WO2007028485A2

WO2007028485A2 - Dewatering filter and method for the production thereof

Info

Publication number: WO2007028485A2
Application number: PCT/EP2006/008017
Authority: WO
Inventors: Bernd Stumbeck; André Gregarek; Andreas HÄNELT; Thomas Gerhardt; Karlheinz Mayer
Original assignee: Giesecke & Devrient Gmbh
Priority date: 2005-09-06
Filing date: 2006-08-14
Publication date: 2007-03-15
Also published as: EP1937893A2; EP1937893B1; DE102005042344A1; ATE486998T1; DE502006008248D1; PL1937893T3; SI1937893T1; WO2007028485A3; WO2007028485A8; ES2353817T3

Abstract

The invention relates to a dewatering filter (20) for producing paper comprising multi-layered watermarks, said dewatering filter comprising a support filter (22) and perforated watermark sheet metal (24) which is connected to said support filter (22), wherein the support filter (22) and the watermark sheet metal (24) are embossed together in the form of the watermark which is to be produced.

Description

The invention relates to a dewatering screen for the production of paper with multilevel watermarks, in particular for the production of

Securities, such as banknotes, checks, identity cards and other security papers. The invention further relates to a method for producing such a dewatering screen and to a method for producing a paper having a multi-level watermark using such a dewatering screen.

In papermaking on round screening or screening machines, pulp accumulates continuously on a moving dewatering screen and is solidified to the extent that it can be removed as a wet paper web for further processing of the dewatering screen. Above all, security papers for banknotes, identity documents and the like are often equipped with watermarks for security purposes, which permit verification of the authenticity of the security paper and which at the same time serve as protection against unauthorized reproduction.

In the production of paper with watermarks, a distinction is made between two-level watermarks with a strong light-dark effect and multi-level watermarks with smooth transitions between light and dark and detailed representation of a motif. The term "multi-level" is to be understood in contrast to two-level light-dark watermark and includes all watermarks with more than two brightness levels and includes in particular watermarks with continuous HeIl dark transitions.

For producing two-stage watermarks, metal wires or metal moldings, so-called electrotypes, are typically applied to the screen printing. soldered to completely close the drainage screen at these points. As a result, paper accretion in partial areas of the dewatering screen is hindered and thin spots are formed in the paper, which appear very bright when viewed through transmitted light.

In the publication WO 03/025281 it has been proposed to close the paper screen in the desired areas with a sealing compound, for example a radiation-curing adhesive. As a result, not only two-level watermarks but also a multilevel watermark can be generated by a corresponding ratcheting of the sealing compound.

In general, however, for the production of multi-level watermark in the dewatering screen a three-dimensional relief is coined, so that the paper thickness of the finished paper varies according to the relief and soft, gradual transitions between lighter and darker areas can be seen in transmitted light. An elevated position in the screen leads to a thinner paper layer and thus to a light spot, while a lower point in the screen leads to a dark spot. However, the watermarks generated in this way often criticize the low overall brightness of the appearance of the watermarks.

Proceeding from this, the present invention seeks to provide a dewatering screen of the type mentioned, which avoids the disadvantages of the prior art and in particular allows the production of paper with multi-level watermark high brightness.

This object is achieved by the dewatering screen with the features of the main claim. A method for producing a dewatering screen according to the invention and a method for producing a screen Piers with multilevel watermarks are given in the independent claims. Further developments of the invention are the subject of the dependent claims.

According to the invention, a dewatering screen of the type mentioned in the introduction comprises a carrier screen and a perforated watermark plate connected to the carrier screen, wherein the carrier screen and the watermark plate are stamped together in the form of the watermark to be produced. The perforations of the watermark sheet ensure dewatering during paper production.

Preferably, the watermark sheet is provided with microperforations, the dimensions of which are so small that fibers do not adhere to them during papermaking. The watermark sheet may in particular be provided with microperforation having a diameter of less than 0.6 mm, preferably less than 0.25 mm, more preferably less than 0.2 mm. Micro perforations with a diameter of 0.17 mm are particularly suitable.

The watermark sheet may have perforations of the same diameter throughout. Of course, it is also possible to combine perforations with different diameters.

The perforations of the watermark sheet are preferably arranged regularly and in the form of a matrix in the form of rows and columns. Lines lying one above the other can also be offset from each other by half a hole-to-hole distance. The surface of the watermark sheet is advantageously smooth, so that only relatively few fibers attach, so that the subsequent watermark has a high has overall brightness. Due to the greater brightness, it is advisable to apply the design of the watermark according to the invention sharper than in conventional watermarks and to perform the embossing with a slightly lower modulation.

According to a further development of the invention, the watermark sheet also has recesses in the form of patterns, characters or codes. These recesses, in contrast to the microperforations, are designed with such dimensions that fibers form in them during the sheet formation, so that the recesses produce dark areas in the later watermark. To ensure good visibility, the dimensions of the recesses are typically a few millimeters.

The dewatering screen may additionally comprise at least one imperforate metal or plastic molded part adjacent to the watermark sheet for producing two-level watermarks. It can be provided that the watermark sheet, in particular the mentioned recesses of the watermark sheet and the adjacent unperforated metal / plastic molding represent information related to each other. For example, the recesses and the molded parts can complement each other to form a contiguous sequence of numbers or a coherent text. The digit string or text may be further related to a graphic motif represented by the watermark sheet.

For example, the watermark sheet may show a portrait or an architectural motif, and the recesses and / or the molded parts may include a text associated with the motif, such as a name or a signature. put. Of course, the number sequence can also form another independent information, such as the denomination of a banknote.

For attachment, the watermark sheet is preferably glued to the support screen, soldered or welded.

In a preferred variant of the invention, the carrier screen is formed by a screen fabric having at least one respective system of interwoven, longitudinally extending warp threads and weft threads running transversely thereto. The screen fabric may in particular have a single-layer or double-layered binding.

According to another, likewise preferred variant of the invention, the carrier screen is formed by a galvanically produced screen. Such screens have no nodes as they are created by crossings in the filaments of a conventional sieve. The overall thickness of the screen may be less than that of conventional screens. As a result, it is also possible to work with a smaller material gap between the embossed stick parts (upper part and lower part), which results in the preservation of very fine details in the embossing stick / sieve. Due to the smoother screen surface without nodes, a much sharper watermark may also be obtained.

According to a further, likewise preferred variant of the invention, the carrier screen is formed by a carrier plate provided with drainage openings. Like galvanized screens, such carrier plates have no nodes, so that the total thickness of the screen may possibly be less than in conventional screens and can be used with less material gap when milling the embossing sticks. The Smoother screen surface can lead to much sharper watermarks. Also can be produced in this way inserts for a module screen. It is only necessary to produce small units and use as a module in wells.

After a further improvement, for example, a computer file performs a desired watermark corresponding milling in plastic. Then by means of printing technology processes with electrically conductive printing ink, such as silver conductive paint, a very fine screen structure is printed on the plastic matrix. Subsequently, a metal layer is deposited along this screen structure in the galvanic bath. Alternatively, the screen structure can also be applied to the plastic matrix by means of photographic processes, similar to the production of semiconductor devices. In the galvanic bath, a sheet metal layer shaped in accordance with the milling does not deposit, as is the case with electroplated embossing dies, but already a finished screen structure. This can then be soldered or welded onto a carrier screen.

The sieve structure produced in this way, like galvanic sieves, has no nodes and thus allows full sharpness and the finest details in the watermark. The process of embossing can be omitted. This also eliminates the process of converting from the computer file to the watermark, which often results in some alteration of the original. Furthermore, it can already be taken into account when creating the screen structure to be printed on the plastic, where the subsequent watermark should have particularly light or dark spots, in that the line thickness to be printed on is varied accordingly. This leads to different drainage behavior in the Watermark area and thus allows a large and accurately controllable contrast increase over conventional technology.

The described drainage screens may be round screens or wire screens or inclined screens.

The invention also includes a method for producing a dewatering screen for papermaking, in which

a) a carrier screen and a perforated watermark plate are provided,

b) the watermark plate is connected to the carrier screen; and

c) the support screen and the watermark sheet are embossed together in the form of the watermark to be generated.

To provide the perforated watermark sheet in step a), a sheet is preferably cut out according to the contour of the desired water mark and provided with microperforations, the dimensions of which are so small that they do not adhere to fibers during papermaking. The microperforations are advantageously produced by means of etching or with a laser beam.

Subsequently, the watermark sheet is applied to the support screen, preferably glued or welded.

As a carrier screen, in particular a screen mesh can be provided in step a). Alternatively, a carrier screen can be produced in the galvanic bath. _ _

The or a support plate can be provided to form a support strainer with drainage holes.

The invention further comprises a method for producing a paper, in particular a security paper, with multistage watermarks, in which the paper attachment takes place on a dewatering screen of the type described.

Further exemplary embodiments and advantages of the invention are explained below with reference to the figures, in the representation of which a representation true to scale and proportion has been dispensed with in order to increase the clarity.

Show it:

1 is a schematic representation of a banknote with a multi-level watermark,

FIG. 2 shows in (a) a bright multi-level watermark according to the invention and in (b) a conventional watermark; FIG.

Fig. 3 is a plan view of a section of an inventive

Entwässerungssiebs;

Fig. 4 is a detail of Fig. 3; and

Fig. 5 shows schematically a cross section of the Entwässerungssiebs

Fig. 3 along the line VV. The invention will be explained below using the example of a banknote. 1 shows a schematic representation of a banknote 10 which contains a bright multi-level watermark 12 in the form of a portrait only indicated in FIG.

The bright watermark 12 produced according to the invention is shown in detail in FIG. 2 (a). Especially in comparison with the conventional watermark 14 of FIG. 2 (b), the significantly higher overall brightness of the watermark 12 according to the invention can be seen.

3 shows a plan view of a section of a dewatering screen 20 according to the invention. FIG. 4 shows the detail 40 in the edge region of the watermark plate 24 in detail, and FIG. 5 shows schematically a cross section of the dewatering screen 20 along the line VV of Figure 3.

The drainage screen 20 comprises a carrier screen, which in the exemplary embodiment is formed by a screen mesh 22, and a microperforated watermark plate 24 welded onto the screen mesh 22. As best seen in the detail section of FIG. 4, the watermark plate 24 is corresponding to the contour 26 of the desired watermark, here the outline of the portrait 12, and provided with a regular matrix-like arrangement of microperforations 28 to ensure dewatering in papermaking.

The microperforations 28 in the exemplary embodiment have a diameter of 0.18 mm and a perforation-to-perforation distance of 0.20 mm. With this small diameter, no paperwork can be used - -

Adhere fibers in the perforations 28 so that they can not interfere with the later watermark. The microperforations 28 may be introduced into the watermarked sheet 24 by conventional techniques such as etching or laser.

The screen fabric 22 and the welded watermark sheet 24 according to the invention jointly embossed according to the relief structure of the desired watermark, as shown schematically in the cross-sectional view of FIG. 5. The modulation height M of the embossing is chosen to be somewhat lower than in the case of conventional watermarks and may be, for example, about 0.9 mm.

The high brightness of the watermarks generated by the dewatering screen 20 is mainly due to the smooth surface of the watermark plate 24, to which only comparatively few fibers can adhere. Because of the greater overall brightness, the watermark design 12 is sharper than conventional watermarks.

As also shown in FIGS. 3 and 4, the watermark sheet 24 may further include targeted recesses 30 in the form of patterns, characters, and encodings that result in dark spots in the later watermark. The watermark plate 24 can also be combined with imperforate molded parts 32 made of metal or plastic, in particular the so-called electrotypes, which produce, for example, two-stage watermarks for representing the denomination of a banknote.

The recesses 30 and the molded parts 32 can also represent information related to one another, for example two parts of a total information. In the embodiment of Figures 3 and 4, the total Information from the number sequence "1357911", of which the subsequence "135" is formed by recesses 30 in the watermark plate 24 and the subsequence "7911" by welded metal moldings 32. In the later watermark, the numbers "135" then appear as a dark place, the numbers " 7911 "as an immediately adjoining highlight, it is of course also possible to use an alphanumeric character string, for example a signature or the like, instead of the digit sequence.

Claims

Patent claims

1. dewatering screen for the production of paper with multi-level watermark, with a support screen and a perforated watermark plate connected to the support screen, in which the support screen and the watermark sheet are stamped together in the form of the watermark to be generated.

2. Entwässerungssieb according to claim 1, characterized in that the watermark sheet is provided with micro perforation, the dimensions of which are so small that they do not adhere to fibers in papermaking.

3. Entwässerungssieb according to claim 1 or 2, characterized in that the watermark sheet is provided with micro perforation with a diameter of less than 0.6 mm, preferably less than 0.25 mm.

4. Entwässerungssieb according to at least one of claims 1 to 3, characterized in that the watermark sheet has a regular, mat- rixförmige arrangement of perforations.

5. Entwässerungssieb according to at least one of claims 1 to 4, characterized in that the surface of the watermark plate is smooth.

6. Entwässerungssieb according to at least one of claims 1 to 5, characterized in that the watermark sheet has recesses in the form of patterns, characters or codes.

7. Entwässerungssieb according to at least one of claims 1 to 6, characterized in that the dewatering screen has at least one adjacent to the watermark sheet unperforated metal / plastic molding for the production of two-stage watermark.

8. Entwässerungssieb according to claim 7, characterized in that the watermark sheet and the adjacent unperforated metal / plastic molding represent information related to each other.

9. Entwässerungssieb according to at least one of claims 1 to 8, characterized in that the watermark sheet is glued or welded to the support screen.

10. Entwässerungssieb according to at least one of claims 1 to 9, character- ized in that the support wire is formed by a mesh.

11. Drainage screen according to at least one of claims 1 to 9, characterized in that the carrier screen is formed by a galvanic sieve without nodes.

12. Entwässerungssieb according to at least one of claims 1 to 9, characterized in that the support screen is formed by a provided with drainage openings carrier plate.

13. Drainage screen according to at least one of claims 1 to 12, characterized in that it is a round screen.

14. Entwässerungssieb according to at least one of claims 1 to 12, characterized in that it is a wire or oblique screen.

15. A process for the preparation of a dewatering screen for papermaking with multilevel watermarks, in which

a) a carrier screen and a perforated watermark plate are provided,

b) the watermark plate is connected to the carrier screen; and

16. The method according to claim 15, characterized in that to provide the perforated watermark sheet in step a), a sheet is cut out according to the contour of the desired watermark and provided with micro perforations whose dimensions are so small that they do not adhere to fibers in papermaking ,

17. The method according to claim 16, characterized in that the micro perforations are produced by means of etching or with a laser beam.

18. The method according to at least one of claims 15 to 17, characterized in that the watermark sheet is glued or welded to the support screen.

19. The method according to at least one of claims 15 to 18, characterized in that a screen fabric is provided as a carrier screen in step a).

20. The method according to at least one of claims 15 to 18, characterized in that for the provision of the carrier screen in step a) a sieve is produced in the galvanic bath.

21. The method according to at least one of claims 15 to 18, characterized in that for providing the support screen in step a) a carrier plate is provided with drainage openings.

22. The method according to at least one of claims 15 to 21, characterized in that the support screen and the watermark plate in step c) are embossed with a lower modulation than conventional watermark embossing.

23. The method according to at least one of claims 15 to 22, characterized in that the support screen and the watermark sheet in step c) are embossed with an embossed modulation of about 1 mm or less.

24. A process for producing a paper, in particular a security paper, with a multi-level watermark, wherein the Papieran- storage is carried out on a dewatering screen according to one of claims 1 to 23.

25. The method according to claim 24, characterized in that the paper is made on a rotary screening machine.

26. The method according to claim 24, characterized in that the papermaking is carried out on a wire or oblique screening machine.