CN1119317A - Continous lable body and making of same - Google Patents

Abstract

This invention relates to a label continuum comprising a long label substrate, an adhesive layer formed on the back thereof, a heat-sensitive developing layer formed on the surface of the label substrate and a release layer formed on the surface of the label substrate opposite to the adhesive layer when the label substrate is rolled up. The invention also relates to a producing method of the label continuum which comprises a step 1 of preparing a process sheet with at least either surface thereof having a releasability and forming an adhesive layer on the release surface of the process sheet, a step 2 of preparing a long label substrate with the back to which the adhesive layer is transferred and stuck and of mating together the back of the label substrate and the adhesive layer of the process sheet, a step 3 of forming a release layer on the surface of the label substrate, a step 4 of releasing the process sheet from the surface of the adhesive layer, and a step 5 of rolling up the label substrate.

Description

Continous label and manufacture method thereof

The present invention relates to continous label and manufacture method thereof that many labels get up to form continuously, relate in particular to, for example the what is called that is suitable for as price coding and bar coded sticker etc. does not have non-separation the (ノ ソ セ パ) the type non-individual body and the manufacture method thereof of peeling paper.

In the past, being referred to as the label that does not have peeling paper of so-called non-divergence type, usually is to form the pressure-sensitive adhesive layer of being made up of the heat adhesiveness cementing agent that postpones adhesive type (テ イ レ one ト Star Network type) in the inside with heat-resistant material.

Form under the situation of pressure-sensitive adhesive layer of the hot active form of this what is called,, also can utilize after volume gathers into folds even do not use peeling paper.That is to say, thereby before heating makes the fusion of cohesiveness cementing agent give pressure-sensitive, owing to do not have cohesiveness, even thereby be rolled into and cylindricly also can not bond.Yet, this non-divergence type label in the past, manufacturing equipment must be large-scale, the equipment investment height, and must heating, thereby, must select the paper of excellent heat resistance etc. as the base material of label in order to make the heat adhesiveness binder activating, for example as, the such little material of thermotolerance of Dai Zhuan continous label can not meet the demands as thin as a wafer.

In addition, also must selection do not formed those materials that ingredient influences in the cementing agent of tack coat, therefore, its range of choice is very limited.

Therefore, the purpose of this invention is to provide a kind of range of choice that enlarges label substrate and adhesive layer, but and the continous label of Multi-varieties and Small-batch Production and manufacture method thereof.

The 1st invention is a kind of continous label, it comprise the strip label substrate and, the adhesive layer that forms in the base material of label the inside and, the heat-sensitive color layer that forms in the face side of label substrate and, when the label substrate volume gathers into folds, the peel ply that on the surface of the label substrate relative, forms with above-mentioned adhesive layer side.In the 1st invention, label substrate since with the surface of the opposition side of cementing agent on form heat-sensitive color layer, thereby can develop the color by heating.According to the 1st invention, owing to form adhesive layer in the inside of label substrate, so normal temperature can form adhesive layer down on the surface of label substrate.So, when selecting label substrate, even the band as thin as a wafer that thermotolerance is less, also can meet the demands, and, just removed before shifting owing to originally before forming adhesive layer, be in the solvent etc. of the cementing agent of dissolved state, therefore, have no relations with the character of label substrate, can enlarge the selection of binder scope that forms adhesive layer thus.Especially, can also select the heat of hot paper etc. to develop the color this class material, and come the printer etc. of lettering and all printers to be suitable for for duplicate paillon foil by this class of needs heating as label substrate.

The 2nd invention is a kind of continous label, it comprise the strip label substrate and, the adhesive layer that forms in the inside of label substrate and, the printed layers that on the surface of the heat-sensitive color layer of the face side of label substrate, forms and, when label substrate volume is folded, the peel ply that forms in the face side of the label substrate relative with adhesive layer.In the 2nd invention, label substrate since with the surface of the opposition side of cementing agent on form heat-sensitive color layer, thereby can develop the color by heating.According to the 2nd invention, owing to form adhesive layer in the inside of label substrate, thereby normal temperature can form adhesive layer down on the surface of label substrate.So, when selecting label substrate, even the band as thin as a wafer that thermotolerance is less, also can meet the demands, and, just removed before shifting owing to originally be in the solvent etc. of the cementing agent of dissolved state before forming adhesive layer, therefore, it doesn't matter can enlarge the selection of binder scope that forms adhesive layer thus with the character of label substrate.Especially, can also select can the heat colour developing as hot paper etc. this class material as label substrate, and for duplicating the printer etc. that paillon foil comes lettering by this class of needs heating, and all printers are all applicable.

In the 1st invention or the 2nd invention, peel ply also can be by printing, apply remover forms.Among the present invention, the peel ply that forms in the face side of label substrate and be with the opposed folded label substrate of empty attachment state volume that is at the adhesive layer that the inside of label substrate side forms therefore can uncoiling.According to this invention, can be on the surface of label substrate or the surface printing of printed layers, apply remover, form peel ply, even therefore the opposed empty attachment state ground volume that is of the peel ply of adhesive layer that forms in the inside of label substrate and formation in its surface gathers into folds, but also uncoiling can be cut off label one by one being used from continous label.

In the 1st invention or the 2nd invention, peel ply also can be to be formed by the good film of fissility or sheet lamination.In the present invention, because the peel ply side of label substrate and adhesive layer side are with the opposed folded label substrate of empty attachment state volume that is, therefore can uncoiling by the folded base material of volume.According to the present invention, thereby owing to can form peel ply at the surperficial stacked fissility of label substrate good film or thin slice, even thereby the peel ply that forms in the face side of label substrate and inside the adhesive layer that forms of side be to be empty attachment state volume and to fold label substrate with opposed, also can uncoiling, utilize again after can downcutting labels from many ground on the continous label.

The 3rd invention is a kind of continous label, it comprise the strip label substrate and, the adhesive layer that forms in the inside of label substrate and, the heat-sensitive color layer that forms in the face side of label substrate and, when the label substrate volume is folded, the good printed layers of fissility that on the face side of the label substrate relative, forms with the adhesive layer side.In the 3rd invention, label substrate since with the surface of the opposition side of adhesive layer on form heat-sensitive color layer, thereby can develop the color by heating.According to the 3rd invention, owing to form adhesive layer in the inside of label substrate, thereby normal temperature can form adhesive layer down on the surface of label substrate.So, when selecting label substrate, even the band as thin as a wafer that thermotolerance is little, also can meet the demands, and, just removed before shifting owing to originally be in the solvent etc. of the cementing agent of dissolved state before forming adhesive layer, therefore it doesn't matter with the character of label substrate, can enlarge the selection of binder scope that forms adhesive layer thus.Especially, can also select can the heat colour developing as hot paper etc. this class material, and for duplicating the printer etc. that paillon foil comes lettering by this class of needs heating, and all printers are all applicable.

In the 3rd invention, printed layers also can be by printing, application to printed printing ink and forming.Among the present invention, the printed layers side that the fissility that forms in the face side of label substrate is good and be the folded label substrate of empty attachment state volume with opposed at the adhesive layer that the inside of label substrate side forms, thereby can uncoiling.According to the present invention, owing on the surface of label substrate, form the good printed layers of fissility, even thereby the printed layers of adhesive layer that forms in the inside of label substrate and formation in its surface is with the opposed folded label substrate of empty attachment state volume that is, also can uncoiling, be used after can being cut into label one by one from the continous label.

In the 3rd invention, peel ply also can be with printed layers, when the label substrate volume is folded, in the face side formation of the label substrate relative with the adhesive layer side.Among the present invention, owing on the surface of the base material of label, form printed layers, and on the substrate surface of label, form peel ply with printed layers, therefore can uncoiling by the folded label substrate of volume.According to the present invention, because the surface at label forms printed layers, and at the good peel ply of the surface of label substrate formation fissility, therefore even printed layers that forms in the face side of label substrate and/or peel ply and the adhesive layer that forms on its inside side are with the opposed folded label substrate of empty attachment state volume that is, also can uncoiling, and can cut off one by one from the continous label and be used.

The 4th invention is a kind of continous label, it comprise the strip label substrate and, transfer to the inside of label substrate and the adhesive layer that forms and, the peel ply that forms in the inside of label substrate side; The opposed empty attachment state ground that is of peel ply side and above-mentioned adhesive layer is with the folded continous label that forms of label substrate volume.In the 4th invention, because the peel ply side that forms in the face side of label substrate and be to be the folded label substrate of empty attachment state volume with opposed at the adhesive layer that the inside of label substrate side forms, thereby can uncoiling.According to the 4th invention, form adhesive layer by the sky in the inside of label substrate, thereby normal temperature can form adhesive layer down on the surface of label substrate.So, when selecting label substrate, even the band as thin as a wafer that thermotolerance is little, also can meet the demands, and, just be removed before shifting owing to originally before forming adhesive layer, be in the solvent etc. of the cementing agent of dissolved state, thereby it doesn't matter with the character of label substrate, can enlarge the selection of binder scope that forms adhesive layer thus.Especially, can also select can the heat colour developing as hot paper etc. this class material, and for duplicating the printer etc. that paillon foil comes lettering by this class of needs heating, and all printers etc. are also all applicable.

In the 4th invention, also can form printed layers on the surface of label substrate, form peel ply on the surface of printed layers.Among the present invention, owing to form printed layers, form peel ply, thereby the label substrate that the quilt volume gathers into folds can uncoiling on the surface of printed layers on the surface of label substrate.According to the present invention, because the surface in label substrate forms printed layers, surface in printed layers forms peel ply, even thereby the peel ply of tack coat that forms in the inside of label substrate and formation in its surface is with the opposed folded label substrate of empty attachment state volume that is, also can uncoiling, be used after can being cut into label one by one from the continous label.

In the 4th invention, printed layers also can be the surface of label substrate, forms on the surface of peel ply, and can form with the good printing-ink of fissility.Among the present invention, because printed layers is to form on the surface as the peel ply on label substrate surface, and be to form with the good printing-ink of fissility, therefore the label substrate that is gathered into folds by volume can uncoiling.According to the present invention, because printed layers is to form on the surface as the peel ply on label substrate surface, and be to form with the good printing-ink of fissility, therefore even the adhesive layer that forms of peel ply that forms in the face side of label substrate and the inside side is to be empty attachment state the label substrate volume is gathered into folds with opposed, also can uncoiling, can many be cut into label from the continous label and be used.

In the 4th invention, label substrate also can with the surface of the opposition side of adhesive layer on form heat-sensitive color layer.Among the present invention because label substrate, with the surface of adhesive layer opposition side on form heat-sensitive color layer thereby can develop the color by heating.According to the present invention and since label substrate with the surface of adhesive layer opposition side on form heat-sensitive color layer, thereby just can carry out lettering more easily by thermal printer etc.

In the 4th invention, peel ply also can be by printing, applies remover and/or printing-ink and forms.Among the present invention,, on the surface of printed layers, form peel ply, thereby the continous label that the quilt volume gathers into folds can uncoiling owing on the surface of label substrate, form printed layers.According to the present invention, owing on the surface of label substrate, form peel ply.Even thereby the adhesive layer that forms in the inside of label substrate and the peel ply that forms in its surface be to be empty attachment state and label substrate is rolled up to gather into folds with opposed, also can uncoiling, can be cut into label one by one from the continous label and be used.

In the 4th invention, peel ply also can be to be formed by fissility good film or sheet lamination.Among the present invention, because printed layers is to form peel ply on the surface of label substrate, thereby the continous label that the quilt volume gathers into folds can uncoiling.According to the present invention, owing on the surface of label substrate, form peel ply with fissility good film or thin slice, even thereby the adhesive layer that forms of the peel ply that forms in the face side of label substrate and the inside side is empty attachment state the label substrate volume is gathered into folds with opposed, also can uncoiling, can many be cut into label from the continous label and be used.

The 5th invention is a kind of manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and have at the engineering thin plate step 1 that forms adhesive layer on the surface of fissility and, thereby the strip label substrate that preparation is transferred because of adhesive layer with the inside that can bond, and the step 2 that the adhesive layer of the inside of this label substrate and engineering thin plate is overlapped and, on the inside of label substrate, form peel ply step 3 and, only the step 4 that the engineering thin plate is got off from the adhesive layer sur-face peeling of transferring on the label substrate the inside and, with peel ply and adhesive layer with the opposed step 5 that is the folded label substrate of empty attachment state volume.In the 5th invention,, therefore, when overlapping with the strip label substrate, adhesive layer just transfers on the surface of strip label substrate from the engineering thin plate owing on thin sheet surface, have the engineering thin plate of fissility and form adhesive layer.According to the 5th invention, since will the engineering thin plate have the adhesive layer that forms on the surface of fissility and, overlap because of thereby but adhesive layer shifts the strip label substrate surface that possesses bonding surface, under the normal temperature, adhesive layer is transferred to the inside of strip label substrate from the engineering thin plate, even therefore the less label substrate as thin as a wafer of thermotolerance also can form adhesive layer.And, therefore can not bring influence to label substrate because of solvent etc. because the cementing agent that forms adhesive layer contained solvent when emulsion state makes it to shift the back from the surface of engineering thin plate and forms adhesive layer to remove state.So the cementing agent range of choice of label substrate and formation adhesive layer is greatly widened, and, be suitable for a spot of production of many kinds.In addition, the engineering thin plate is reusable, therefore can not waste, and can seek the utilization again of resource.

The 6th invention is a kind of manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and have at the engineering thin plate step 1 that forms adhesive layer on the surface of fissility and, thereby preparation has the strip label substrate of cohesible the inside because of adhesive layer shifts, and the step 2 that the adhesive layer of the inside of this label substrate and engineering thin plate is overlapped and, on the surface of label substrate, form printed layers step 3 and, on the surface of label substrate, form peel ply step 4 and, only the step 5 that the engineering thin plate is got off from the adhesive layer sur-face peeling of transferring on the label substrate the inside and, with peel ply and adhesive layer with the opposed step 6 that is the folded label substrate of empty attachment state volume.In the 6th invention, the engineering of fissility thin plate is arranged and form adhesive layer owing to possess on thin sheet surface, therefore, adhesive layer is just transferred on the surface of strip label substrate from the engineering thin plate when overlapping with the strip label substrate.According to the 6th invention, since will the engineering thin plate have the adhesive layer that forms on the surface of fissility and,, adhesive layer overlaps because of thereby shifting the strip label surface that possesses cohesible surface, under the normal temperature, adhesive layer is transferred to the inside of strip label substrate from the engineering thin plate, even therefore the less label substrate as thin as a wafer of thermotolerance also can form adhesive layer.And, therefore can not bring influence to label substrate because of solvent etc. because the cementing agent that forms adhesive layer contained solvent when emulsion state shifts the back from the surface of engineering thin plate and forms adhesive layer to remove state.So the selection of binder scope of label substrate and formation adhesive layer is greatly widened, and, be suitable for a spot of production of many kinds.In addition, the engineering thin plate is reusable, therefore can not waste, and can seek the utilization again of resource.

In the 5th invention and the 6th invention, only the step that the adhesive layer surface of engineering thin plate on transferring to the label substrate the inside stripped down, can also comprise that other layer of the stacked label substrate that will be formed by preceding step and engineering thin plate is divided into the step of the width that suits together.In the present invention, engineering thin plate and strip label substrate are cut off with other layer.If the label substrate according to various expectation purpose width forms adhesive layer from the beginning, then can produce the part of waste separately in the both sides of the edge of each label substrate, but according to the present invention, at first prepare the label substrate and the engineering thin plate of strip with the amplitude wideer than the label substrate width of expectation purpose, make it to overlap after having adhesive layer, and they are divided into suitable width meets purpose with formation label substrate, like this, just can make the adhesive layer that on the surface with fissility of engineering thin plate, forms, end forms with the state that some remnants are arranged about the engineering thin plate, and the waste of both sides of the edge partly seldom, can form the label substrate that meets initial purpose width more, extremely useful.

In the 5th or the 6th invention, only with the engineering thin plate from the step that the adhesive layer sur-face peeling of transferring on the label substrate the inside gets off, can also comprise and will be die-cut into the step of suitable width with other layers that form by the stacked label substrate of preceding step.Among the present invention, the engineering thin plate is not cut off, and label substrate and other layer are cut off together.According to the present invention, if prepare the label substrate and the engineering thin plate of strip, make it to overlap after having tack coat, and above-mentioned label substrate is die-cut into suitable tag width by amplitude, just can form the label that meets the initial stage purpose aptly, extremely useful.

In the 5th invention or the 6th invention, form the step of peel ply on the surface of label substrate, also can comprise by on the surface of label substrate, printing.Thereby apply the step that peel ply forms peel ply.Among the present invention, because the peel ply side of label substrate and adhesive layer side are that therefore the continous label that is gathered into folds by volume can uncoiling with the opposed folded label substrate of empty attachment state volume that is.According to the present invention, if have at the engineering thin plate on the surface of fissility and form adhesive layer, the inside of shifting the bonded strip label substrate in back with adhesive layer overlaps, and just can make adhesive layer transfer to the inside of strip label substrate from the engineering thin plate by the effect of engineering thin plate.

In the 5th or the 6th invention, form the step of peel ply on the surface of label substrate, thereby also can be included in the step that the good film of stacked fissility on the surface of above-mentioned label substrate or thin slice form peel ply.Among the present invention, because the peel ply side of label substrate and the sharp layer of a bonding side are to be empty attachment state the label substrate volume is gathered into folds with opposed, thereby the continous label that is gathered into folds by volume can uncoiling.According to the present invention, if have at the engineering thin plate on the surface of fissility and form adhesive layer, the inside of shifting the bonded strip label substrate in back with adhesive layer overlaps, and just can make adhesive layer transfer to the inside of strip label from the engineering thin plate by the effect of the good engineering thin plate of fissility.

The 7th invention is a kind of manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and have at the engineering thin plate step 1 that forms adhesive layer on the surface of fissility and, thereby preparation has the strip label substrate of cohesible the inside because of cementing agent shifts, and the step 2 that the inside of this label substrate is overlapped with the adhesive layer of engineering thin plate and, on the surface of label substrate, form the good printed layers of fissility step 3 and, only the step 4 that the engineering thin plate is got off from the adhesive layer sur-face peeling of transferring on the label substrate the inside and, peel ply and adhesive layer are the step 5 that empty attachment state gathers into folds the label substrate volume with opposed.In the 7th invention, owing to possess engineering thin plate on the surface of thin plate forming adhesive layer with fissility, thereby when adhesive layer overlaps with the strip label substrate, just transfer to the surface of strip label substrate from the engineering thin plate.According to the 7th invention, because the engineering thin plate is had the adhesive layer that forms on the surface of fissility, the strip label substrate that possesses cohesible surface is surperficial to be overlapped with shifting because of tack coat, under the normal temperature, adhesive layer is transferred to the inside of strip label substrate from the surface of engineering thin plate, even therefore the less label substrate as thin as a wafer of thermotolerance also can form adhesive layer.In addition owing to the cementing agent that forms adhesive layer contained solvent when the latex state makes it to shift from the surface of engineering thin plate and forms adhesive layer to remove state, so can not bring influence to label substrate because of solvent etc.So the selection of binder scope of label substrate and formation adhesive layer is greatly widened, and, be suitable for a spot of production of many kinds.In addition, the engineering thin plate is reusable, therefore can not waste, and can seek the utilization again of resource.

In the 7th invention, step 5 can also comprise and will cut into the step of suitable width with other layer that forms by step 1 to 4 stacked label substrate and engineering thin plate.Among the present invention, the engineering thin plate and, the strip label substrate, with other the layer be cut off.If the label substrate according to various expectation purpose width forms adhesive layer from the beginning, then can produce the part of waste separately in the both sides of the edge of each label substrate, but according to the present invention, at first prepare the label substrate and the engineering thin plate of strip with the amplitude wideer than the label substrate width of expectation purpose, make it to have adhesive layer and coincidence then, and they are divided into suitable width meets purpose with formation label substrate, like this, the adhesive layer that the engineering thin plate is had form on the surface of fissility holds the state so that some remnants to be arranged to form about the engineering thin plate, and the waste of both sides of the edge part all seldom, can form the label substrate that meets initial purpose width more, extremely useful.

In the 7th invention, step 5 can also comprise and will be die-cut into the step of suitable width with other layer that forms by step 1 to 4 stacked label substrate.Among the present invention, the engineering thin plate is not cut off, and label substrate is cut off with other layer.According to the present invention, if prepare strip label substrate and engineering thin plate with wide cut, make it to overlap after having adhesive layer, thereby and above-mentioned label substrate is die-cut into suitable width forms suitable tag width, just can form the label that meets the initial stage purpose aptly, exceedingly useful.

In the 7th invention, step 4 also can be included on the surface of label substrate by printing.Apply the good printing-ink of fissility and form the step of printing.In the present invention, because the printed layers of label substrate and/or peel ply side and adhesive layer side are empty attachment state the label substrate volume is gathered into folds with opposed, therefore the continous label that is gathered into folds by volume can uncoiling.According to the present invention, form adhesive layer if having the surface of fissility at the engineering thin plate, the inside of the strip label substrate bonded with adhesive layer transfer back overlaps, and just can make adhesive layer transfer to the inside of strip label substrate from the engineering thin plate by the effect of the good engineering thin plate of fissility.

In the 7th invention, step 4 also can comprise the step that forms the good peel ply of fissility with printed layers on the surface of above-mentioned label substrate.Among the present invention, because the printed layers of label substrate and/or peel ply side and adhesive layer side are the folded label substrate of empty attachment state volume with opposed, so the continous label that the quilt volume gathers into folds can uncoiling.According to the present invention, form adhesive layer if having the surface of fissility at the engineering thin plate, it is overlapped with the inside that is transferred bonded strip label substrate because of the sharp layer that bonds, just can make adhesive layer transfer to the inside of strip label substrate from the engineering thin plate by the effect of the good engineering thin slice of fissility.

The 8th invention is the manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and have at the engineering thin plate step 1 that forms adhesive layer on the surface of fissility and, thereby preparation has the strip label substrate of cohesible the inside because of adhesive layer shifts, and the step 2 that the inside of this label substrate is overlapped with the adhesive layer of engineering thin plate and, on the surface of label substrate, form peel ply step 3 and, only the step 4 that the engineering thin plate is got off from the adhesive layer sur-face peeling of transferring on the label substrate the inside and, peel ply and adhesive layer are the step 5 that empty attachment state gathers into folds the label substrate volume with opposed.In the 8th invention and since possess on the surface of thin plate have fissility the engineering thin plate to form adhesive layer, therefore, when adhesive layer one strip label substrate overlaps, just transfer to the surface of strip label substrate from the engineering thin plate.According to the 8th invention, since with the engineering thin plate have the adhesive layer that forms on the surface of fissility and, because of shifting the surface with the strip label substrate that possesses cohesible surface, adhesive layer overlaps, so adhesive layer is transferred to the inside of strip label substrate under the normal temperature from the surface of engineering thin plate, even therefore the less label substrate as thin as a wafer of thermotolerance also can form adhesive layer.And, owing to the cementing agent that forms adhesive layer contained solvent when the latex state makes it to shift from the surface of engineering thin plate and forms adhesive layer to remove state, so can not bring influence to label substrate because of solvent etc.So the selection of binder scope of label substrate and formation adhesive layer is greatly widened, and, be suitable for a spot of production of many kinds.In addition, the engineering thin plate is reusable, therefore can not waste, and can seek the utilization again of resource.

In the 8th invention, step 1 also can be included on the thin sheet surface and print.Coating remover, preparation have been endowed the step of the engineering thin plate of fissility.Among the present invention, owing to be because of surface printing.Be coated with remover and be endowed on the surface of engineering thin plate of fissility and form adhesive layer, thereby adhesive layer is just transferred to the surface of strip label substrate from the engineering thin plate when overlapping with the strip label substrate.According to the present invention, if the inside of the strip label substrate that can bond after having the adhesive layer that forms on the surface of fissility at the engineering thin plate and shifting because of adhesive layer overlaps, then can make adhesive layer transfer to the inside of strip label substrate from the engineering thin plate by the effect of remover.

In the 8th invention, step 2 also can comprise by wide cut prepares the strip label substrate, and the inside of this label substrate and the adhesive layer of engineering thin plate are overlapped, be cut into suitable width after, the folded step of volume again.Among the present invention, the adhesive layer that forms on the engineering thin plate can be transferred to the inside of label substrate.If the label substrate according to various expectation purpose width forms adhesive layer from the beginning, then can produce the part of waste separately in the both sides of the edge of each label substrate, but according to the present invention, at first prepare strip label substrate and engineering thin plate with the amplitude wideer than the label substrate width of expectation purpose, make it to overlap after having adhesive layer then, and they are divided into suitable width meets purpose with formation label substrate, like this, just can make at the engineering thin plate and have the adhesive layer that forms on the surface of fissility has some remnants with end about the engineering thin plate state formation, and the waste of both sides of the edge part seldom, can form the label substrate that meets initial purpose width more, extremely useful.

In the 8th invention, step 3 and step 4, also can comprise the label substrate uncoiling that will overlap after, form the step of printed layers and/or peel ply.In the present invention, accompany adhesive layer and stacked cylinder shape sandwich uncoiling between label substrate and the engineering thin plate, and form printed layers and/or peel ply.According to the present invention, can form printed layers and/or peel ply aptly at the position that meets the initial stage purpose, extremely useful.

In the 8th invention, step 3 also can comprise by the surface printing in label substrate.Apply the good printing-ink of remover and/or fissility to form the step of peel ply.Among the present invention, because the peel ply side of label substrate and adhesive layer side are that therefore the continous label that is gathered into folds by volume can uncoiling with the opposed folded label substrate of empty attachment state volume that is.According to the present invention, the surface that has fissility at the engineering thin plate forms adhesive layer, if can overlap with the inside of the strip label substrate of bonding after adhesive layer shifts, just can make adhesive layer transfer to the inside of label substrate from the engineering thin slice by the effect of the good printing-ink of remover and/or fissility.

In the 8th invention, step 3 also can be included in the step that the good film of the surperficial stacked fissility of label substrate or thin slice form peel ply.Among the present invention, because the peel ply side of label substrate and adhesive layer side are that therefore the continous label that is gathered into folds by volume can uncoiling with the opposed folded label substrate of empty attachment state volume that is.According to the present invention, the surface that has fissility at the engineering thin plate forms adhesive layer, if can overlap with the inside of the strip label substrate of bonding after adhesive layer shifts, just can make adhesive layer transfer to the inside of strip label substrate from the engineering thin plate by the good film of fissility or the effect of thin slice.

Above-mentioned purpose of the present invention and other purpose, feature be in, part and advantage, and the detailed description of the following examples of being undertaken by the reference accompanying drawing can more clearly understand.

Fig. 1 illustrates the continous label as one embodiment of the invention, (A) is its oblique view, (B) is its sectional view.

One example of the manufacture method of diagram figure presentation graphs 1 illustrated example shown in Fig. 2 illustrates the operation of its first half.

One example of the manufacture method of diagram figure presentation graphs 1 illustrated example shown in Fig. 3 illustrates the operation of half thereafter.

Another example of the manufacture method of diagram figure presentation graphs 1 illustrated example shown in Fig. 4.

Fig. 5 is the sectional view as the continous label of another embodiment of the present invention.

One example of the manufacture method of diagram figure presentation graphs 5 illustrated example shown in Fig. 6.

Fig. 7 is the sectional view as the continous label of the 3rd embodiment of the present invention.

One example of the manufacture method of diagram figure presentation graphs 7 illustrated example shown in Fig. 8.

Fig. 9 is the sectional view as the continous label of the 4th embodiment of the present invention.

One example of the manufacture method of diagram figure presentation graphs 9 illustrated example shown in Figure 10.

Fig. 1 illustrates the continous label as one embodiment of the invention, wherein, (A) is its oblique view, (B) is its sectional view.

Fig. 2 and Fig. 3 are the diagram figure of one of manufacture method of presentation graphs 1 illustrated example example, and Fig. 2 represents the operation of its first half, and Fig. 3 represents latter half of operation.

The continous label 10 of this embodiment is banded by many labels 12 and forms continuously, and cutting off respectively on the border of each label 12 promptly becomes a label 12 separately and used.

And, the pressure-sensitive adhesive layer of transferring to the inside of strip label substrate 14 and forming, just have cohesiveness at normal temperatures and can be formed with the adhesive layer 16 of bonded material bonding with light pressure, and form peeling agent layer 18 in the face side of above-mentioned label substrate 14 as peel ply, and label substrate 14 between on the part on label substrate 14 surfaces, form printed layers 20 as above-mentioned label substrate 14 face side.

Printed layers 20, the border that is separated with each label 12 according to the centre forms the mode of the expression portion of each label 12, is interrupted ground at the expression position of each label 12 with certain interval and forms.

Continous label 10, shown in Fig. 1 (A), before using as label, above-mentioned peeling agent layer 18 sides and above-mentioned adhesive layer 16 are to be empty attachment state label substrate 14 volumes are built up the cylinder shape with opposed.

Among this embodiment, on peeling agent layer side 18 side surfaces of label substrate 14, form heat-sensitive color layer 22.

Strip label substrate 14, in the present embodiment, for example can enumerate plastic sheeting or thin slices such as paper, synthetic paper, viscose paper, polystyrene, polyester, or the isometric strip shape body of aluminium foil, but, must be the starting material that can cut off with mechanical implements such as hand or stapling machines for the bar-shape non-individual body that will not have the crack is cut into each label 12.Its formation can also be that the interval wears crack (not shown)s such as sewing machine hole in accordance with regulations, makes it to be cut into the small pieces of regulation label 12.

The adhesive layer 16 transferring to the inside of label substrate 14 and form is used to each label 12 cohesive force is provided, and for example can come to use the copolymerization of propylene resin, and rubber is known cementing agents such as cementing agent.

At the heat-sensitive color layer 22 that the face side of above-mentioned label substrate 14 forms, for example can contain the temperature-sensitive developer of the potpourri of transparent or monochromatic leuco dye, acidic materials and cementing agent by coating, dry back and forming.In such cases, as leuco dye, can enumerate crystal violet lactone, 3-indolinyl-3-to dimethylamino phenyl-6-dimethylamino phthalein ketone, 3-lignocaine-7-chlorine fluorane, the amino fluorane of 2-lignocaine-7-cyclohexyl, 3-lignocaine-5-methyl-7-tert-butyl group fluorane, 3-lignocaine-6-methyl-7-anilino fluorane, 3-lignocaine-6-methyl-7-to butyl benzene amido fluorane etc.

As acidic materials, for example can enumerate 2,2-two (4 '-hydroxyphenyl) propane, 4-phenylphenol, 4-hydroxyl acetyl benzophenone, 2,2 '-dihydroxybiphenyl, 2,2 '-di-2-ethylhexylphosphine oxide (4-methyl-6-tert-butyl phenol), 4,4 '-isopropylidene xenol, 4,4 '-isopropylidene two (2-chlorophenol), 4,4 '-isopropylidene two (2-cresols), 4,4 '-ethylenebis (2-cresols), 4,4 '-thiobis (6-tert-butyl group-3-cresols) etc.

As cementing agent, for example can enumerate water-soluble or water-based emulsion such as polyvinyl alcohol (PVA), methoxyl cellulose, hydroxyethyl cellulose, carboxymethyl cellulose, polyacrylamide, polyacrylic acid, starch, gelatin, polystyrene-vinyl acetate copolymer etc.

This heat-sensitive color layer 22, thermal print head that can be by adding thermal printer etc. makes its colour developing.

On heat-sensitive color layer 22 side surfaces of label substrate 14, the border that is separated with each label according to the centre forms the such mode in expression position of each label 12, forms printed layers 20.This printed layers 20 can be by using common printing-ink, forms with lithographic plate, relief printing plate or hectographic printing and other known printing process printing.

In the table side of above-mentioned label substrate 14, promptly the peel ply 18 that forms on the surface of temperature-sensitive color layer 22 and printed layers 20 for example can be coated in by printing and bring the removers such as silicones that can be cured under the temperature of influence to form for heat-sensitive color layer 22.

In this embodiment, as the remover that constitutes peel ply 18, also can select to be cured with ultraviolet ray and electron ray, can not bring the material of influence to heat-sensitive color layer 22 as UV silicon (being so-called ultraviolet hardening silicon) and EB silicon (being so-called electron ray curing type silicon) and so on.

Peel ply is also by the good film of fissility or sheet lamination, bonding and form.

Below mainly continue a example to the illustrated manufacture method of Fig. 1 according to Fig. 2 and Fig. 3, describe.

At first prepare to be rolled into the paper of cylinder shape or film or laminar bar-shape engineering thin plate 24 volumes that are made of plastics etc. are built up the object of cylinder shape.24 of this project thin plates use in manufacture process, and are not residual on the continous label of having finished 10.And, at the surface printing of engineering thin plate 24.Removers such as silicon-coating resin or fluororesin form the peel ply 24a with fissility.

Then, on the surface of the peel ply 24a of this project thin plate 24, print.Coating is used for forming the cementing agent 26 of adhesive layer 16.This adhesive coated device 100 comprises 2 cylinder 102a and 102b.The bottom of cylinder 102a is immersed in the cementing agent of storing in the groove 104 26.

Therefore by making cylinder 102a and 102b rotation, just can on the surface of the peel ply 24a of the engineering thin plate 24 that is imported into this position, print coated with adhesive 26.

As the adhesive coated device, can use coating units such as gravure cylinder coating machine, dual coating roller, air knife coating machine, can also use known printing machines such as typewriting printing machine.

Then, printing is coated with the engineering thin plate 24 of cementing agent 26, for example imports the dryer 106 that comprises well heater.In dryer 106, printing is coated in cementing agent 26 on the engineering thin plate 24 and is dried and forms adhesive layer 16.As cementing agent, comprise in use and use dryer under the situation of the solvent-borne type cementing agent that the cementing agent of water soluble resins such as EVA system, vinyl acetate system, acrylic acid series or hydrochloric acid ethene, urethanes, acrylic acid etc. are formed; Under the situation of the hot-melt type adhesive that adopts rubber system, EVA system, use cooler.

At peel ply 24a one side that so forms the engineering thin plate 24 of adhesive layer 16, stacked body paper 14a as label substrate 14.

The body paper 14a of label substrate 14 also forms the width same with engineering thin plate 24, and the surface at the body paper 14a of label substrate 14 has been formed with heat-sensitive color layer 22.

Heat-sensitive color layer 22 with the opposition side of above-mentioned adhesive layer 26 on form.

So, before the stacked operations such as printing of sandwich 30 below importing of engineering thin plate 24, adhesive layer 26 and label substrate 14, with stacked state in advance according to the akin width of width as the continous label 10 of end article, with slitting shears 108 cuttings, cut the back volume and build up the cylinder shape.

The non-individual body of this project thin plate 24 and label substrate 14 has adhesive layer 26 sandwich 30 stacked and that adhered to by void and is rolled into the cylinder shape; Sandwich 30 is imported into the printing and the remover coating unit of the subsequent processing shown in Fig. 3 under the state that is rolled into the cylinder shape.

Subsequently, the cylinder shape sandwich 30 that is rolled into stacked cylinder shape of sandwich 30 is loaded in the manufacturing installation shown in Fig. 3, and after sandwich 30 uncoilings, importing is used to form in the printing equipment 110 of printed layers 20.This device 110 is used to print the expression position that constitutes each label 12, for example the figure that constitutes with literal such as the known printing equipment printing trader names of an article such as lithographic plate, relief printing plate or hectographic printing and suitable pattern etc.

Then, the sandwich 30 that is formed with printed layers 20 is imported into the remover coating unit 120 that is used for forming peel ply 18 on the surface of the printed layers 20 of label substrate 14.This remover coating unit 120 comprises master rotor 122a and and cylinder 122b that be provided with relative with this master rotor 122a.And, master rotor 122a, its underpart is immersed in the remover of storing in the groove 124 32, on the surface of the label substrate 14 that is clipped in the sandwich 30 between master rotor 122a and the cylinder 122b, applies remover 32 by master rotor 122a.Subsequently, the sandwich 30 that printing was applied remover 32 moves in the dryer 126 that for example comprises well heater.In dryer 126, the remover drying that printing is coated on the sandwich consequently forms peel ply 18.Then, the continous label 10 that is laminated of peeling agent layer 18 and sandwich 30 is imported into next engineering thin plate and removes device 130.The engineering thin plate is removed device 130, comprises cylinder 132, and from the sur-face peeling engineering thin plate 24 of the adhesive layer 16 of sandwich 30, it is recycling in other purposes to be rolled into the cylinder shape.

On the other hand, constitute the sandwich 30 of continous label 10, further the width according to optimum continous label 10 cuts off processing both sides of the edge or lateral edges with slitting shears 140 on one side, on one side volume build up the cylinder shape.But, only also can resemble adhesive layer 16, printed layers 10 and heat-sensitive color layer 22 cut off processing and carry out die-cut like that.

Fig. 4 is another routine diagram figure of manufacture method of presentation graphs 1 illustrated example.In the example shown in Fig. 4, different with Fig. 2 and example shown in Figure 3, omitted slitting shears 108, imported at the sandwich 30 that will be laminated before the operation such as next printings, cut without slitting shears 108 by engineering thin plate 24, adhesive layer 26 and label substrate 14.And sandwich 30 is not rolled up and is built up the cylinder shape, just is imported in the printing etc. and remover coating unit of subsequent processing.

In the example shown in Fig. 4, alternate figures 2 and Fig. 3 illustrate the slitting shears 140 in the example, have formed bicker 140a.And, constitute the sandwich 30 of continous label 10, further according to the width of optimum continous label 10 bicker 140a, with printed layers 20, heat-sensitive color layer 22, peel ply 18 and the adhesive layer 16 of label substrate 14 with other, on one side Punching Technology both sides of the edge or a lateral edges roll up on one side and build up the cylinder shape.

On the other hand, engineering thin plate 24 is just adjusted with bicker 140a Punching Technology the time, thereby can be kept original wide cut state owing to die-cut remaining with original state without bicker 140a.And because adhesive layer 16 is transferred to label substrate 14 sides, thereby the engineering thin plate can be reused.

Fig. 5 is the sectional view as the continous label of second embodiment of the invention, and Fig. 6 is the diagram figure of manufacture method one example of presentation graphs 5 illustrated example.

In the continous label 10 of this embodiment, the position that does not form peeling agent layer 18 in label substrate 14 face side forms the 1st printed layers 21a with the good printing-ink of fissility, and, and label substrate 14 between form the 2nd printed layers 21b on a part of surface in label substrate 14.In the present embodiment, also on the side surface of the peeling agent layer side 18 of label substrate 14, form temperature-sensitive developer layer 22.Just, peeling agent layer 18 is that face side in label substrate 14 is to form on the surface of temperature-sensitive color layer 22 and the 2nd printed layers 21b.

The 2nd printed layers 21b forms by common printing-ink, and it is such that the border that is separated with each label 12 according to the centre forms the expression portion of label 12, forms discontinuously at certain intervals between the expression portion of each label 12.

Just, in the present embodiment, be separated with the 2nd printed layers 21b at the expression position that the border of each label 12 forms in the middle of on heat-sensitive color layer 22 side surfaces of label substrate 14, also forming with each label 12.The 2nd printed layers 21b uses general printing-ink, by lithographic plate, relief printing plate, and hectographic printing and other known printing process printing and form.But, also can not form this 2 printed layers 21b.

The continous label 10 of Fig. 5 illustrated example, bear the label substrate 14 of first half and the sandwich 30 of engineering thin plate 24 in the manufacturing process, by the device manufacturing identical with Fig. 2 illustrated example, but bear the manufacturing installation of latter half in the manufacture method of the continous label 10 of this Fig. 5 illustrated example, shown in Figure 6.

Sandwich 30 is rolled into the cylinder shape sandwich 30 of stacked cylinder shape, in the manufacturing installation shown in the load map 6, after sandwich 30 uncoilings, imports the printing equipment 110 that is used to form the 2nd printed layers 21b.This printing equipment 110 can print the expression part that constitutes name label 12, for example, and the figure of forming by literal such as known printing equipment printing trader such as lithographic plate, relief printing plate or the hectographic printing name of an article and suitable pattern etc.

Then, the sandwich 30 that is formed with the 2nd printed layers 21b is imported into the remover coating unit 120 that is used for forming peeling agent layer 18 on the surface of the 2nd printed layers 21b of label substrate 14.This remover coating unit 120 comprises master rotor 122a and and cylinder 122b that be provided with relative with this master rotor 122a.And, master rotor 122a, its underpart is immersed in the remover of storing in the groove 124 32, applies remover 32 with master rotor 122a on the surface of the label substrate 14 that is clipped in the sandwich 30 between master rotor 122a and the cylinder 122b.

Then, the sandwich 30 that printing was applied remover 32 moves on in the dryer 126 that for example comprises well heater.In dryer 126, be dried and form peeling agent layer 18 thereby printing is coated in remover 32 on the sandwich.

Then, import printing equipment 115,, form the 1st printed layers 21a with the good printing-ink of fissility so that at the position that does not form peel ply of sandwich 30.Then, will deliver in the dryer 117 by the sandwich 30 that this printing equipment 115 is formed with printed layers 21a.

And the continous label 10 that is laminated by the 1st printed layers 21a, peel ply 18 and sandwich 30 is imported into next engineering thin plate and removes in the device 130.The engineering thin plate is removed device 130 and is comprised cylinder 132, can be used to the adhesive layer 16 sur-face peeling engineering thin plates 24 from sandwich 30, then it is rolled into the cylinder shape, utilizes for other purposes again.

On the other hand, constitute the sandwich 30 of continous label 10,, cut off processing both sides of the edge or a lateral edges on one side with slitting shears 140 further according to the optimum width of signing non-individual body 10 that shows, on one side it is rolled into the cylinder shape.But, also can use die-cut.

Fig. 7 is the sectional view of the continous label of the 3rd embodiment of the present invention, and Fig. 8 is the diagram figure of one of manufacture method of presentation graphs 7 illustrated example example.

This continous label 50, different with Fig. 1 illustrated example and Fig. 5 illustrated example, form peeling agent layer 58 on the surface of label substrate 54.And then form the 1st printed layers 60 on the surface of peeling agent layer 58.But, it is identical with Fig. 1 illustrated example and Fig. 5 illustrated example to form adhesive layer 56 this point in the inside of label substrate 54, and it is also identical with Fig. 1 illustrated example and Fig. 5 illustrated example to form heat-sensitive color layer 62 this point on the surface of label substrate 54.

In addition, as the printing-ink that forms the 1st printed layers 60, must select himself to have the printing-ink of fissility.

The formation of the continous label 50 of Fig. 7 illustrated example is, bear the label substrate 54 of first half and the sandwich 70 of processing sheet 64 in the manufacturing process, by the device manufacturing identical with Fig. 2 illustrated example, and in the manufacture method of the continous label 50 of this Fig. 7 illustrated example, bear the manufacturing installation of latter half, shown in Fig. 8 illustrated example, by label substrate 54 surface printings of remover coating unit 220 at sandwich 70. apply in the remover 72, the solidification equipment that solidifies with the remover 72 that printing is applied makes it to solidify back formation peel ply 58, in its lower floor, form printed layers 60 on the surface of peeling agent layer 58 by printing equipment 210.

In this Fig. 8 illustrated example, different with Fig. 3 illustrated example and Fig. 6 illustrated example, slitting shears 240 as the optimum width device that label substrate 54 is adjusted to continous label 50 is cut engineering thin plate 64 in order to remove device 230 by the engineering thin plate after adhesive layer 56 strips down, be set to be built up cylinder shape lower floor before by volume.

Fig. 9 is the sectional view as the continous label of the 4th embodiment.Figure 10 is the diagram figure of one of manufacture method of presentation graphs 9 illustrated example example.

This continous label 50, different with Fig. 1 illustrated example and Fig. 5 illustrated example, form printed layers 60 on the surface of label substrate 54.And then form the peel ply 58 that constitutes by good transparent membrane of fissility or thin slice on the surface of printed layers 60.But, adhesive layer 56 this point that form in the inside of label substrate 54 are identical with Fig. 1 illustrated example and Fig. 5 illustrated example, and it is also identical with Fig. 1 illustrated example and Fig. 5 illustrated example to form heat-sensitive color layer 62 this point on the surface of label substrate 54.

The formation of the continous label 50 of Fig. 9 illustrated example is, bear the label substrate 54 of first half and the sandwich 70 of processing sheet 64 in the manufacturing process, by the device manufacturing same with Fig. 3 illustrated example, and in the manufacture method of this Fig. 9 illustrated example, bear the manufacturing installation of latter half, as Figure 10 illustrated example, on the surface of heat-sensitive color layer 62, form printed layers 60 by printing equipment 210, apply remover to form the method for peel ply at the label substrate surface printing of sandwich but will change over by the remover coating unit.Its formation is, makes the transparent or semitransparent film 58a volume that forms peel ply 58 folded, forms adhesive layer 58b in the inside of film 58a, forms peel ply thereby by the cohesive force of its adhesive layer 58 film 58 is bonded on the surface of printed layers 58.

In this Figure 10 illustrated example, different with Fig. 3 illustrated example, Fig. 4 illustrated example and Fig. 6 illustrated example, slitting shears 240 as the optimum width device that label substrate 54 is adjusted to continous label 54, in order to remove device 230 engineering thin plate 64 is cut after adhesive layer 56 strips down, be set at and built up cylinder shape lower floor before by volume by the engineering thin plate.

The present invention is not restricted to the described embodiments, and may carry out various variations.For example, in Fig. 1 illustrated example, also can form the printed layers of peel ply of holding concurrently on peeling agent layer surface as peel ply.In such cases, as the printing-ink that forms printed layers, must select himself to have the printing-ink of fissility so that form peel ply.

The present invention has been described in detail by diagram, but it is the explanation of carrying out with a simple diagram and an example, does not therefore obviously should be understood to limited by this, and spirit of the present invention and scope are only limited by the claim of enclosing.

Claims (30)

1. continous label, it comprises: strip label substrate and the adhesive layer that forms in the inside of above-mentioned label substrate and, the heat-sensitive color layer that forms in the face side of above-mentioned label substrate and; When label substrate is rolled up when folded, the peel ply that forms in face side with the opposed label substrate of above-mentioned adhesive layer.

2. continous label, it comprises: the strip label substrate and, the adhesive layer that forms in the inside of above-mentioned label substrate and, the heat-sensitive color layer that forms in the face side of above-mentioned label substrate, the printed layers that on the surface of the heat-sensitive color layer of the face side of above-mentioned label substrate, forms and, when label substrate is rolled up when folded, the peel ply that forms in face side with the opposed label substrate of above-mentioned adhesive layer.

3. according to each described continous label in claim 1 or 2, wherein, above-mentioned peel ply is to apply remover by printing to form.

4. according to each described continous label in claim 1 or 2, wherein, above-mentioned peel ply is that good film of fissility or sheet lamination get up and form.

5. continous label, it comprises: the strip label substrate and, the adhesive layer that forms in the inside of above-mentioned label substrate and, the heat-sensitive color layer that forms in the face side of above-mentioned label substrate and, when label substrate is rolled up when folded, the good printed layers of fissility that forms in face side with the opposed label substrate of above-mentioned adhesive layer side.

6. continous label according to claim 5, wherein, above-mentioned printed layers is to form by printing application to printed printing ink.

7. according to each the continous label of stating in claim 5 or 6, wherein, peel ply is with above-mentioned printed layers, when label substrate is rolled up when folded, with the face side of the opposed label substrate of above-mentioned adhesive layer side on form.

8. continous label, it comprises: the strip label substrate and, transfer to the inside of above-mentioned label substrate and the adhesive layer that forms and, the peel ply that forms in the face side of above-mentioned label substrate; It is that above-mentioned peel ply side and above-mentioned adhesive layer side are folded the forming of empty attachment state volume with opposed.

9. continous label according to claim 8 wherein, forms printed layers on the surface of label substrate, forms peel ply on the surface of printed layers.

10. continous label according to claim 8, wherein, printed layers is the surface of label substrate, forms on the surface of peel ply, and is to form with the good printing-ink of fissility.

11. each described continous label in 10 wherein, forms heat-sensitive color layer on the surface of label substrate and adhesive layer opposition side according to Claim 8.

12. each described continous label in 11 according to Claim 8, wherein, above-mentioned peel ply is to apply remover and/or printing-ink forms by printing.

13. each described continous label in 11 according to Claim 8, wherein, above-mentioned peel ply is to be formed by fissility good film or sheet lamination.

14. the manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and form on the surface that above-mentioned engineering thin plate has a fissility adhesive layer step 1 and, prepare promptly to possess after above-mentioned adhesive layer shifts the strip label substrate of cohesible the inside, and the step 2 that the adhesive layer of the inside of this label substrate and above-mentioned engineering thin plate is overlapped and, form on the surface of above-mentioned label substrate peel ply step 3 and, only the step 4 that above-mentioned engineering thin plate is got off from the adhesive layer sur-face peeling of transferring to above-mentioned label substrate the inside and, above-mentioned peel ply and above-mentioned adhesive layer are the step 5 that empty attachment state gathers into folds the label substrate volume with opposed.

15. the manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and form on the surface that above-mentioned thin plate has a fissility adhesive layer step 1 and, prepare promptly to possess after above-mentioned adhesive layer shifts the strip label substrate of cohesible the inside, and the step 2 that the adhesive layer of the inside of this label substrate and above-mentioned engineering thin plate is overlapped and, form on the surface of above-mentioned label substrate printed layers step 3 and, form on the surface of above-mentioned label substrate peel ply step 4 and, only the step 5 that above-mentioned engineering thin plate is got off from the adhesive layer sur-face peeling of transferring to above-mentioned label substrate the inside and, above-mentioned peel ply and above-mentioned adhesive layer are the step 6 that empty attachment state gathers into folds the label substrate volume with opposed.

16. manufacture method according to each described continous label in claim 14 or 15, wherein, only will go up the engineering thin plate from the step that the adhesive layer sur-face peeling of transferring to above-mentioned label substrate the inside gets off, and comprise and to cut into the step of suitable width by the stacked label substrate of preceding step and engineering thin plate with other layer that forms.

17. manufacture method according to each described continous label in claim 14 or 15, wherein, only with above-mentioned engineering thin plate from the step that the adhesive layer sur-face peeling of transferring to above-mentioned label substrate the inside gets off, comprise the label substrate stacked by preceding step and engineering thin plate are die-cut into the step of suitable width with other layer that forms.

18. according to the manufacture method of each described continous label of claim 14 to 17, wherein, on the surface of above-mentioned label substrate, form the step of peel ply, apply the step that remover forms peel ply thereby be included in above-mentioned label substrate surface printing.

19. manufacture method according to each described continous label in the claim 14 to 17, wherein, on the surface of above-mentioned label substrate, form the step of peel ply, thereby be included in the step of good film of the stacked fissility in above-mentioned label substrate surface or thin slice formation peel ply.

20. the manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and form on the surface that above-mentioned thin plate has a fissility adhesive layer step 1 and, prepare promptly to possess after above-mentioned adhesive layer shifts the strip label substrate of cohesible the inside, and the step 2 that the adhesive layer of the inside of this label substrate and above-mentioned engineering thin plate is overlapped and, form on the surface of above-mentioned label substrate the good printed layers of fissility step 3 and, only the step 4 that above-mentioned engineering thin plate is got off from the adhesive layer sur-face peeling of the inside of transferring to above-mentioned label substrate and, above-mentioned peel ply and above-mentioned adhesive layer are the step 5 that empty attachment state gathers into folds the label substrate volume with opposed.

21. the manufacture method of continous label according to claim 20, wherein, step 4 comprises and will be cut into the step of suitable width together to 3 stacked label substrate and engineering thin plate and other layer of forming by step 1.

22. the manufacture method of continous label according to claim 20, wherein, step 4 comprises and will be die-cut into the step of suitable width together to 3 stacked label substrate and other layer of forming by step 1.

23. according to the manufacture method of each described continous label in the claim 20 to 22, wherein, step 3, printing applies the step that the good printing-ink of fissility forms printed layers on the surface of above-mentioned label substrate thereby be included in.

24. according to the manufacture method of each described continous label in the claim 20 to 22, wherein, step 3 comprises the step that forms the good peel ply of fissility with above-mentioned printed layers on the surface of above-mentioned label substrate.

25. the manufacture method of continous label, it comprises: the surface of preparing one of them side has the engineering thin plate of fissility, and form on the surface that above-mentioned engineering thin plate has a fissility adhesive layer step 1 and, prepare promptly to possess after above-mentioned adhesive layer shifts the strip label substrate of cohesible the inside, and the step 2 that the adhesive layer of the inside of this label substrate and above-mentioned engineering thin plate is overlapped and, form on the surface of above-mentioned label substrate peel ply step 3 and, only the step 4 that above-mentioned engineering thin plate is got off from the adhesive layer sur-face peeling of the inside of transferring to above-mentioned label substrate and, above-mentioned peel ply and above-mentioned adhesive layer are the step 5 that empty attachment state gathers into folds the label substrate volume with opposed.

26. the manufacture method of continous label according to claim 25 wherein, applies the engineering thin plate step that remover prepares to be endowed fissility thereby step 1 is included in the surface printing of thin plate.

27. manufacture method according to each described continous label in claim 25 or 26, wherein, step 2 comprises the label substrate of preparing strip with wide cut, makes the inside of this label substrate overlap, cut into above-mentioned engineering thin plate and suits to roll up the step that gathers into folds behind the width.

28. the manufacture method of continous label according to claim 27, wherein, step 3 and step 4 comprise the step that will be formed printed layers and/or peel ply after the label substrate uncoiling that gathers into folds of volume.

29. according to the manufacture method of each described continous label in claim 25 or 26, wherein, thereby step 3 is included in the surface printing coating remover of above-mentioned label substrate and/or the step that the good printing-ink of fissility forms peel ply.

30. according to the manufacture method of each described continous label in claim 25 or 26, wherein, thereby step 3 is included in the step that the good film of stacked fissility on the surface of above-mentioned label substrate or thin slice form peel ply.

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