 435 for discharging. In this embodiment, four groups of adjusting components 41 are disposed in the supporting frame 43, and four protective films 211 are centrally introduced into the four groups of adjusting components 41 through the feeding openings 434, and the four groups of adjusting components 41 are arranged in parallel, so that the design layout of the waste collection tractor 4 is more compact, and the occupied area of the waste collection tractor 4 can be saved; secondly, can also make four protection film 211 when getting into four group's regulation subassembly 41, the relative independence operation between four protection film 211, four protection film 211 keep relative independence in the operation in-process, do not have the interference phenomenon between the four protection film 211, and four protection film 211 assemble simultaneously and discharge at discharge gate 435, and is accomodate the traction assembly 42 simultaneously and accomodate.

Specifically, the supporting frame 43 includes two side plates 431, and two side plates 431 are disposed in parallel; the adjusting assembly 41 comprises a first motor 411, a rotating shaft 412, a main pressing roller 413 and an auxiliary pressing roller 414, wherein an output shaft of the first motor 411 penetrates through one side plate 431 to be connected with the rotating shaft 412, the two side plates 431 are respectively provided with shaft holes, two ends of the rotating shaft 412 are respectively positioned in the shaft holes of the two side plates 431, the main pressing roller 413 is sleeved on the outer wall of the rotating shaft 412, and two ends of the auxiliary pressing roller 414 are respectively arranged on the two side plates 431; the main press roller 413 and the auxiliary press roller 414 are oppositely arranged, the main press roller 413 is parallel to the auxiliary press roller 414, a gap for the protective film 211 to pass through is arranged between the main press roller 413 and the auxiliary press roller 414, the protective film 211 is respectively attached to the main press roller 413 and the auxiliary press roller 414, and the first motor 411 is used for driving the rotating shaft 412 to rotate so that the main press roller 413 can adjust the tension of the protective film 211; when the protective film 211 is respectively attached to the main press roller 413 and the negative pressure roller 414, and the linear speed of the main press roller 413 is higher than that of the unreeling component 2, the protective film 211 between the main press roller 413 and the unreeling component 2 stretches, so that the tension of the protective film 211 is adjusted by the cooperation of the main press roller 413 and the negative pressure roller 414; the adjusting assembly 41 is further provided with a driving panel 415, the driving panel 415 is electrically connected with the first motor 411, and the driving panel 415 is provided with a plurality of gears, and the gears are used for adjusting the rotation speed of the first motor 411. In order to save space or size of the workbench 1, the transporting direction of the tag tape 21 needs to be changed continuously during the transporting process, and the traveling distances of the four tag tapes 21 are different, so that the maximum tension of each tag tape 21 is different due to the gravity of the tag tape 21 itself, the width of the tag tape 21 or the material of each tag tape 21, and a state that the tag tape 21 cannot be kept in tension may occur. Therefore, the rotation speed of the main pressing roller 413 can be changed by adopting the first motor 411 to provide a certain traction force for the label tape 21, a plurality of gears are arranged on the driving panel 415, and the rotation speed of the main pressing roller 413 of the four groups of adjusting components 41 is respectively adjusted by adopting the driving panel 415, so that the tensioning force of the protective film 211 is adjusted, and the tensioning state of the four label tapes 21 can be adjusted. In the use process, the rotation speed of the main pressing roller 413 can be respectively designed according to the label belts 21 of different papers and the running distances of the four label belts 21, so that the label belts 21 with different materials and the label belts 21 with different running distances can be kept in a tensioning state; the tension of each label tape 21 is stable and will not affect each other during operation, so that the adaptability and operation stability of the multi-column labeling apparatus 100 can be improved by using the adjusting assembly 41.

In this embodiment, after the material quality of the tag tape 21 is manually observed, the maximum tension of the tag tape 21 is set by the adjusting component 41, so that the stretching amounts of all tag tapes 21 are consistent when the tag tapes 21 with different materials are operated, and all tag tapes 21 are in a tensioned state, wherein the tag tapes 21 with different materials are synchronously operated and synchronized to the processing position 32 of the labeling component 3. When the label tapes 21 with different materials are in operation, the moving paths from each unreeling component 2 to the label tapes 21 of the adjusting component 4 are circulation loops; and the respective moving paths are relatively independent and run synchronously.

Specifically, the support frame 43 is provided with a second closing shaft 432 near one end of the labeling assembly 3, the discharge port 435 is provided with a third closing shaft 433, the second closing shaft 432 and the third closing shaft 433 are both installed between the two side plates 431, two ends of the second closing shaft 432 or the third closing shaft 433 are respectively connected with the two side plates 431 in a rotating manner, the second closing shaft 432 is used for guiding a plurality of protecting films 211 of the feed port 434, and the third closing shaft 433 is used for guiding a plurality of protecting films 211 of the discharge port 435. The second combining shaft 432 and the third combining shaft 433 have the function of combining four protection films 211, and simultaneously have the function of guiding the four protection films 211, so that when the four protection films 211 pass through the second combining shaft 432 or the third combining shaft 433, the second combining shaft 432 can unify the moving paths of the four protection films 211 entering the adjusting component 41, and the third combining shaft 433 can unify the moving paths of the four protection films 211 entering the collecting and pulling component 42, thereby realizing the integrated collection of the multiple rows of protection films 211.

Specifically, the labeling assembly 3 includes a first pressing roller 33 and a second pressing roller 34, where the first pressing roller 33 and the second pressing roller 34 are both installed on one of the side plates 431, and one ends of the first pressing roller 33 and the second pressing roller 34 are both rotatably connected with one of the side plates 431; a gap for the base paper tape 51 or the label tape 21 to pass through is arranged between the first pressing roller 33 and the second pressing roller 34, the first pressing roller 33 is in rolling connection with the base paper tape 51, and the second pressing roller 34 is in rolling connection with the label tape 21; the label tape 21 has a path of travel away from the base tape 51 at the processing station 32; and/or the base tape 51 has a path of travel away from the label tape 21 at the processing station 32; the second press roller 34 is used to bring the label tape 21 into contact with the base tape 51 so that the labels 212 are pressed against the base tape 51. The second pressing roller 34 can make the labels 212 on the label tape 21 adhere to the backing paper tape 51 so as to form a finished paper tape 71, the label assembly 3 simultaneously passes through a gap in the labeling process, the distance of the gap can be adjusted according to the sum of the thicknesses of the backing paper tape 51 and the labels 212, the backing paper tape 51 and the label tape 21 move towards opposite directions, the backing paper tape 51 is generally provided with an adhesive for adhering the labels 212, when the backing paper tape 51 and the label tape 21 simultaneously pass through a processing station, the adhesive force of the adhesive is larger than the adhesive force of the labels 212, the labels 212 are adhered by the adhesive, and the labels 212 are adhered to the backing paper tape 51.

Specifically, the unreeling assembly 2 comprises an unreeling reel 22 and a first guide shaft 24, wherein the unreeling reel 22 and the first guide shaft 24 are both installed on the side wall of the workbench 1, the unreeling reel 22 is used for winding the label tape 21, the unreeling reel 22 is connected with the first guide shaft 24 through the label tape 21, and the first guide shaft 24 is used for guiding the output direction of the label tape 21. The first guide shaft 24 can guide the running direction of the label tape 21 to enable the label tape 21 to run towards the first closing shaft 31, meanwhile, the unwinding reel 22 can wind the label tape 21, the more the label tape 21 is wound on the unwinding reel 22, the larger the storage capacity of the label tape 21 is, the plurality of unwinding reels 22 can be arranged on the side wall of the workbench 1, the distance between the unwinding reels 22 and the workbench 1 can be adjusted, the plurality of unwinding reels 22 are distributed in a staggered mode on the plane perpendicular to the workbench 1, part of moving paths of the plurality of label tapes 21 are parallel to each other, and the part of moving paths refer to sections of the plurality of label tapes 21 close to the first closing shaft 31, so that the plurality of label tapes 21 are ensured to be kept relatively independent in running.

Specifically, the side wall of the workbench 1 is further provided with a braiding corrector 25 and a positioning electric eye 23, the tag belt 21 is respectively connected with the braiding corrector 25 and the positioning electric eye 23 in a sliding manner, and the positioning electric eye 23 is respectively connected with the driving panel 415 and the braiding corrector 25 in an electric manner; the positioning electric eye 23 is used for sensing the position of the label 212 of the label tape 21, and the positioning electric eye 23 is used for sending sensing information to the driving panel 415 so that the driving panel 415 can adjust the tension of a plurality of the protective films 211; the driving panel 415 has a plurality of gears for adjusting the rotation speed of the main pressing roller 413, and the main pressing roller 413 adjusts the linear speed of the label tape 21, thereby adjusting the tension of the label tape 21; the positioning electric eye 23 is used to drive the entanglement unit 25 so that the entanglement unit 25 corrects the lateral position of the label tape 21. The positioning electric eye 23 can be one of a color code electric eye, an ultrasonic induction electric eye and a metal induction electric eye, the positioning electric eye 23 can be purchased from the market, and the model of the positioning electric eye 23 is provided with a WLBS-210 transparent label electric eye and a GS61 self-adhesive electric eye; the positioning electric eye 23 transmits a signal to the deviation corrector 25, the deviation corrector 25 outputs a deviation correction signal to a stepping motor of the deviation corrector 25, and the stepping motor drives a screw rod at the bottom of the machine to move according to the deviation correction signal, so that the deviation correction effect is achieved. The type of the corrector 25 is a magnetic powder tension corrector, a single-path corrector and a double-path corrector; the entanglement unit 25 can also be purchased from the market, and the model of the entanglement unit 25 is EPC-D12 entanglement unit and KTC800A entanglement unit. Through the cooperation of the entanglement ware 25 and the location electric eye 23, according to the material of label area 21, manually set up the maximum rate of tension of adjusting part 41, the location electric eye also can transmit the rate of tension of label area 21 to adjusting part 41 simultaneously, can make the rate of tension of label area 21 be adjusted to the multi-column labeling equipment 100 according to the material of label area 21, improves the labeling precision of multi-column labeling equipment 100.

Specifically, the multi-column labeling apparatus 100 further includes a finished product winding assembly 7, where the winding assembly 7 is mounted on a side wall of the working table 1, the finished product winding assembly 7 is provided with a second motor and a winding shaft (not illustrated in the drawing), the winding shaft is connected with an output shaft of the second motor, and the second motor is used for driving the winding shaft to rotate, so that the winding shaft stores the finished product paper tape 71. The second motor can drive the winding shaft to rotate so that the winding shaft can store the finished paper tape 71, and the second motor can drive the bottom paper tape 51 to operate together with the tractor 6 for labeling.

In this embodiment, the side wall of the working table 1 is further provided with a second guide shaft 52, the second guide shaft 52 is located between the processing station 32 and the feeding assembly 5, the second guide shaft 52 is used for guiding the base paper tape 51 to be conveyed to the processing station 32, and the side wall of the working table 1 may be further provided with a plurality of guide shafts, according to the arrangement positions of the components, so that the guide shafts are arranged between the components, and the moving direction of the label tape 21 and the base paper tape 51 is changed.

step one: the plurality of label strips 21 are output by the plurality of groups of unreeling assemblies 2, the storage traction assembly 42 provides traction force for the plurality of label strips 21, and the plurality of label strips 21 pass through the processing position 32;

step two: conveying the masking tape 51 to the processing position 32 by using the tractor 6, intersecting the moving path of the tag tape 21 and the moving path of the masking tape 51 at the processing position 32, adjusting the moving tracks of the tag tapes 21 by using the positioning electric eyes 23 and the entanglement unit 25, and transmitting the sensing information to the multi-group adjusting assembly 41;

step three: the multiple groups of adjusting components 41 receive the sensing information and respectively adjust the tension of the multiple protective films 211 to ensure that the multiple label tapes 21 are in a tension state before labeling and after labeling;

step four: the labeling assembly 3 attaches the label 212 of the label tape 21 to the base tape 51, so that the finished product tape 71 after processing is pulled out by the tractor 6, and the protective film 211 is pulled out from the processing position 32 by adopting the storage and traction assembly 42, thereby completing labeling of the base tape 51 and storing the protective film 211.

The labeling method can keep the relative independent running states among the plurality of label strips 21, and the tension of the plurality of label strips 21 is respectively regulated by adopting the regulating component 41, so that the plurality of label strips 21 stably run, the label strips 21 stably run to enable the label 212 to be in a tensioning state, the phenomenon of wrinkling of the label 212 is avoided, and the running smoothness of the multi-row labeling equipment 100 is improved; thereby improving the labeling precision and qualification rate.

In this embodiment, in order to meet the labels 212 of different requirements, the multi-column labeling apparatus 100 is further provided with a label code reading module 8. The tag code reading module 8 is mainly used for recognizing product chips TID, UID and the like so as to perfect recognition functions, codes with different requirements can be carried out on each tag 212, EPS codes can be given, spray printing groups can be additionally arranged, two-dimension codes can be spray printed, and the like, codes are carried out on the inside of the tag 212 and the outside of the tag 212, so that the tag 212 has the product efficacy with different requirements. In order to increase the yield of the finished paper tape 71, the multi-column labeling apparatus 100 is further provided with a detecting module 9: scanning detection is performed on the finished paper tape 71, and the attachment accuracy and attachment success rate of the labels 212 on the finished paper tape 71 are judged and counted. The detection module 9 may be an electronic scanner; meanwhile, the label tape 21 needs to be electrostatically processed before labeling and when the finished paper tape 71 is stored.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather, the equivalent structural changes made by the description and drawings of the present invention or the direct/indirect application in other related technical fields are included in the scope of the present invention.

Claims

1. A multi-column labeling apparatus, comprising:

a working table, a working table and a working table,

2. The multi-column labeling apparatus of claim 1, wherein the waste collection tractor comprises a collection traction assembly and at least one group of adjustment assemblies, the unreeling assembly is connected with one end of the adjustment assemblies through the protective film, the other end of the adjustment assemblies is connected with the collection traction assembly through the protective film, and the number of the adjustment assemblies corresponds to the number of the unreeling assemblies; the adjusting component is used for adjusting the tension of the protective film, and the storage traction component is used for rotating so that the protective film is wound on the outer wall of the storage traction component.

3. The multi-column labeling device according to claim 2, wherein the waste collection tractor is provided with a support frame, one end of the support frame is installed on the labeling component, one end of the support frame is provided with a feed inlet, and the other end of the support frame is provided with a discharge outlet; the support frame is internally provided with a plurality of groups of adjusting components, the plurality of groups of adjusting components are arranged in parallel, the plurality of groups of adjusting components are used for collecting a plurality of protective films of the feed inlet, and the protective films are conveyed to the discharge outlet to be discharged.

4. A multi-column labeling apparatus as in claim 3 wherein said support frame comprises two side plates disposed in parallel between said side plates; the adjusting assembly comprises a first motor, a rotating shaft, a main pressing roller and an auxiliary pressing roller, wherein an output shaft of the first motor penetrates through one of the side plates to be connected with the rotating shaft, the two side plates are respectively provided with shaft holes, two ends of the rotating shaft are respectively positioned in the shaft holes of the two side plates, the main pressing roller is sleeved on the outer wall of the rotating shaft, and two ends of the auxiliary pressing roller are respectively arranged on the two side plates;

5. The multi-column labeling device according to claim 4, wherein a second closing shaft is arranged at one end of the support frame, which is close to the labeling assembly, and a third closing shaft is arranged at the discharge hole, wherein the second closing shaft and the third closing shaft are both arranged between the two side plates, two ends of the second closing shaft or the third closing shaft are respectively and rotatably connected with the two side plates, the second closing shaft is used for guiding a plurality of protective films of the feed inlet, and the third closing shaft is used for guiding a plurality of protective films of the discharge hole.

6. The multi-column labeling apparatus of claim 5, wherein the labeling assembly comprises a first press roller and a second press roller, each of the first press roller and the second press roller is mounted on one of the side plates, and one end of each of the first press roller and the second press roller is rotatably connected with one of the side plates;

7. The multi-column labeling apparatus of claim 6, wherein the unreeling assembly comprises an unreeling reel and a first guide shaft, both of which are mounted on a side wall of the work table, the unreeling reel being used for winding the label tape, the unreeling reel being connected with the first guide shaft through the label tape, the first guide shaft being used for guiding an output direction of the label tape.

8. The multi-column labeling apparatus of claim 7, wherein the side wall of the work table is further provided with a plaiting device and a positioning electric eye, the label tape is respectively connected with the plaiting device and the positioning electric eye in a sliding manner, and the positioning electric eye is respectively connected with the driving panel and the plaiting device in an electric manner; the positioning electric eye is used for sensing the label position of the label tape, and the positioning electric eye is used for sending sensing information to the driving panel so that the driving panel can adjust the tension of a plurality of protective films; the positioning electric eye is used for driving the entanglement unit so that the entanglement unit corrects the transverse position of the label tape.

9. The multi-column labeling apparatus of claim 8, further comprising a finished product winding assembly mounted to a side wall of the work table, the finished product winding assembly having a second motor and a winding shaft, the winding shaft being coupled to an output shaft of the second motor, the second motor being configured to drive the winding shaft to rotate so that the winding shaft receives the finished product paper tape.

10. A method of labeling comprising the steps of:

activating the multi-column labelling apparatus of claim 1 to convey the label and base tape towards the processing station;

carrying out correction and positioning on the label tapes, and adjusting the tension of a plurality of label tapes;

the moving path of the label tape and the moving path of the base tape are intersected at the processing station; and labeling the bottom paper tape, and storing the finished paper tape and the protective film.