CN110494296A - For manufacturing the method and its application of multiple-unit band - Google Patents
For manufacturing the method and its application of multiple-unit band Download PDFInfo
- Publication number
- CN110494296A CN110494296A CN201880024545.2A CN201880024545A CN110494296A CN 110494296 A CN110494296 A CN 110494296A CN 201880024545 A CN201880024545 A CN 201880024545A CN 110494296 A CN110494296 A CN 110494296A
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- China
- Prior art keywords
- structuring
- unit
- segment
- unit band
- breadth
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B42—BOOKBINDING; ALBUMS; FILES; SPECIAL PRINTED MATTER
- B42D—BOOKS; BOOK COVERS; LOOSE LEAVES; PRINTED MATTER CHARACTERISED BY IDENTIFICATION OR SECURITY FEATURES; PRINTED MATTER OF SPECIAL FORMAT OR STYLE NOT OTHERWISE PROVIDED FOR; DEVICES FOR USE THEREWITH AND NOT OTHERWISE PROVIDED FOR; MOVABLE-STRIP WRITING OR READING APPARATUS
- B42D25/00—Information-bearing cards or sheet-like structures characterised by identification or security features; Manufacture thereof
- B42D25/30—Identification or security features, e.g. for preventing forgery
- B42D25/355—Security threads
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H21/00—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
- D21H21/14—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties characterised by function or properties in or on the paper
- D21H21/40—Agents facilitating proof of genuineness or preventing fraudulent alteration, e.g. for security paper
- D21H21/42—Ribbons or strips
Abstract
The present invention relates to a kind of methods for manufacturing multiple-unit band (20).Multiple-unit segment (21) are manufactured on intermediate vector (30), wherein the multicell area for being applied to target substrate is arranged in multiple-unit segment (21).Two outer segments (22) are manufactured in intermediate vector for each multiple-unit segment (21), wherein the perimeter for being applied to target substrate is arranged in described two outer segments (22).Described two outer segments (22) and multiple-unit segment (21) form multiple-unit band.In order to which multiple-unit band (20) to be applied in target substrate, pre- structuring is carried out to two outer segments (22) of multiple-unit band (20) in intermediate vector.Intermediate vector is intermediate vector breadth (30), and multiple multiple-unit bands (20) are abreast manufactured on the intermediate vector breadth.Intermediate vector breadth (30) is cut into multiple strip portion breadths (32), is respectively disposed with multiple multiple-unit bands (20) through pre- structuring along length on the strip portion breadth with following one another.
Description
The present invention relates to a kind of method for manufacturing multiple-unit band, the multiple-unit band is arranged for being applied to mesh
It marks in substrate, the invention further relates to multiple-unit band and is related to respective application for being applied in target substrate.
Data medium such as valuable document or certificate, and other valuables such as name brands, for safety guarantee
It is usually equipped with Security element, the Security element realizes the inspection of the authenticity of data carriers and at the same time being used as prevents
The protection of duplication without permission.Security element for example can integrate in the substrate of data medium or be applied to data medium
Substrate on.
Known different method is used to individual Security element position being accurately applied to individual data medium.
In layout part (Mehrfachnutzen), the big version of banknote for example including multiple individually units (or being single plate part)
(Banknotenbogen) on, multiple-unit band (Mehrnutzenstreifen) can be applied, the multiple-unit band (or
Referred to as layout item) on be disposed with multiple Security elements with following one another.Multiple-unit band relative to layout part position very much
It is unessential under applicable cases.However, also locally desired locations accurately apply in some cases.
Suggested in 2 848 425 A2 of EP follow one another ground and spaced reciprocally as the continuous of intermediate vector
Multiple Security elements are manufactured on breadth.Security element is accurately fabricated to the form that they should be applied in target substrate.
In alternative solution, makes a manufactured region before being applied to target substrate and/or be applied to
With the outer shape of Security element when target substrate.
Technical problem to be solved by the present invention lies in provide a kind of flexible method, the method has specifically ensured that good
Good positioning.
The technical problem is solved by the present invention by the feature of independent claims.Extension design of the invention is appurtenance
The theme that benefit requires.
Method for manufacturing multiple-unit band of the invention at least has follow steps.It is manufactured in intermediate vector mostly single
First segment, wherein the multicell area for being applied to target substrate is arranged in multiple-unit segment.For each multiple-unit segment
Two outer segments are manufactured in intermediate vector, the perimeter for being applied to target substrate is arranged in the outer segments.
Multiple-unit band is collectively formed in two outer segments of multiple-unit segment and multiple-unit segment.In order to which multiple-unit band is applied to
In target substrate, pre- structuring (vorstrukturieren) is carried out to the outer segments of multiple-unit band in intermediate vector.
Intermediate vector is intermediate vector breadth, and multiple multiple-unit bands are abreast manufactured on the intermediate vector breadth.Centre is carried
Body breadth is cut into multiple strip portion breadths, is respectively disposed with following one another on the strip portion breadth along length
Multiple multiple-unit bands through pre- structuring.
Next multiple-unit band can be transmitted to target substrate by traditional equipment.In pre- structuring there may be
Position inaccuracy will not have an adverse effect to the positioning of multiple-unit segment.
In addition, avoiding influence of the multiple-unit segment by pre- structuring by the pre- structuring in outer segments.It is mechanical
Pre- structuring for example may cause deformation, by laser carry out optical pre- structuring for example may cause mentioning for adhesive glue
Preceding calorifics activation, and the pre- structuring of chemistry may for example be entered in multiple-unit segment due to diffusion effect.
Pre- structuring is carried out before intermediate vector breadth is cut into strip portion breadth with lot of advantages, below also
It will be explained in detail the advantage.
Preferably for the multiple-unit band being abreast on intermediate vector breadth, the ground that offsets each other along longitudinal direction carries out pre-
Structuring.By the offsetting of pre- structuring can spatially be distributed (and therefore locally reducing) as caused by pre- structuring,
Possible, especially mechanical intermediate vector breadth load.
Outer segments preferably include minimum segment and pre- structuring segment, and the minimum segment is applied in target substrate.
For the multiple-unit band that two (adjacent or) follow one another, can between two outer segments, it is especially pre- at two
There are intermediate regions between structuring segment.
Pre- structuring offsetting can independently be realized with position of the multiple-unit segment on intermediate vector breadth.For example, simultaneously
The multiple-unit segment of row can be on intermediate vector breadth with not offsetting each other (in the same manner).The position of pre- structuring can be
Change in pre- structuring segment (and/or intermediate region).Alternately or supplement, the length of minimum segment can change, so as to
Obtain pre- structuring offsetting amount.
The ground manufacture it is particularly preferred that multiple-unit band at least side by side offsets each other along longitudinal direction.Multiple-unit band is in
Between offsetting on carrier breadth can be conducive to pre- structuring and offset, that is, generate or increase pre- structuring and offset.
If the multiple-unit band side by side offsets, ground carries out pre- structuring, and pre- structuring offsetting amount is preferably greater than
4mm。
Multiple-unit band is applied to the process in target substrate with position of related features to carry out.The position of related features depends on
In used equipment and 0.5 is generally between 1mm, however is lower than 2mm under any circumstance.Here, position of related features
Indicate physical location of the multiple-unit band in target substrate relative to reference position, namely multicell area position most
Large deviation.
Pre- structuring offsetting amount is preferably greater than twice of position of related features.The position that minimum segment is particularly preferably more than twice is public
Difference.
Pre- structuring tolerance can be greater than position of related features herein.Through the solution of the invention, pre- structuring tolerance
Size does not influence alignment tolerance.Namely much less expensively and with less control progress can be expended in pre- structuring with cost
Processing.
In preferred design scheme, the intermediate vector breadth includes main carriers and secondary carrier.Secondary carrier is logical
Often it is pasted on main carriers.The advantages of this design scheme is, can the pre- structuring the step of in only change secondary load
Body.Main carriers are not included in pre- structuring.Adhesive phase preferably has 2 to 3 μm of thickness.
In a kind of design scheme, before the pre- structuring step of multiple-unit band, main carriers are pasted secondary
It (is pasted on secondary carrier in back side) on carrier.Especially if pre- structuring is carried out by laser irradiation, it is contemplated that borrowing
Barrier layer, such as layers of copper protection main carriers helping impermeable laser, that main carriers are set between secondary carrier.
In a kind of particularly preferred design scheme, after the pre- structuring step of multiple-unit band, just will mainly it carry
Body is pasted on secondary carrier and (is pasted on secondary carrier in back side).It is flexible when this design scheme improves pre- structuring
Property and it ensure that required stability.From require relatively paste different main carriers and/or can differently tie
Structure.Main carriers breadth pastes on the back side of secondary carrier breadth, advance of the paste process in cutting intermediate vector
Row.Later stickup especially realizes pre- structuring in combination with offsetting when necessary, and the pre- structuring is in banded portion framing
Main carriers (and multiple-unit band) is cut off, removes or cut out on the entire width in face.
In the pre- structuring the step of, especially mechanically, chemically or irradiation ground carries out manufactured outer segments
Pre- structuring.The pre- structuring, which is equivalent to, locally or regionally changes manufactured outer segments.Pre- structuring is logical
Often extend on the entire width of strip portion breadth (or in the length of pre- structuring segment).Pre- structuring especially can be with
Dirt for avoiding for example generating due to the clast of multiple-unit segment, such as exact for the multiple-unit segment with coining paint layer
As known.It is reliably applied in target substrate however, pre- structuring can also equally be beneficial to auxiliary, especially otherwise
Attachment issue may occur when intermediate vector and multiple-unit segment are detached from.Pre- structuring as illuminaton especially can be considered
Laser irradiation, method UV irradiation and/or be based on (super) sound wave.Mechanical pre- structuring may include perforation, punching, punching press
Or it squeezes.The pre- structuring of chemical formula may include that local removal (corrosion) or the change of part (such as make crisp pressure
Print paint local softening).Pre- structuring can be designed as individual pre- structuring, be designed as the duplicate pre- structure in partial region
Change or be designed as the unified or duplicate pre- structuring in entire pre- structuring segment.Pre- structuring can equally tie in advance
The area of structure segment perhaps extends mode especially on area or entire area according to figure on entire area
Case or meander shape carry out continuous pre- structuring.
It is particularly preferred that the outer segments of two adjacent multiple-unit segments are jointly by pre- structuring.The two outside segments
Duan Youqi may include common pre- structuring segment.Alternatively, the pre- structuring segment that is separated there are two and optionally
There are intermediate regions, wherein pre- structuring segment (and intermediate region) is jointly and uniformly by pre- structuring.
Advantageously, in the step of manufacturing outer segments, manufacture is for opposite mesh at least one described outer segments
The positioning aid and/or production identifier of substrate positioning multiple-unit segment are marked, the production identifier positively identifies mostly single
First band, strip portion breadth and/or intermediate vector breadth.If positioning aid and multiple-unit segment are jointly --- and
Be not have no truck with ground, as in pre- structuring --- manufacture, then do not generate additional tolerance.Produce identifier at least
Indicate multiple-unit band, strip portion breadth and/or intermediate vector breadth correspondingly in production system.Therefore it can examine
It surveys and stores which component was processed or which component is at least partially contained within which final products, in such as banknote.
Manufactured multiple-unit segment is the multilayered structure for including at least three sublayers.The multilayered structure especially include to
Few three or less sublayers: the first coining paint layer, the second coining paint layer, reflector layer, protective layer, peeling layer and/or adhesive layer.
The multiple-unit band of the method according to the invention manufacture is for being applied to target substrate, to make multiple-unit segment
On multicell area in target substrate and outer segments are on the perimeter of target substrate.More particularly to have
Multiple multiple-unit bands of the different outer segments of length are applied in target substrate when necessary.In a subsequent step, make
Intermediate vector is detached from the multiple-unit band applied.By cutting the more of the target substrate with applied multiple-unit band
Unit area can generate individually unit.
Other embodiments of the invention and advantage are illustrated below according to attached drawing, are not drawn in the display of attached drawing
It ruler and proportionally presents, to improve intuitive.
In the accompanying drawings:
Fig. 1 illustrates the big version of multiple-unit (Mehrnutzenbogen) with the multiple-unit band applied to overlook;
Fig. 2 illustrates each individual segment of two multiple-unit bands on strip portion breadth to overlook;
Fig. 3 shows intermediate vector breadth, with multiple multiple-unit bands arranged with offsetting on strip portion breadth;
Fig. 4 shows intermediate vector breadth, only has adjacent multiple-unit band to offset each other on the intermediate vector breadth
Ground arrangement;
Fig. 5 shows intermediate vector breadth, has in the case where offsetting arranging pre- structuring and does not arrange with not offsetting
Multiple-unit segment;
Fig. 6 shows substrate together with the cross section of the band applied as individually unit;
The two-layer equation intermediate vector that Fig. 7 shows secondary carrier of the cutting with multiple-unit band and punching obtains transversal
Face;
Fig. 8 shows the cross section that cutting is obtained with the intermediate vector of multiple-unit band and pre- structuring;And
Fig. 9 shows the strip portion breadth in outer segments with positioning aid.
Target substrate 10 is shown in FIG. 1, multiple-unit band 20 has been applied in the target substrate.Using as production
The example of the banknote of product is set out, and target substrate 10 is the big version of a banknote substrate and multiple-unit band 20 is for multiple banknotes
Anti-counterfeiting code.
Target substrate 10 includes multicell area 12 and perimeter 16.Multicell area 12 is according to the rules by multiple independent
Unit 14 forms.The length L12 of multicell area is equivalent to more times of the length L14 of individually unit.Showing has four to multiply four
The multicell area of a individually unit.Perimeter 16 surrounds multicell area 12.It is for example formed later by each individually unit
One banknote.
Four multiple-unit bands 20 are applied in target substrate 10.There are four individually all in tool for each multiple-unit band 20
On the multicell area 12 of unit 14 and on perimeter 16.The length L20 of multiple-unit band is intentionally greater than mostly single
The length L12 in first region.
Each independent segment of multiple-unit band and corresponding length are shown specifically in Fig. 2.
Fig. 2 illustrates two multiple-unit bands 20 and 20A to overlook, and the multiple-unit band is still arranged in because in it
Lower section and in the intermediate vector that shows not in the drawings.Multiple-unit band 20,20A include multiple-unit segment 21,21A and every
It include outer segments 22,22A on side.Multiple-unit segment 21 is between two outer segments, but is only shown respectively in Fig. 2
Go out one of them, that is, shows the outer of the outer segments 22 on the right side of multiple-unit band 20 and the left side of multiple-unit segment 20A
Portion segment 22A.The length L21 of multiple-unit segment 21 is equivalent to the length of the multicell area for the target substrate that it should be applied to
It spends (L21=L12).
Two outer segments --- jointly with multiple-unit segment --- are at least partly also applied in target substrate,
It is applied on the perimeter of target substrate.Therefore, the length of the multiple-unit band applied by multiple-unit segment length
And the length composition of two outer segments.If such as two outer segments length are identical, are applicable in: L20=L21+2*
L22.If two (right side with left side) outer segments length are different, be applicable in: the left side L20=L21+L22_+L22_ is right.
It can be optionally between two multiple-unit bands 20 to follow one another and two outer segments 22 and 22A of 20A
Intermediate region 23 is set, and the intermediate region is not provided with for target substrate (not being applied to target substrate).
In intermediate vector, pre- structuring can be carried out by different means and different effects.The pre- structuring
It prepares for multiple-unit band to be applied in target substrate.
It can be seen that pre- structuring 24 can limit outer segments 22 such as in Fig. 2.By there is the pre- of restriction effect
Structuring, being formed in intermediate vector be applied to the outer segments 22 in target substrate with its preset length L22.
It is external that outer segments in intermediate vector can be divided into the minimum that be applied to its length L26 in target substrate
Segment 26 and pre- structuring segment 27.Pre- structuring 24 at this moment can place be arranged in pre- structuring segment at an arbitrary position when necessary
In 27.The length L22 of outer segments is in range: L26 < L22 < L26+L27.
If pre- structuring 24 is to limit the pre- structuring of (length), pre- structuring 24 is in pre- structuring segment 27
Position has determined the length L22 of outer segments to be applied.For example, pre- structuring 24 can be by being formed in intermediate vector
Multilayered structure be removed formula laser irradiation realize.In other examples, pre- structuring mechanically, chemically or passes through
Other (non-laser) irradiation is realized particularly by change and/or removal.Multilayered structure can be only in the edge of outer segments 22
Locally by pre- structuring, in the present embodiment: removal, or in the whole region of edge for ending in outer segments 22
By pre- structuring (such as removal).
However, the pre- structuring 24 in intermediate vector may be designed in (length) variable pre- structuring.By tying in advance
Variable pre- structuring in structure segment 27, can be by the outer segments 22 just determined with its length L22 when applying
Multiple-unit band 20 is applied in target substrate.Variable pre- structuring 24 is on pre- structuring segment 27 (having length L27)
Extend.
Changeably the multiple-unit band 20 through pre- structuring is as the minimum with minimum length L25 (L25=L21+L26)
Multiple-unit band 25 is in intermediate vector.When multiple-unit band 20 is applied in target substrate just determine applied it is more
The physical length of unit band or outer segments 22.By variable pre- structuring, the smallest outer segments 26 are always applied
Adduction and pre- structuring segment 27 are applied with variable length, i.e., are especially only partly applied.
Variable pre- structuring for example can realize mechanically, by comprehensively perforating, comprehensively and when necessary randomly
The punching structure of distribution or other extensions on segment or comprehensive mechanical treatment are realized.Irradiation can also similarly be passed through
Such as generate perforation face or pattern-like, the segment that is removed or changes to random distribution when necessary.It can equally examine
Consider and pass through chemical method comprehensively or be distributed the pre- structured region of ground processing, so that such as coining be made to paint not (by UV light) firmly
Change or softens again.
In special design scheme, from the outer segments 22 of multiple-unit band 20 up to the outside of multiple-unit band 20A
The pre- structuring 24 of the unification of segment 22A is sufficient.The pre- structuring of the unification can be preset pre- structuring or
Variable pre- structuring.
In Fig. 2, two adjacent pre- structured regions 27,27A are collectively referenced as with the interstitial segment 23 that there can optionally be
Prepare segment 28.The preparation segment 28 has length L28, wherein 2*L27 < L28 < 2*L27+L23.Therefore, in intermediate vector
On be alternately arranged (not pre- structuring) minimum multiple-unit band 25 and the preparation segment 28 comprising pre- structuring.This stroke
Divide and is continued to use in attached drawing later, part of the pre- structuring of attached drawing main detection in the big version of intermediate vector point later
Cloth.
In the ideal case, the middle position explanation such as in Fig. 2 by pre- structuring 24 in pre- structuring segment 27
As, the pre- structuring segment 27 of half is applied in target substrate jointly.However, position of related features when due to applying,
The length of the outer segments L22 applied is likely to be at minimum length L26 and by minimum length L26 and pre- structuring length L27
Be added obtain and between (L26 < L22 < L26+L27).
Position of related features when application is related to position of the position relative to multicell area of multiple-unit segment 21.The position
Tolerance depends on used equipment, but usually 0.5 between 1.5mm.It is formed by the position of multiple-unit segment 21 and applies
The position of related features of added-time is unrelated with pre- structuring in this solution.Therefore, the inaccuracy or public affairs in pre- structuring
Poor (pre- structuring tolerance) does not influence position of related features of the multiple-unit segment when applying.The position of pre- structuring 24 is in pre- structuring
It can change at random in the sense that tolerance, or intentionally change as illustrated according to the following drawings.
The intermediate vector breadth 30 including multiple strip portion breadths 32 is shown in FIG. 3.Intermediate vector breadth 30 is preferred
Including at least four strip portion breadths 32.Shown in intermediate vector breadth 30 further include optional control section breadth 31,33
With 35.The smallest multiple-unit band 25 and the preparation segment 28 including pre- structuring are disposed on strip portion breadth 32.Institute
It states preparation segment 28 and for example preferably includes two pre- structurings and interstitial segment or including continuous pre- structuring.Strip portion
Breadth can as described in Figure 2 as design.
Strip portion breadth 32A, 32B and 32C are abreast on intermediate vector breadth 30.In strip portion breadth 32A
On can identify that the first preparation segment 28, the smallest multiple-unit band 25A, second prepare segment 28 and adjacent from left to right
The smallest multiple-unit band 25B.
As illustrated in the multiple-unit band 25A, multiple-unit segment include be repeated it is (single shown in corresponding to three times
The quantity of single-alone member) figure (star, cross, star).The figure be Security element and for example can be used as hologram,
Element as optically-variable and/or the raised lines structure based on coating provide.Outer segments without figure in the accompanying drawings only
It is shown at a distance from preparation segment 28 by first star of figure.Other strip portion breadths 32,32B, 32C are equally wrapped
Multiple multiple-unit bands to follow one another are included, the multiple-unit strap arrangements are preparing between segment.In order to make it is other shown in
Aspect can recognize, not repeatedly show the figure.
By intermediate vector breadth 30, multiple-unit segment and the outside segments of multiple-unit band are formed in intermediate vector
Section.The smallest multiple-unit band 25A, 25B respectively include a multiple-unit segment and two outer segments.The smallest multiple-unit item
Band 25 is fully arranged with its length for being applied to target substrate.Multiple-unit segment should apply as described in Figure 1 later
It is added on the multicell area of target substrate and outer segments should be applied on the perimeter of target substrate.In area in preparation
In domain 28, two outer segments pre- structuring on intermediate vector breadth 30 of multiple-unit band.It is multiple to be formed by multiple-unit
Band (on strip portion breadth 32) is abreast on intermediate vector breadth 30.Strip portion breadth is such as described about Fig. 2
As generated by intermediate vector breadth 30, mode is that intermediate vector breadth 30 is cut into multiple strip portion breadths 32, In
Multiple multiple-unit bands through pre- structuring are respectively disposed on the strip portion breadth along length with following one another.
Be shown in FIG. 3 strip portion breadth 32A, 32B of multiple-unit band 25A, the 25B on intermediate vector breadth 30,
Offsetting formula arrangement in 32C.It is offsetted by multiple-unit band, pre- structuring segment 28 also offsets ground in intermediate vector width each other
On face 30.Offsetting amount is selected as, so that the pre- structuring segment of strip portion breadth at least side by side is not arranged overlappingly.
The load for the especially intermediate vector that pre- structuring offsetting will likely occur due to pre- structuring scatter.Load
Positional accuracy of dispersion when can also be improved application.In addition, offsetting realizes the additional form of pre- structuring, such as to whole
A punching for preparing segment.Offsetting does not influence strip portion breadth 32 or its application of cutting, because they are in multiple-unit item
It is identical in the sequence of band.
Pre- structuring 28 is for example evenly distributed in the length of multiple-unit band.The offsetting of multiple-unit band especially can be with
Greater than the half (and twice for being less than individually unit length) of individually unit length.
Preparation aid mark can be set on intermediate vector breadth 30, especially on control section breadth 31,33 and 35
311,312;331,332,334,335 and 351,352.Prepare aid mark at least the pre- structuring the step of in needed for determining
Carry out the position (and/or its length and/or its offsetting amount) of pre- structuring.However, preparing aid mark can be used for (mistake
With moving) the step of manufacture multiple-unit band.Prepare aid mark 311 and illustrates the preparation between multiple-unit band 25A and 25B
The position of segment 28.Second aid mark 312 can be set for determining the width and/or the second pre- structuring that prepare segment 28
Position.Control section breadth 33 also prepares aid mark 331,332 comprising corresponding.It is auxiliary by least one other preparation
Help label 333,353 that can determine the offsetting amount of multiple-unit band.It is same herein to prepare aid mark 333,334 or 353,354
The position of the pre- structuring on adjacent strip portion breadth 32 is marked in sample.
In variant schemes shown in Fig. 3, the multiple-unit band of multiple strip portion breadths is arranged with offsetting each other.So
The multiple-unit band of strip portion breadth or at least three strip portion breadths can arrange (or manufacture) with offsetting each other.
Fig. 4, which is shown, simplifies display, similar example in other aspects, the band in the example respectively only side by side
Part breadth 32A, 32B and 32B, 32C multiple-unit band offset each other ground arrangement.And strip portion breadth 32A's and 32C is more
Unit band is arranged with not offsetting.
In no variant schemes displayed separately, the offsetting amount of multiple-unit band can be less than the length for preparing segment 28
L28.The preparation segment of adjacent strip portion breadth in intermediate vector then offsets ground but overlappingly arrangement is not (and each other
It is non-overlapping as shown in Fig. 3 and Fig. 4).
Fig. 5 shows the variant solution with the pre- structuring to offset, but multiple-unit segment does not need to manufacture with offsetting.
Multiple-unit segment 21A, 21B of strip portion breadth 32A, 32B and 32C make with not offsetting on intermediate vector breadth
It makes.The pre- structuring of multiple-unit band only on intermediate vector breadth 30 by offsetting is realized.Adjacent strip portion breadth
The preparation region 28 (and therefore pre- structuring) of 32A, 32B are arranged with offsetting each other.Due to the offsetting of pre- structuring, centre is carried
The length of minimum (and actually applied) outer segments 26A, 26B on body breadth 30 changes.For strip portion side by side
Multiple-unit band on breadth 32A, 32B and/or the multiple-unit band to follow one another for part breadth 32B, there are differences
The outer segments of length.
If such as pre- structuring respectively constitutes the boundary for preparing region, the pre- structuring of strip portion breadth side by side
It also arranges without overlapping in the shown embodiment.And for it is wider or even uniformly in prepare region 28 in pre- knot
Structure, the pre- structuring overlapping of strip portion breadth side by side.The width of pre- structuring offsetting amount and pre- structuring segment is preferred
It selects in this way, so that the pre- structuring of strip portion breadth side by side is not overlapped.
As shown in FIG. 5, pre- structuring can be arranged in the case where no multiple-unit band offsets to offset, Huo Zhebei
Pre- structuring offsetting can also be correspondingly arranged in selection of land jointly with Fig. 3 or Fig. 4 and multiple-unit band offsets.
As other optinal plans in fig. 5 it is shown that can be arranged between strip portion breadth 32A, 32B additional
Intermediate breadth 39.The intermediate breadth 39 can be similar to pre- structuring and play stabilization with offsetting.Similar to control breadth
31, intermediate breadth 39 is not necessary and the correspondingly quilt after intermediate vector breadth 30 to be cut into strip portion breadth 32
It removes.
The cross section that Fig. 6 shows cutting individually unit 14, such as banknote obtains, it is independent that the individually unit, which has form,
The Security element of unit band 620, the individually unit band are applied in (target) substrate.The independent list of multiple-unit band 20
Member 620 includes multilayered structure.Individually unit band 620 is fixed on by adhesive layer 628 in target substrate and for example including gold
Belong to layer 626, embossed layer 624 (have unshowned surface relief structure, metal layer 626 be in surface relief structure) and optional
Protective paint layer 622.As shown for individually unit band 620, it may be on the base coating 612 of substrate,
Such as continuous or structuring printing layer or continuous paint layer.Alternatively as other individually unit band 620B
As explanation, individually unit band can be directly applied in base body 610, especially be applied to base coating 618
In recessed sky portion.
Substrate includes base body 610, usually forms (paper and plastic layer) by paper, plastics or mixed complex.It is anti-
Pseudo- element 616 can be embedded in base body 610.Individually unit band 620 and 620B can be least partially overlapped or complete
Overlappingly arrange.They can it is complimentary to one another become Security element or with the Security element 616 of insertion, particularly with observer
It is visually complementary.
(especially while ground) multiple multiple-unit bands can be applied as illustrated in fig. 1 in target substrate.Applied with two
As can be seen that it can in Fig. 1 for the individually unit band 620 and 620B on the front and back of substrate 610,612,618
With apply in target substrate in front and back (be respectively depending on front or the back side and it is different or depend on front or
The person back side and it is identical) multiple-unit band.The multiple-unit band applied on the front and back herein can be completely overlappedly (heavy
Close ground), (parallel to each other or in each individually unit across) or (be not overlapped and excellent overlappingly partially overlapping
Choosing is in parallel with each other) it is arranged in target substrate.
The example for the cross section that two cutting two-layer equation intermediate vectors obtain, the intermediate vector are shown in figures 7 and 8
Thereon and the multiple-unit band through pre- structuring with manufacture.
According to the design scheme in Fig. 7, the multiple-unit to follow one another is manufactured in main intermediate vector (main carriers) 733
Band 25.Multiple-unit band 25 is realized by multilayered structure 721 to 727.Here, also partly being made together in preparing region 28
Make (planless) multilayered structure.
Main intermediate vector 733 also exists as intermediate vector breadth and therefore can simply be punched into (pre- structure
Change segment or) prepare segment 28 size.After pre- structuring, applied at the back side of main carriers 733 by adhesive layer 732
Add secondary carrier 731.Therefore hole (the banded portion framing in other words formed in intermediate vector breadth due to punching is enclosed again
Carrier gap in face).Positioning aid 712 can be optionally manufactured in preparing segment 28, the positioning aid is being applied
Auxiliary positioning when adding unit segment.The double-deck intermediate vector breadth now with the multiple-unit band 25 through pre- structuring is cut
It is segmented into strip portion breadth.
Multilayered structure 721 to 727 shown in multiple-unit band include peeling layer 721, paint layer 722, reflector layer 723,
Dielectric layer 724, absorber layer 725, only optional intermediate film 726 and adhesive layer 727.The adhesive layer 727 is used for it
Its layer 722 to 726 is fixed in target substrate and especially can be set to heat pressure adhesive paint.Peeling layer 721 facilitates
Remove multiple-unit band from intermediate vector.Paint layer 722 can be set to the convex of coining
The coining paint layer of line structure.What is imprinted can be the burr for hologram, miniature mirror surface, micro lens or Asia λ structure.
Reflector layer 723 may be used as reflector on the burr of paint layer 722 and/or with (with constant thickness or locally change
Thickness) thin layered element of viewable is collectively formed in dielectric layer 724 and absorber layer 725.
Fig. 8 shows another design scheme of multiple-unit band and pre- structuring.
Intermediate vector is designed as bilayer, with main carriers 833 and the secondary carrier 831 pasted by adhesive layer 832.
Manufacture includes the multiple-unit band 25 of multiple-unit segment 26 and outer segments 21 in intermediate vector.
The multilayered structure 821 to 826 of multiple-unit band includes optional peeling layer 821, (first in multiple-unit segment 21
Irradiation hardening) it is paint layer 822, (second irradiation hardening) coining paint layer 823, reflector layer 824 (such as metal layer), optional
Primary layer 825 (increasing attached dose) and adhesive layer 826.The function for the layer crossed by discussion does not illustrate again herein.In coining paint layer
Second paint layer 822 of 823 side-lower not being stamped is it has proved that be conducive to the raised lines structure of coining.Reflector layer 824
The figure or Security element of multiple-unit segment are collectively formed with the raised lines structure of coining paint layer.
Without arrangement metal layer in the minimum outer segments 26 of multiple-unit band 25.Outer segments are planless.Cause
This imprints what paint layer 823 was not stamped usually in minimum outer segments, that is, does not have raised lines structure.Do not form figure
The layer 821,822,824,825 and 826 of shape is present in outer segments as in multiple-unit segment.
Coining paint layer 823 (and layer 821 and 822 in the bottom), which extends to, to be prepared in region.In preparing region, until
Coining paint layer 823 is in two sides by pre- structuring less.Two pre- structurings 88 extend in main carriers 833.It is contemplated that but
In present design it is not necessary that, multiple pre- structurings is abreast set or multiple pre- structurings are arranged for segment 28.Such as
Fruit does not have secondary carrier 831, and the strip portion breadth with multiple-unit band may have crackle (orientation problem) or extreme
In the case of even be broken.Pre- structuring 88 for example can be corresponding by particular by laser or mechanically perforating or being cut into
Depth generate.
In fig. 8 it can be seen that positioning aid 82,86 and production identifier 84 are relative to other layers of position.Now
Positioning aid is described according to Fig. 9 and produces the corresponding function of identifier.
Similarly with Fig. 2, Fig. 9 illustrates the strip portion breadth with multiple multiple-unit bands 20 to overlook.Therefore only
Illustrate additional element.
Positioning aid 86 can be manufactured in outer segments 22, the positioning aid illustrates the accurate of multiple-unit segment
Position.Positioning aid 86 for multiple-unit segment is as the optional positioning aid 82 for pre- structuring segment 27
It is manufactured together in the step of manufacturing outer segments.The step of pre- structuring can be directed to by positioning aid 82, determines pre- knot
The position of structure.Therefore it can neatly generate or consider (different when necessary) length and interstitial segment of outer segments 22
23 width.
Production identifier 84 is one-to-one identifier, such as form is number or bar code.Produce identifier 84
Multiple-unit band, strip portion breadth and/or intermediate vector breadth are indicated at least in production system correspondingly.Production is known
Automatically it Fu not can be detected and save when applying multiple-unit band or in next production stage.According to being examined
The data of survey are able to know which component is processed or which component is such as used as the individually unit band of Security element by least
It is contained partially in which final products, in such as banknote.
List of numerals
10 target substrates
12 multicell areas
14 individually units
16 perimeters
20 multiple-unit bands
21 multiple-unit segments
22 preset outer segments
23 preset interstitial segments
24 pre- structurings
25 the smallest multiple-unit bands
26 the smallest outer segments
27 pre- structuring segments
28 prepare segment
30 intermediate vector breadths
31,33,35 control section breadth
32,32A, 32B, 32C strip portion breadth
311,312,332,332 prepare aid mark
333,334,353,354 prepare aid mark
39 intermediate breadths
600 banknotes
610 base bodies
612,618 base coating
616 integrated Security elements
620,620B individually unit band
622 protective paint layers
624 coining paint layers
626 metal layers
628 adhesive layers
712 positioning aids
721 peeling layers
722 paint layers
723 reflector layers
724 dielectric layers
725 absorber layers
726 intermediate films
727 adhesive layers
731 main carriers
732 adhesive layers
733 secondary carriers
82,86 positioning aid
84 production identifiers
88 recesses
821 peeling layers
822 paint layers
823 coining paint layers
824 metal layers
825 primary layers
826 adhesive layers
831 main carriers
832 adhesive layers
833 secondary carriers
Claims (15)
1. method of the one kind for manufacturing multiple-unit band (20), the method have step:
Multiple-unit segment (21) are manufactured in intermediate vector, wherein multiple-unit segment (21) are arranged for being applied to target substrate
(10) on multicell area (12);
Two outer segments (22) are manufactured in intermediate vector for each multiple-unit segment (21), wherein described two outsides
The perimeter (16) for being applied to target substrate (10) is arranged in segment (22), and wherein, and two of multiple-unit segment
Outer segments (22) and multiple-unit segment (21) form multiple-unit band (20);
In order to which multiple-unit band (20) to be applied on target substrate (10), to multiple-unit band (20) in intermediate vector
Two outer segments (22) carry out pre- structuring, wherein intermediate vector is intermediate vector breadth (30), in the intermediate vector width
Multiple multiple-unit bands (20) are abreast manufactured on face;And
Intermediate vector breadth (30) is cut into multiple strip portion breadths (32), along length on the strip portion breadth
Degree is respectively disposed with multiple multiple-unit bands (20) through pre- structuring with following one another.
2. method according to claim 1, which is characterized in that in order to realize abreast on intermediate vector breadth (30)
Multiple-unit band (32A, 32B), the ground that offsets each other along longitudinal direction carry out pre- structuring.
3. method as described in claim 1 or 2, which is characterized in that at least by multiple-unit band (32A, 32B) side by side along vertical
Offset ground manufacture to each other.
4. by method described in one of claims 1 to 3, which is characterized in that the multiple-unit band (32A, 32B) side by side is wrong
It moves ground and carries out pre- structuring, wherein pre- structuring offsetting amount is greater than 4mm.
5. by method described in one of Claims 1-4, which is characterized in that the outer segments (22) include minimum segment
(26) it is applied on target substrate (10) with pre- structuring segment (27), the minimum segment.
6. by method described in one of claim 1 to 5, which is characterized in that multiple-unit band (20) is applied to target substrate
On process with position of related features carry out, wherein
Pre- structuring offsetting amount is greater than twice of position of related features;
And/or
Minimum segment is greater than twice of position of related features;
And/or
Pre- structuring tolerance is greater than position of related features.
7. by method described in one of claim 1 to 6, which is characterized in that the intermediate vector breadth (30) includes main carries
Body (731,831) and secondary carrier (733,833), wherein only change in the pre- structuring the step of secondary carrier (733,
833) it, and preferably, after the pre- structuring step of the multiple-unit band (20) on secondary carrier (733,833), will lead
Carrier (731,831) is wanted to paste on secondary carrier (733,833) in back side.
8. by the method described in one of claim 1 to 7, which is characterized in that in the pre- structuring the step of, mechanically, chemistry
Ground or irradiation ground change and/or remove manufactured outer segments.
9. by method described in one of claim 1 to 8, which is characterized in that the outer segments of two adjacent multiple-unit segments
Jointly by pre- structuring, mode is especially
These outer segments have common pre- structuring segment (27) or
There is the pre- structuring segment (27) separated by intermediate region (23), wherein pre- structuring segment (27) and middle area
Domain (23) is jointly and uniformly by pre- structuring.
10. by method described in one of claim 1 to 9, which is characterized in that in the step of manufacturing outer segments, at least
Positioning aid and/or production identification of the manufacture for relative target substrate positioning multiple-unit segment in one outer segments
Symbol, the production identifier positively identify multiple-unit band (20), strip portion breadth (32) and/or intermediate vector breadth
(30)。
11. by method described in one of claim 1 to 7, which is characterized in that manufactured multiple-unit segment (21) includes at least
Three sublayers, are especially made of following sublayer: embossed layer (624), reflector layer (626), protective layer (628), peeling layer (721)
And/or adhesive layer (727).
12. a kind of multiple-unit band (20), method manufacture as described in one of preceding claims.
13. a kind of application of multiple-unit band (20) according to claim 12, wherein by least one multiple-unit band
(20) be applied on target substrate (10), multiple-unit segment (21) be on the multicell area (12) of target substrate (10) and
Outer segments (22) are on the perimeter (16) of target substrate (10).
14. application according to claim 13, wherein by multiple multiple-unit bands with the different outer segments of length
(20) it is applied on target substrate (10).
15. by application described in claim 13 or 14, wherein also carry out at least one following steps:
It is detached from multiple-unit band (20) and intermediate vector (30);And/or
The multicell area (12) for the target substrate (10) for having multiple-unit band (20) is cut into individually unit (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202110652544.6A CN113524944B (en) | 2017-05-24 | 2018-05-18 | Method for producing a multi-element strip and use thereof |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102017004999.8A DE102017004999A1 (en) | 2017-05-24 | 2017-05-24 | Process for the production of multi-use strips and their use |
DE102017004999.8 | 2017-05-24 | ||
PCT/EP2018/000259 WO2018215091A1 (en) | 2017-05-24 | 2018-05-18 | Method for producing multi-unit strips and the use thereof |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202110652544.6A Division CN113524944B (en) | 2017-05-24 | 2018-05-18 | Method for producing a multi-element strip and use thereof |
Publications (2)
Publication Number | Publication Date |
---|---|
CN110494296A true CN110494296A (en) | 2019-11-22 |
CN110494296B CN110494296B (en) | 2021-07-06 |
Family
ID=62244440
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202110652544.6A Active CN113524944B (en) | 2017-05-24 | 2018-05-18 | Method for producing a multi-element strip and use thereof |
CN201880024545.2A Active CN110494296B (en) | 2017-05-24 | 2018-05-18 | Method for producing a multi-element strip and use thereof |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202110652544.6A Active CN113524944B (en) | 2017-05-24 | 2018-05-18 | Method for producing a multi-element strip and use thereof |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP3630500B1 (en) |
CN (2) | CN113524944B (en) |
DE (1) | DE102017004999A1 (en) |
WO (1) | WO2018215091A1 (en) |
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CN1516850A (en) * | 2001-06-15 | 2004-07-28 | �����ɷ� | Security device having multiple security detection features |
WO2007071937A2 (en) * | 2005-12-20 | 2007-06-28 | De La Rue International Limited | Method of manufacturing security substrates |
EP2372019A1 (en) * | 2010-04-01 | 2011-10-05 | D.W. Spinks (Embossing) Limited | A strip for inclusion in a pulp during manufacture of a security paper |
CN203878415U (en) * | 2014-02-28 | 2014-10-15 | 山东泰宝防伪技术产品有限公司 | Miniature two-dimensional code information security line |
WO2015124227A1 (en) * | 2014-02-24 | 2015-08-27 | Bundesdruckerei Gmbh | Holographic composite element and method for the production thereof |
CN106605022A (en) * | 2014-06-23 | 2017-04-26 | 法商亚宙维金斯安全公司 | Security papers and methods of manufacture |
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DE3902960C2 (en) | 1989-02-01 | 1999-07-01 | Gao Ges Automation Org | Material web, in particular film web as a semi-finished product for the production of security elements in the form of threads and tapes |
DE19731968A1 (en) * | 1997-07-24 | 1999-01-28 | Giesecke & Devrient Gmbh | Security document |
WO2013048875A1 (en) | 2011-09-26 | 2013-04-04 | Technical Graphics, Inc. | Method for producing a composite web and security devices prepared from the composite web |
GB201117523D0 (en) | 2011-10-11 | 2011-11-23 | Rue De Int Ltd | Security devices and methods of manufacture thereof |
DE102012014604A1 (en) * | 2012-07-24 | 2014-05-15 | Giesecke & Devrient Gmbh | Method for producing a chip module |
GB2516829B (en) * | 2013-07-29 | 2017-03-01 | De La Rue Int Ltd | Improvements in security elements |
DE102013015689A1 (en) | 2013-09-16 | 2015-03-19 | Giesecke & Devrient Gmbh | Strip-shaped endless foil and its use |
GB2523994B (en) * | 2014-03-06 | 2017-08-30 | De La Rue Int Ltd | Method of forming a security document |
DE102014007108A1 (en) * | 2014-05-14 | 2015-11-19 | Giesecke & Devrient Gmbh | security element |
-
2017
- 2017-05-24 DE DE102017004999.8A patent/DE102017004999A1/en not_active Withdrawn
-
2018
- 2018-05-18 CN CN202110652544.6A patent/CN113524944B/en active Active
- 2018-05-18 CN CN201880024545.2A patent/CN110494296B/en active Active
- 2018-05-18 EP EP18726907.1A patent/EP3630500B1/en active Active
- 2018-05-18 WO PCT/EP2018/000259 patent/WO2018215091A1/en active Application Filing
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1516850A (en) * | 2001-06-15 | 2004-07-28 | �����ɷ� | Security device having multiple security detection features |
WO2007071937A2 (en) * | 2005-12-20 | 2007-06-28 | De La Rue International Limited | Method of manufacturing security substrates |
EP2372019A1 (en) * | 2010-04-01 | 2011-10-05 | D.W. Spinks (Embossing) Limited | A strip for inclusion in a pulp during manufacture of a security paper |
WO2015124227A1 (en) * | 2014-02-24 | 2015-08-27 | Bundesdruckerei Gmbh | Holographic composite element and method for the production thereof |
CN203878415U (en) * | 2014-02-28 | 2014-10-15 | 山东泰宝防伪技术产品有限公司 | Miniature two-dimensional code information security line |
CN106605022A (en) * | 2014-06-23 | 2017-04-26 | 法商亚宙维金斯安全公司 | Security papers and methods of manufacture |
Also Published As
Publication number | Publication date |
---|---|
CN113524944A (en) | 2021-10-22 |
CN110494296B (en) | 2021-07-06 |
DE102017004999A1 (en) | 2018-11-29 |
EP3630500B1 (en) | 2021-11-24 |
EP3630500A1 (en) | 2020-04-08 |
CN113524944B (en) | 2022-12-20 |
WO2018215091A1 (en) | 2018-11-29 |
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