CN113920666A - Volume label manufacturing method of acoustic magnetic label, volume label and version label - Google Patents

Abstract

The invention discloses a volume label manufacturing method of an acoustic magnetic label, which comprises the following steps: preparing a plurality of plate marks, wherein each plate mark comprises a substrate and at least two rows of acousto-magnetic labels which are connected with the substrate and distributed at intervals; sequentially attaching a plurality of edition labels to the bottom tape along the length direction of the bottom tape, so that the acoustic magnetic labels are aligned and arranged in a row along the length direction of the bottom tape, and obtaining the bottom tape attached with the complete edition labels; removing the substrate from the acoustic magnetic labels and the bottom tape to obtain the bottom tape attached with more than two rows of acoustic magnetic labels; cutting the bottom tape adhered with more than two rows of acoustic-magnetic labels in a row along the length direction of the bottom tape to form more than two acoustic-magnetic label tapes adhered with the acoustic-magnetic labels; and (4) respectively rolling each acoustic magnetic label tape to obtain more than two rolls of finished volume labels. The invention also provides a volume label and a plate label, which can convert the plate label with more than two lines of sound magnetic labels into more than two lines of volume labels at one time, greatly reduce the process difficulty, material waste rate and manufacturing cost for producing the volume label, and can manufacture the narrow-label volume label and the volume label without a connecting section.

Description

Volume label manufacturing method of acoustic magnetic label, volume label and version label

Technical Field

The invention relates to the technical field of acoustic magnetic labels, in particular to a volume label manufacturing method, a volume label and a version label of an acoustic magnetic label.

Background

The acoustic-magnetic anti-theft technology is widely applied to the anti-theft of various large commercial products, the acoustic-magnetic label is a key technology, the acoustic-magnetic label can be added in the production and packaging processes of commodities in the manufacturing process, the method that the conventional anti-theft label can be stuck when being put on shelf in a commercial place is changed, the anti-theft label is more concealed and is not easy to be found and damaged, and a good anti-theft effect can be achieved. At present, the way that manufacturers provide users with acoustic magnetic labels mainly comprises volume labels and version labels.

The label roll is formed by rolling up a base tape which is attached with a plurality of acoustic-magnetic labels along the length direction, and the acoustic-magnetic labels can be attached to commodities or commodity packages flowing through a high-speed conveying belt by using a high-speed labeling machine during attachment, so that the labeling efficiency is very high. Although the labeling efficiency of the volume label is high, the manufacturing cost of the volume label is high for the manufacturing enterprises because of the serious technical pain points in the existing volume label manufacturing process (for example, US 6371187, 6096153). In the prior art, the manufacturing link of the acoustic magnetic label and the attaching link of the acoustic magnetic label and the base tape are generally carried out simultaneously, during continuous production, the mechanical property of the acoustic magnetic label is changed sharply when the shell of the acoustic magnetic label is cooled after thermal forming, the cross section of the formed acoustic magnetic label is uneven, when a plastic substrate moves forwards continuously, the label interval is changed easily due to small change of tension, the material thickness and the mechanical property of each section are greatly different, the tension control needs sectional control and real-time adjustment, and the difficulty is very high. In addition, the current commercially available acoustic magnetic labels generally require 2 to 4 resonator plates, and when each cutting knife (us patent 6647844) in the prior art cuts 2 to 4 resonator plates into the same resonator cavity on the plastic base tape which is continuously moved forward, the moving speed of the plastic base tape must be controlled at a low level, the production efficiency is slowed, and the width of the label is not too narrow, so that it is difficult to produce narrower labels of the acoustic magnetic labels. In addition, if a fault occurs in a certain link, the plastic and the rubber bottom belt which continuously run cannot stop, a large amount of plastic and rubber and more expensive resonance plates or polarizing plates are wasted, simultaneous production of multiple rolls is difficult, and the production efficiency is low. In addition, because prior art fault rate is high, need often will make unqualified volume label section and cut off and get rid of and connect new qualified volume label section, at the linking section thickness of both ends volume label be greater than normal section, when high-speed subsides mark, the position of these thickness grow causes easily that to paste the mark mistake, has influenced the mark speed of pasting.

The plate mark is in a single plate shape, a plurality of acoustic magnetic labels are distributed on each plate, when the plate mark is manufactured, the plate mark does not have a continuous plastic bottom band, a plurality of resonant cavities can be formed simultaneously through one-time die pressing, when technical faults occur, the plate mark can be stopped at any time and started after the faults are solved, amorphous resonance sheets and offset sheets in the acoustic magnetic labels can be cut in advance in large quantities for standby, synchronization with other stations is not needed, the production efficiency is high, and the manufacturing cost is greatly reduced compared with a volume mark. However, the plate label cannot be adapted to a high-speed labeling machine, and only can be used for a market or a supplier to manually place or paste the acoustic magnetic label on a commodity needing theft prevention, so that the labeling efficiency is low. In addition, in order to effectively utilize materials, the acoustic magnetic labels on the common plate labels are closely arranged, gaps do not exist among the acoustic magnetic labels, the structure of the acoustic magnetic labels on the volume label is different from that of the acoustic magnetic labels on the volume label in interval arrangement, the plate labels and the volume labels cannot be used in common, and common technicians are difficult to manufacture the plate labels and the volume labels in a combined mode.

Disclosure of Invention

In order to overcome some defects of the prior art, the invention aims to provide a volume label of an acoustic magnetic labelNovelThe manufacturing method, the volume label and the plate label can convert the plate label with more than two lines of acoustic-magnetic labels into more than two lines of volume labels at one time, so that the process difficulty, the material waste rate and the manufacturing cost for producing the volume label are greatly reduced.

The purpose of the invention is realized by adopting the following technical scheme:

a volume label manufacturing method of an acoustic magnetic label comprises the following steps:

preparing a version mark: preparing a plurality of plate marks, wherein each plate mark comprises a substrate and at least two rows of acoustic magnetic labels connected with the substrate, and all the acoustic magnetic labels are arranged at intervals;

adhering a plate mark and a bottom belt: sequentially attaching a plurality of versions of labels to the bottom tape along the length direction of the bottom tape, so that the acoustic magnetic labels on all the versions of labels are aligned and arranged in a row along the length direction of the bottom tape, and obtaining the bottom tape attached with the complete versions of labels;

removing the substrate: removing the substrate from the acoustic magnetic labels and the bottom tape to obtain the bottom tape attached with more than two rows of acoustic magnetic labels;

cutting into rolls: cutting the bottom tape adhered with more than two rows of acoustic-magnetic labels along the length direction of the bottom tape to form more than two acoustic-magnetic label tapes, wherein each acoustic-magnetic label tape is provided with at least one row of acoustic-magnetic labels which are arranged at intervals; and each acoustic magnetic label tape is respectively rolled to obtain more than two rolls of finished label products.

Furthermore, a first positioning hole group is arranged on the base plate of the plate mark, and a plurality of second positioning hole groups distributed along the length direction of the base belt are arranged on the base belt; the step that a plurality of version marks are attached to the bottom tape along the length direction of the bottom tape in sequence specifically comprises:

one or more plate marks are taken each time, the first positioning hole group on the plate mark is aligned with the second positioning hole group on the bottom belt, and the plate marks are placed on the bottom belt to be pasted after the alignment; and then pulling the bottom tape along the length direction to expose a blank section to which the plate marks are not adhered, and repeating the steps.

Furthermore, in the plate marks, the peripheral side of each acoustic magnetic label is connected with the substrate by one or more discontinuous connecting positions; in the substrate removing step, the substrate is removed from the acoustic magnetic label and the base tape by pulling the substrate to break the connection site.

Further, in the step of removing the substrate, before pulling the substrate, the method further includes:

and pressing the acoustic magnetic label on the bottom tape pasted with the full logo at intervals, so that the acoustic magnetic label is tightly attached to the bottom tape, and the substrate is in an unpressed state.

Furthermore, the bottom of the plate logo is a non-stick surface, and more than two rows of double-faced adhesive blocks distributed at intervals are further bonded on the bottom tape along the length direction of the bottom tape;

when the plate marks are pasted on the base tape, the size of the double-sided adhesive block is smaller than the area and the position of the bottom of the label, and the two-sided adhesive block corresponds to the acoustic magnetic labels on the plate marks one by one and is pasted with the acoustic magnetic labels; if the acoustic magnetic label is torn off from the bottom tape under the action of external force, the double-faced adhesive tape block can be attached to the acoustic magnetic label and torn off along with the acoustic magnetic label.

Furthermore, the bottom surface of the plate label is provided with an adhesive surface, and the adhesive surface at least covers the bottom surface of the acoustic magnetic label to form the acoustic magnetic label with primer;

the plate mark is adhered to the bottom tape through the adhesive surface; if the plate label is torn off from the bottom tape under the action of external force, the adhesive surface can be attached to the acoustic magnetic label and torn off along with the acoustic magnetic label.

Furthermore, the bottom of the plate mark is a non-stick surface, the bottom tape is a single-sided adhesive surface, and the plate mark is adhered to the single-sided adhesive surface; the acoustic magnetic label can be separated from the single-sided adhesive surface under the action of external force, so that the acoustic magnetic label is torn off from the bottom tape.

The volume label is manufactured by the volume label manufacturing method of the acoustic magnetic label.

The acoustic magnetic label is attached to the bottom belt, and all the acoustic magnetic labels are arranged in a row along the length direction of the bottom belt in a mode that the acoustic magnetic labels are spaced and parallel in the length direction. Each acoustic magnetic label is rectangular with rounded corners.

Further, the radius of the fillet is 0.5mm to 3.0 mm.

Further, the label comprises a narrow label volume label and a wide label volume label, wherein the sound magnetic label on the narrow label volume label is a narrow label, the sound magnetic label on the wide label volume label is a wide label, and the width of the narrow label is smaller than that of the wide label.

Furthermore, a plurality of second positioning hole groups are further formed in the bottom belt, all the second positioning hole groups are sequentially arranged along the length direction of the bottom belt, and each second positioning hole group comprises a plurality of second positioning holes which are respectively located on two sides of the array of the acoustic magnetic labels.

A logo is used in the method for manufacturing the volume label of the acoustic magnetic label, the logo comprises a substrate and at least two rows of acoustic magnetic labels connected with the substrate, the two adjacent rows of acoustic magnetic labels are arranged at intervals, and the length directions of the acoustic magnetic labels in each row are parallel to each other and have intervals.

Further, each of the acousto-magnetic labels is rectangular with rounded corners.

Further, the radius of the fillet is 0.5mm to 3.0 mm.

Furthermore, the sound magnetic label on the narrow label version mark is a narrow label, the sound magnetic label on the wide label version mark is a wide label, and the width of the narrow label is smaller than that of the wide label.

Furthermore, a first positioning hole group is further arranged on the substrate and comprises a plurality of first positioning holes which are respectively positioned on two sides of the array of the acoustic magnetic labels.

Further, an aluminum foil layer is attached to the bottom of each acoustic magnetic label.

Compared with the prior art, the method for manufacturing the volume label of the acoustic-magnetic label separates the acoustic-magnetic label manufacturing process and the acoustic-magnetic label volume manufacturing process, takes the plate label with the acoustic-magnetic label as a processing raw material, and rapidly converts more than two columns of acoustic-magnetic labels on the plate label into more than two columns of volume labels. In the volume label manufacturing mode, the plate label can be manufactured separately in advance by adopting a low-cost method and then converted into the volume label, a plurality of material processing stations are not required to be synchronized, the manufacturing difficulty is greatly reduced, and the waste rate and the manufacturing cost of materials can be obviously reduced.

The acoustic magnetic labels on the version labels are more than two rows, so that the acoustic magnetic labels can be directly cut into more than two rows of volume labels after being attached to the bottom tape, and because each row of acoustic magnetic labels can not cause too much extra interference in the whole process, the production efficiency can be improved by more than two rows of acoustic magnetic labels.

The substrate in the plate label can fix a plurality of acoustic magnetic labels at intervals according to positions in a preparation stage so as to meet the requirement of arranging the labels on the labels at intervals, and after the acoustic magnetic labels are attached to the bottom tape, redundant substrates are removed, and only the acoustic magnetic labels are left to be attached to the bottom tape, so that a structure similar to that of a common label is formed; and finally, cutting along the length direction of the base tapes, so that at least one row of acoustic magnetic labels are distributed on each base tape, and then coiling to obtain a label finished product basically consistent with the general label structure.

Compared with the prior art, the volume label is manufactured by the volume label manufacturing method of the acoustic-magnetic label, the manufacturing process difficulty is greatly reduced, the probability of errors and faults is low, and bad sections are not easy to appear, so that the volume label without the connecting section with extremely long length can be obtained, the problem that the high-speed labeling is caused by the connecting section with thickened thickness in the volume label in the prior art is solved, and the labeling efficiency is higher.

Compared with the prior art, the version label is used in the volume label manufacturing method of the acoustic magnetic labels, the number of the acoustic magnetic labels on the volume label manufacturing method is more than two, and intervals are arranged among the acoustic magnetic labels, so that the volume label manufacturing method is different from the structure that the acoustic magnetic labels on the version label in the prior art are arranged in a clinging mode. The structure is a structure which is arranged at intervals for adapting to each acoustic magnetic label on the volume label, when the version label is attached to the bottom tape, and after the bottom tape is removed, the acoustic magnetic label position arrangement which accords with the volume label standard can be obtained without adjusting the position, and the matching degree and the production efficiency are favorably improved.

Drawings

FIG. 1 is a flow chart of a label manufacturing method of an acoustic magnetic label according to the present invention;

FIG. 2 is a schematic diagram of a label manufacturing method of an acoustic magnetic label according to the present invention;

FIG. 3 is a schematic diagram of a version of the present invention with a wide target;

FIG. 4 is a schematic view of a plate label with a narrow label according to the present invention;

in the figure, 1-version mark, 11-substrate, 111-first positioning hole, 12-acoustic magnetic label, 2-bottom tape, 21-second positioning hole and 3-volume label finished product.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Fig. 1 to 2 show a label making method of an acoustic magnetic label of the present invention, comprising the following steps:

preparing a version number 1: preparing a plurality of logos 1, wherein each logo 1 comprises a substrate 11 and at least two rows of acousto-magnetic labels 12 connected with the substrate, and all the acousto-magnetic labels 12 are arranged at intervals; the acoustic magnetic labels 12 on the version mark 1 are more than two rows, so that the acoustic magnetic labels can be directly divided into more than two rows after being attached to the base tape 2, and because each row of acoustic magnetic labels 12 does not cause too much extra interference in the whole process, the production efficiency can be improved by more than two rows of acoustic magnetic labels 12.

Bonding the plate label 1 and the bottom tape 2: sequentially attaching a plurality of labels 1 to the base tape 2 along the length direction of the base tape 2, so that the acoustic magnetic labels 12 on all the labels 1 are aligned and arranged in a row along the length direction of the base tape 2, and all the acoustic magnetic labels 12 are on the same line during subsequent cutting, thereby obtaining the base tape 2 attached with the complete labels 1; at this time, the plate mark 1 is completely attached to the bottom belt 2, and the redundant substrate 11 is required to be removed;

removing the substrate 11: removing the substrate 11 from the acoustic magnetic labels 12 and the base tape 2, and attaching only the acoustic magnetic labels 12 to the base tape 2, thereby obtaining the base tape 2 attached with more than two rows of acoustic magnetic labels 12;

cutting into rolls: cutting the bottom tape 2 pasted with more than two rows of acoustic-magnetic labels 12 along the length direction thereof to form more than two acoustic-magnetic label 12 tapes, wherein each acoustic-magnetic label 12 tape is provided with at least one row of acoustic-magnetic labels 12 arranged at intervals; and (3) respectively coiling each acoustic magnetic label 12 tape to obtain more than two rolls of finished volume label products 3. Preferably, each acoustic-magnetic label 12 band preferably has only one row of acoustic-magnetic labels 12 to meet most of the standard of the volume label, and when each acoustic-magnetic label 12 band corresponds to one row of acoustic-magnetic labels 12, the number of rows of acoustic-magnetic labels 12 of the version label 1 is the number of the finally available volume label finished products, in order to improve the production efficiency, at least 2 rows of acoustic-magnetic labels 12, preferably 4 rows, are provided, and the directions of the two adjacent rows of acoustic-magnetic labels 12 bands in the rolling process are staggered to avoid mutual interference when the two rows of acoustic-magnetic labels 12 are rolled into the roll.

Moreover, because the way of the version label 1 is adopted for manufacturing the acoustic-magnetic label 12, the width of the acoustic-magnetic label 12 is not influenced by the moving speed of the production line, and even a narrow acoustic-magnetic label 12 can be manufactured, so that the current situation that the label in the prior art can only be a wide acoustic-magnetic label 12 is changed.

It can be seen that the label manufacturing method of the acoustic magnetic label in the invention separates the manufacturing process of the acoustic magnetic label 12 and the rolling process of the acoustic magnetic label 12, takes the logo 1 with the acoustic magnetic label 12 as a processing raw material, and rapidly converts more than two rows of acoustic magnetic labels 12 on the logo 1 into more than two rows of labels. In the volume label manufacturing mode, the plate label 1 can be manufactured separately in advance by adopting a low-cost method and then converted into the volume label, only the bottom tape 2 is left on the material tape, and the tape does not need to be synchronous with various materials, so that the manufacturing difficulty is greatly reduced, and the waste rate and the manufacturing cost of the materials can be obviously reduced.

As a preferable scheme of this embodiment, the substrate 11 of the plate label 1 is further provided with a first positioning hole 111 group, the first positioning hole 111 group includes a plurality of first positioning holes 111, the bottom tape 2 is provided with a plurality of second positioning holes 21 groups distributed along the length direction thereof, and each of the second positioning holes 21 groups includes a plurality of second positioning holes 21; the step that a plurality of version marks 1 are attached on the bottom tape 2 along the length direction of the bottom tape 2 in sequence specifically includes: taking one or more plate marks 1 each time, aligning the first positioning hole 111 group on the plate mark with the second positioning hole 21 group on the bottom tape 2, and placing the plate marks 1 on the bottom tape 2 for pasting after aligning; the backing tape 2 is then pulled lengthwise to expose the blank section to which the logo 1 has not been applied, and the above steps are repeated. The first positioning hole 111 group and the second positioning hole 21 group are preferably aligned preliminarily by a laser positioning method in the embodiment, and then the positioning pins are used to penetrate into the first positioning hole 111 and the second positioning hole 21 to ensure complete positioning, the positioning can be more accurate by respectively arranging the positioning hole groups on the substrate 11 and the bottom belt 2, and each version label 1 can be positioned once before being placed on the bottom belt 2, so that errors are not easy to accumulate. When the blank section is continuously pulled out of the bottom tape 2, the version marks 1 are sequentially pasted on the bottom tape 2 one by one, the continuous accurate positioning between the version marks 1 and the bottom tape 2 can be ensured as far as possible, and the distance between the acoustic magnetic labels 12 from each version mark 1 on the finally formed volume label is the same and accurate by reasonably setting the length of each version mark 1.

As a preferred embodiment of the logo 1 in this embodiment, in the logo 1, the peripheral side of each acoustic magnetic label 12 is connected with the substrate 11 at one or more discontinuous connection positions, so as to reduce the firmness of the connection between the two, which can be realized by die cutting during actual manufacturing; in the step of removing the substrate 11, the substrate 11 is removed from the acoustic magnetic label 12 and the bottom tape 2 by pulling the substrate 11 to break the connection position, and the substrate 11 is removed in a mode that the discontinuous connection position is connected and matched with the pulling mode, so that the operation is simple and rapid. In addition, because the plate marks 1 are sequentially attached to the base belt 2 one by one, and each plate mark 1 does not affect each other, the base plates 11 can be removed one by pulling the base plate 11 on one plate mark 1 at a time, and the base plates 11 on a plurality of plate marks 1 can be removed at one time according to needs.

In order to avoid the acoustic magnetic label 12 being pulled away by mistake when the substrate 11 is pulled, in the step of removing the substrate 11, before the substrate 11 is pulled, the present embodiment further includes: the acoustic magnetic label 12 on the bottom tape 2 pasted with the full version label 1 is pressed at intervals, so that the acoustic magnetic label 12 is tightly attached to the bottom tape 2, the substrate 11 is not pressed, on one hand, the situation that the substrate 11 is pressed and cannot be pulled away can be avoided, on the other hand, the acoustic magnetic label 12 can be more firmly attached to the bottom tape 2, and is not easy to drop in the subsequent flow. When one substrate 11 is removed at a time, all the acoustic-magnetic labels 12 on one substrate 11 need to be pressed at each time, and the number of the acoustic-magnetic labels 12 on a single plate 1 is limited, so that the alignment is convenient.

By adopting the method for manufacturing the volume label in the embodiment, the acoustic-magnetic label 12 with the primer and the acoustic-magnetic label 12 without the primer can be obtained, the acoustic-magnetic label 12 with the primer can be directly attached to a product when in use, and the acoustic-magnetic label 12 without the primer can be generally placed in a package of a commodity, so that the acoustic-magnetic label can conveniently reach the bottom of the package without being adhered to the inner surface of the package.

Two preferred solutions for making a label for the primed acousto-magnetic label 12 are provided as follows:

the first method comprises the following steps: the bottom of the plate mark 1 is a non-stick surface, and more than two rows of double-sided adhesive blocks distributed at intervals are further bonded on the bottom belt 2 along the length direction of the bottom belt; when the logo 1 is pasted on the bottom tape 2, the size and the position of the double-sided adhesive block correspond to the acousto-magnetic label 12 on the logo 1 one by one and are pasted to form the acousto-magnetic label 12 with the bottom adhesive; the material of base band 2 is for releasing the type membrane, if acoustic magnetic label 12 is followed under the effect of external force tear on the base band 2, the double faced adhesive tape piece can be attached and tear along with it on acoustic magnetic label 12 to paste in the time of the subsides mark on commodity. According to the scheme, the double-faced adhesive tape is arranged on the bottom tape 2 instead of the plate label 1, a plurality of double-faced adhesive tape blocks which are distributed at intervals can be quickly attached to the surface of the bottom tape 2 by adopting a method of discharging waste materials after die cutting, the positions of the double-faced adhesive tape blocks correspond to the positions of the acousto-magnetic labels 12 on the plate label 1 one by one, the sizes of the double-faced adhesive tape blocks can be the same as those of the acousto-magnetic labels, but the preferred size of the embodiment is preferably smaller than that of the acousto-magnetic labels 12 so as to form the acousto-magnetic label with the bottom adhesive but without adhesive at the edge, and the phenomenon that the double-faced adhesive tape blocks exceed the range of the acousto-magnetic labels 12 due to errors in alignment can be avoided.

And the second method comprises the following steps: the bottom surface of the plate label 1 is provided with an adhesive surface, and the adhesive surface at least covers the bottom surface of the acoustic magnetic label 12 to form the acoustic magnetic label 12 with primer; the plate mark 1 is adhered to the bottom tape 2 through the adhesive surface; the bottom tape 2 is made of a release film, if the plate label 1 is torn off from the bottom tape 2 under the action of external force, the adhesive surface can be attached to the plate label 1 and torn off along with the plate label so as to be attached to a commodity during labeling. According to the scheme, the adhesive surface is directly arranged on the plate label 1, so that an adhesive block is not required to be arranged on the bottom tape 2, during manufacturing, the double-sided adhesive can be covered on the whole bottom surface of the plate label 1, then the periphery of the acoustic magnetic label 12 is subjected to die cutting, meanwhile, the double-sided adhesive and the substrate 11 are cut off, and after the double-sided adhesive is adhered to the bottom tape 2, the substrate 11 and the double-sided adhesive covered under the substrate 11 can be taken away by pulling the substrate 11. The bottom of the acoustic magnetic label 12 produced in this way can basically ensure full coverage of the double-sided adhesive tape, so that when the acoustic magnetic label is used for being stuck on a commodity, the sticking stability and reliability can be provided.

A preferred solution for producing a label without a primer for the acousto-magnetic label 12 is to provide:

the bottom of the logo 1 is a non-stick surface, the bottom tape 2 is a single-sided adhesive surface, and the logo 1 is adhered to the single-sided adhesive surface; the single-sided adhesive surface is a weak adhesive surface, and the acoustic-magnetic label 12 attached to the single-sided adhesive surface can be separated from the single-sided adhesive surface under the action of small external force, so that the single-sided adhesive surface is torn off from the bottom tape 2, and labeling operation of a labeling machine is facilitated. The bottom tape 2 in the proposal is a single-sided adhesive surface, namely, only the surface for attaching the plate label 1 has adhesiveness, and the reverse side has no adhesiveness, so as to accord with the characteristics of the volume label; the acoustic magnetic label 12 has no adhesiveness after being torn off, is the acoustic magnetic label 12 without primer, and cannot be attached to a commodity when being used in a commodity package.

Based on the above embodiments, the present embodiment further provides a volume label, which is manufactured by the volume label manufacturing method of the acoustic magnetic label.

The label comprises a bottom tape 2 and acoustic-magnetic labels 12 attached to the bottom tape 2, wherein all the acoustic-magnetic labels 12 are arranged in a row along the length direction of the bottom tape 2 in a manner that the length directions of the acoustic-magnetic labels are parallel at intervals, so that the length of the bottom tape 2 is saved, and the label is basically consistent with the specification of the existing label; each of the acoustic-magnetic labels 12 has a rectangular shape with rounded corners. In some high-speed labeller, need aim at the constant head tank with sound magnetic label 12 when pasting the mark, the fillet helps aiming at and gets into in the constant head tank, if the alignment takes place for the square corner when getting into the constant head tank inaccurate, the phenomenon that the bullet flies appears easily, and the fault-tolerant rate is low. The present embodiment can set the acoustic magnetic label 12 on the plate label 1 to be a round angle, so that after being attached to the base tape 2, the high-speed labeling machine can be directly used.

The radius R of the rounded corner is preferably 0.5mm to 3.0mm, and the radius R of the rounded corner in the embodiment is 1.0mm, so that the radian can be better matched with a high-speed labeling machine.

Because the acoustic-magnetic label 12 on the volume label in this embodiment is manufactured by the manufacturing method of the version label 1, and the movement of the material belt is not needed to be considered, the acoustic-magnetic label 12 with a very narrow width can be manufactured, the width of the acoustic-magnetic label 12 is about 3mm to 12mm, in this embodiment, the volume label preferably includes a narrow label volume label and a wide label volume label, the acoustic-magnetic label on the narrow label volume label is a narrow label, the acoustic-magnetic label on the wide label volume label is a wide label, the width of the narrow label is smaller than the width of the wide label, the size of the narrow label in this embodiment is 43.5mm x 7.2mm, and the size of the wide label is 44.5mm x 10.2 mm; in the same column, the distance D1 between two adjacent narrow marks is 3.8mm to 5.8mm, and is preferably 4.8 mm; the distance D2 between adjacent width marks is 3.5mm to 5.5mm, preferably 4.5 mm. This example size may meet the requirements of the labelling machine.

In addition, a plurality of second positioning hole 21 groups are further formed in the base tape 2, all the second positioning hole 21 groups are sequentially arranged along the length direction of the base tape 2, and each second positioning hole 21 group includes a plurality of second positioning holes 21 respectively located at two sides of the row of the acousto-magnetic labels 12. And the positions or the sizes of the second positioning holes 21 at the two sides of the row of the acoustic-magnetic labels 12 are different, so that the fool-proof effect is achieved. The second positioning hole 21 group is used for being matched and positioned with the first positioning hole 111 group on the plate mark 1 in the manufacturing process, and the manufacturing precision is improved.

Based on the above embodiments, this example also provides a version label 1 used in the method for manufacturing a volume label of an acoustic magnetic label, as one of the raw materials for manufacturing the volume label. The plate mark 1 comprises a substrate 11 and at least two rows of acousto-magnetic labels 12 connected with the substrate, the two adjacent rows of acousto-magnetic labels 12 are arranged at intervals, the length directions of the acousto-magnetic labels 12 in each row are parallel to each other and have intervals, and the acousto-magnetic labels 12 are arranged at intervals, so that materials needing to be removed on the plate mark 1 become more, the plate mark 1 can have a determined interval, and after the whole plate is attached to a bottom tape 2 and the substrate 11 is removed, the acousto-magnetic labels 12 attached to the base tape are retained and are the interval suitable for volume labels, and the method is directly applicable.

More preferably, each of the acoustic-magnetic labels 12 has a rectangular shape with rounded corners. In order to save materials and manufacture difficulty, the acoustic-magnetic label 12 on the general plate label 1 adopts a linear die cutter, so the corner of the plate label is generally a right angle, and the plate label cannot be applied to a high-speed labeling machine of a volume label even if the plate label is directly attached to the bottom belt 2 of the volume label, while the embodiment needs to be used for manufacturing the volume label, so a rectangle with a rounded corner is directly manufactured on the plate label 1 by adopting the linear and bending die cutter, and the volume label can be matched with the high-speed labeling machine when being used for the high-speed labeling machine.

Further, the radius of the rounded corner is 0.5mm to 3.0 mm. In the embodiment, the radius of the rounded corner is 1.0mm, and the radian can be better matched with a high-speed labeling machine.

In order to manufacture the volume label of the narrow label and the volume label of the wide label, the version label comprises a narrow label version label and a wide label version label, the acoustic magnetic label on the narrow label version label is the narrow label, the acoustic magnetic label on the wide label version label is the wide label, and the width of the narrow label is smaller than that of the wide label. The dimensions of the narrow target in this example are 43.5mm by 7.2mm, and the dimensions of the wide target are 44.5mm by 10.2 mm; as shown in fig. 3, in the same column, the distance D1 between two adjacent narrow marks is 3.8mm to 5.8mm, preferably 4.8 mm; as shown in fig. 4, the distance D2 between adjacent width marks is 3.5mm to 5.5mm, preferably 4.5 mm. All narrow marks or all wide marks are arranged on each logo 1, and the logo 1 of the narrow mark is used in the step of preparing the logo 1 when the logo of the narrow mark needs to be manufactured; when the wide label volume is required to be manufactured, the wide label version 1 is used in the step of preparing the version 1, so as to avoid mixing.

For the positioning between the substrate 11 and the base tape 2, the substrate 11 is further provided with a first positioning hole 111 group, the first positioning hole 111 group comprises a plurality of first positioning holes 111 respectively located at two sides of the row of the acoustic-magnetic labels 12, and the first positioning holes 111 can be aligned with the second positioning holes 21 on the base tape 2 in a matching manner.

In addition, in this embodiment, it is also possible to manufacture the acoustic magnetic labels 12 with an aluminum foil layer attached to the bottom of each acoustic magnetic label 12. During manufacturing, an aluminum foil can be attached to the bottom of each row of the acoustic-magnetic labels 12, the thickness of the aluminum foil is about 0.1mm, then die cutting is performed, the aluminum foil is cut along with the substrate 11, and only some discontinuous connecting positions are left for ensuring that the acoustic-magnetic labels 12 do not fall off.

In some embodiments, each version of the label 1 has two or more columns of 4 to 500 acousto-magnetic labels 12, and through the label manufacturing method of the acousto-magnetic labels in this embodiment, two or more labels each having 500 to 15000 acousto-magnetic labels 12 can be obtained.

The above embodiments are only preferred embodiments of the present invention, and the scope of protection of the present invention is not limited thereto, and any insubstantial changes and replacements (for example, changing the number of the acoustic magnetic labels of each plate, the width, the interval, and the projection shape of the acoustic magnetic labels, changing the die cutting manner of the plate marks, changing the peripheral fillet of the acoustic magnetic labels to various ways of removing the right angle, such as a triangular corner cut or an elliptical corner, changing the area and the shape of the double-sided block of the plate marks, adopting different positioning manners, attaching manners, substrate removing manners and cutting (cutting) manners, and changing the order of the steps, changing the winding manner of the label, adopting different preparation manners of the plate marks, and the like, but as long as the plate marks of the separate lines of acoustic magnetic labels are converted into the continuous single-line acoustic magnetic labels) can be made by those skilled in the art on the basis of the present invention, all falling within the scope of the claimed invention.

Claims (18)

1. A method for manufacturing a volume label of an acoustic magnetic label is characterized by comprising the following steps:

preparing a version mark: preparing a plurality of plate marks, wherein each plate mark comprises a substrate and at least two rows of acoustic magnetic labels connected with the substrate, and all the acoustic magnetic labels are arranged at intervals;

adhering a plate mark and a bottom belt: sequentially attaching a plurality of versions of labels to the bottom tape along the length direction of the bottom tape, so that the acoustic magnetic labels on all the versions of labels are aligned and arranged in a row along the length direction of the bottom tape, and obtaining the bottom tape attached with the complete versions of labels;

removing the substrate: removing the substrate from the acoustic magnetic labels and the bottom tape to obtain the bottom tape attached with more than two rows of acoustic magnetic labels;

cutting into rolls: cutting the bottom tape adhered with more than two rows of acoustic-magnetic labels along the length direction of the bottom tape to form more than two acoustic-magnetic label tapes, wherein each acoustic-magnetic label tape is provided with at least one row of acoustic-magnetic labels which are arranged at intervals; and each acoustic magnetic label tape is respectively rolled to obtain more than two rolls of finished label products.

2. The method for manufacturing a label of an acoustic magnetic label according to claim 1, wherein the base plate of the label is further provided with a first positioning hole group, and the base tape is provided with a plurality of second positioning hole groups distributed along the length direction thereof; the step that a plurality of version marks are attached to the bottom tape along the length direction of the bottom tape in sequence specifically comprises:

one or more plate marks are taken each time, the first positioning hole group on the plate mark is aligned with the second positioning hole group on the bottom belt, and the plate marks are placed on the bottom belt to be pasted after the alignment; and then pulling the bottom tape along the length direction to expose a blank section to which the plate marks are not adhered, and repeating the steps.

3. The method for manufacturing a label of acoustic-magnetic labels according to claim 1, wherein the label is characterized in that the peripheral side of each acoustic-magnetic label is connected with the substrate by one or more discontinuous connecting positions; in the substrate removing step, the substrate is removed from the acoustic magnetic label and the base tape by pulling the substrate to break the connection site.

4. A method for manufacturing a label for an acoustic magnetic label according to claim 3, wherein the step of removing the base plate further comprises, before pulling the base plate:

and pressing the acoustic magnetic label on the bottom tape pasted with the full logo at intervals, so that the acoustic magnetic label is tightly attached to the bottom tape, and the substrate is in an unpressed state.

5. A method for manufacturing a label of an acousto-magnetic label according to any one of claims 1 to 4 wherein the bottom of the label is a non-stick surface, and the base tape is further bonded with two or more rows of spaced double-sided adhesive blocks along its length;

when the plate marks are pasted on the bottom tape, the size and the position of the double-sided adhesive block correspond to the acoustic magnetic labels on the plate marks one by one and are pasted; if the acoustic magnetic label is torn off from the bottom tape under the action of external force, the double-faced adhesive tape block can be attached to the acoustic magnetic label and torn off along with the acoustic magnetic label.

6. The label making method of the acoustic-magnetic label according to any one of claims 1 to 4, characterized in that the bottom surface of the plate label is provided with an adhesive surface, and the adhesive surface at least covers the bottom surface of the acoustic-magnetic label to form the acoustic-magnetic label with a bottom fully covered adhesive surface with primer;

the plate mark is adhered to the bottom tape through the adhesive surface; if the acoustic magnetic label is torn off from the bottom tape under the action of external force, the adhesive surface can be attached to the acoustic magnetic label and torn off along with the acoustic magnetic label.

7. The label making method of an acoustic magnetic label according to any one of claims 1 to 4, characterized in that the bottom of the label is a non-stick surface, the backing tape is a single-sided adhesive surface, and the label is stuck on the single-sided adhesive surface; the acoustic magnetic label can be separated from the single-sided adhesive surface under the action of external force, so that the acoustic magnetic label is torn off from the bottom tape.

8. A label produced by the method for producing an acoustic magnetic label according to any one of claims 1 to 7.

9. The label of claim 8, including a base strip and acousto-magnetic labels attached to said base strip, all of said acousto-magnetic labels being arranged in a row along the length of said base strip in a spaced parallel manner along the length thereof, each of said labels being rectangular with rounded corners.

10. The label of claim 9, wherein the radius of the rounded corner is 0.5mm to 3.0 mm.

11. The label of claim 9, including a narrow label and a wide label, wherein the acousto-magnetic label on the narrow label is a narrow label, and the acousto-magnetic label on the wide label is a wide label, and wherein the width of the narrow label is smaller than the width of the wide label.

12. The label of claim 9, wherein the base band further defines a plurality of second positioning hole sets, all of the second positioning hole sets are sequentially arranged along the length direction of the base band, and each second positioning hole set includes a plurality of second positioning holes respectively located at two sides of the array of acousto-magnetic labels.

13. A logo used in the method for manufacturing the volume label of the acoustic magnetic label according to any one of claims 1 to 7, wherein the logo comprises a substrate and at least two rows of acoustic magnetic labels connected with the substrate, the two adjacent rows of acoustic magnetic labels are arranged at intervals, and the length directions of the acoustic magnetic labels in each row are parallel to each other and have intervals.

14. A version of claim 13, wherein each of said acousto-magnetic labels is rectangular with rounded corners.

15. A stencil according to claim 14, wherein the radius of the rounded corner is 0.5mm to 3.0 mm.

16. A version label according to claim 15, comprising a narrow label version label and a wide label version label, wherein the acousto-magnetic label on the narrow label version label is a narrow label, the acousto-magnetic label on the wide label version label is a wide label, and the width of the narrow label is smaller than that of the wide label.

17. The plate mark of claim 16, wherein the substrate is further provided with a first positioning hole set, and the first positioning hole set comprises a plurality of first positioning holes respectively located at two sides of the row of the acoustic magnetic labels.

18. A stencil according to any of claims 13 to 17, wherein the bottom of each of the acousto-magnetic labels comprises a layer of aluminium foil.

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