WO2006069897A1

WO2006069897A1 - Paper for a thermal printer

Info

Publication number: WO2006069897A1
Application number: PCT/EP2005/056546
Authority: WO
Inventors: Albert HELMSTÄDTER; Axel Hügle
Original assignee: Siemens Aktiengesellschaft
Priority date: 2004-12-27
Filing date: 2005-12-07
Publication date: 2006-07-06
Also published as: DE202004019989U1

Abstract

The invention relates to a paper (1), for a thermal printer, comprising a printable front face (2) and a back face (3), whereby said paper (1) comprises multiple layers (4), namely a support layer (9) made from a support material and a thermal layer (11), applied to the front face of the support layer (9). A printing layer (6) which characterizes the paper (1) is applied to the front face of the thermal layer (11), arranged between the thermal layer (11) and a surface-protection layer (5) applied to the front face of the printing layer (6).

Description

description

Paper for a thermal printer

The invention relates to paper for a thermal printer having a printable front side and a back side, wherein the paper comprises a plurality of layers, namely a carrier layer made of a carrier material and a ^thermo layer applied to the front side of the carrier layer.

Thermal printing paper has a wide range of applications, the councils from fax paper to labels, labeling of laboratory equipment, paper for driving licenses, printing expenses for medical Ge ^¬ and covers diverse United printer. An essential feature of thermal printing paper is a special coating containing color formers and color developers as the main functional ingredients. A heat transfer from the printing device to the paper by means of a thermal head, thermal stamp, thermal springs or laser beams makes temperature- ratursensitive dyes visible melt the heat input ^¬ under the effect. A common area of application of thermal printing paper is the production of documents which have the character of a document, for example the prints from a tachograph. Since these printed papers on the one hand because of their judicial proof must be forgery-proof and on the other hand have a special durability ^¬ assign, the development sees this set to special requirements. On the one hand, even older thermal printers with their physical standards following the physical effect on the thermal printing paper must be able to apply the desired printing to the medium, and on the other hand, the medium may also be exposed to extreme physical, for example thermal, boundary conditions. conditions, do not fade after a short time of storage so that the imprint is no longer clearly legible. These extreme, for example, thermal boundary conditions can be found in particular when used as a print medium for a tachograph provided in a motor vehicle, where temperatures between -30 and +80 degrees are to be endured. Such properties require a high and consistent quality of the thermal paper, which goes hand in hand with the requirement of a certain manufacturing know-how and not inconsiderable costs for the production cost and the required materials. Relevant experi ^¬ conclusions with similar media let fear be plagiarism that high-quality thermal papers in the market spread, which in addition to the negative implications for the manufacturers manufacturers of high-quality paper and catastrophic consequence of the importance of expression documents as judicial After ^¬ example with brings.

Based on the problems and disadvantages of the prior art, the invention has taken on the task of creating a thermal printing paper, which ensures a high degree of security against counterfeiting.

To achieve the object, it is proposed a paper of the type mentioned in the thermal layer of the paper hen characterizing printing layer to be sent ^¬ front side, which is located between the thermal layer and a front ^¬-applied on the printing layer surface protective layer.

Due to the special layer structure according to the invention, the thermal printing paper is for the most part forgery-proof, in particular because the printing layer has a different coating. is located half of a surface protective layer, so that we ^¬ sentlichen only the manufacturer of the thermal printing paper itself can apply the printing layer and no third party can simply provide any thermal printing paper with a print to come to a thermal printing paper according to the invention. In this way, the circle of manufacturers of a thermal printing paper according to the invention is limited to those companies who have the means and the know-how for the com ^¬ plicated production of the thermal printing paper. This limits the circle, a possible supplier for invention ^shown SSES thermal paper so far that a forgery is virtually impossible and would be easy to identify any plagiarists.

In a concrete embodiment, it is useful if the thermal layer comprising color formers and color developers, binders, pigments and accelerators onsschicht a thermosensitive Reakti ^¬ form. In addition, it makes sense, sensitizers, stabilizers, antioxidants and additives against static charging and for aging, insbeson ^¬ wider to increase the light resistance to provide. A useful development of the invention provides that the thermal layer has a thermal upper layer and a thermal undercoat located between the thermal upper layer and the carrier layer. While the thermal upper class obbligato ^¬ driven developer and color former contains preferably having a low melting point and optionally sensitizers binding ^¬ agents, fillers, stabilizers, antioxidants and special additives to, for example, electrostatic charging as well as for aging resistance and light resistance, be ^¬ is the thermal underlayer on the base paper or The carrier layer essentially consists of insulating pigments and / or polymers which increase the sensitivity of the reaction layer or ^thermo layer.

Advantageously, the carrier layer can be provided with a back-printing layer, which comprises, for example, a table which allows manual entries, in particular in the event of failure of the printer of the pusher.

As a useful layer thickness for the surface protective layer, a thickness of 2-3 microns has been found, which on the one hand leads to increased durability of the optionally printed Ther ^¬ mopapiers and on the other hand does not affect the thermosensitivity. The invention-significant advantage of Fäl ^¬ security safety is excellent guaranteed in this way. The thickness of the printing layer can advantageously be 1 to 1.5 μm, resulting in a watermark-like effect. Good print quality is achieved when the thermal topcoat has a thickness of 6 - 8 μm. This result is also helped by a thickness of the thermal undercoat of 7 - 9 μm. An expedient stability insbeson ^¬ particular tensile strength at the same time for an automatic transport means of a printer highly suitable flexibility and thickness of the material is obtained when the carrier layer has a thickness of 44 - comprising 49 microns. A good readability of the imprint of the imprint layer is achieved with a thickness thereof of about 1 micron. Particularly good printing results who the obtained when the surface protective layer is mechanically ge ^¬ smooth, so that it has a smoothness from 600 to 1200 Bekk having ^¬.

In the following the invention with reference to a specific embodiment for clarity with reference to ei ^¬ ne drawing is described in detail. It shows: Figure 1 is a schematic representation of the layer structure of a thermal paper according to the invention.

FIG. 1 shows a construction according to the invention of a paper 1 comprising layers 4. The paper 1 has a printable front side 2 and a back side 3 which delimit the structure of layers 4 in each case and are mechanically smoothed to a smoothness of 873 Bekk. From the front side 2 to rear ^¬ page 3 of the paper 1, the structure of a surface-chenschutzschicht 5, an printing layer 6, a ther- mooberschicht 7, a thermal sub-layer 8, a carrier ^¬ layer 9 and a print layer 10, protective layer, the surfaces ^¬ 5, often referred to as topcoating, ge ^¬ ensured on the one hand the security against forgery of the paper by the printing layer 6 is not directly accessible, and on the other hand, the thermal layer 11 consisting of the thermal topsheet 7 and the thermal sub-layer 8, ge ^¬ against mechanical and chemical influences sealed. This structure is difficult to produce and requires a mature production process, which significantly restricts the circle of possible plagiarists. In the manufacturing process or the carrier layer 9 is applied to the base paper first the Thermoun ^¬ terschicht 8, which is also often referred to as undercoating is applied, the system is available from insulating pigments and polymethyl that the sensitivity of the thermal layer 11 increased overall. Subsequently, the application of the thermal top layer 7, which is also often referred to as thermosensitive Re ^¬ action layer, the color formers, developers, sensitizers, binders, fillers, stabilizers, antioxidants and special additives against static Aufla ^¬ tion and aging or UV resistance contains. ^¬ rear side the carrier layer is provided with a printing layer 10 9 which in a manner not shown the representation Position of a table into which manual entries are possible.

Claims

claims

1. paper (1) for a thermal printer having a printable front side (2) and a back side (3), wherein the paper (1) comprises a plurality of layers (4), namely a carrier layer (9) made of a carrier material and a front side on the Carrier layer (9) applied Ther- moschicht (11), dadurchgekennzeich ^¬ net, that on the front side of the thermal layer (11) ne the paper (1) characterizing printing layer (6) is applied, which between the thermal layer (11) and a on the front side on the printing layer (6) applied surface protective layer (5) is located.

2. Paper (1) according to claim 1, characterized in that the thermal layer (11) contains color image ^¬ ner and color developer, binder, pigments and Be ^¬ accelerator.

3. Paper (1) according to one of the preceding claims, characterized in that the thermal layer (11) comprises a thermal top layer (7) and a between the thermal top layer (7) and the carrier layer

(9) located thermal underlay (8).

4. Paper (1) according to any one of the preceding claims, characterized in that the Trä ^¬ gerschicht (9) with a back printing layer

(10) is provided.

5. Paper (1) according to any one of the preceding claims, characterized in that the Surface protective layer (5) has a thickness of 2 - 3 microns.

6. Paper (1) according to one of the preceding claims, characterized in that the printing layer (6) has a thickness of 1-1.5 μm.

7. Paper (1) according to one of the preceding claims, characterized in that the thermal upper layer (7) has a thickness of 6 - 8 microns.

8. Paper (1) according to one of the preceding claims, characterized in that the thermal underlay layer (8) has a thickness of 7 to 9 μm.

9. Paper (1) according to any one of the preceding claims, characterized in that the Trä ^¬ gerschicht (9) has a thickness of 44 - 49 microns.

10. Paper (1) according to any one of the preceding claims, characterized in that the on ^¬ pressure layer (10) has a thickness of 1 micron.

11. The paper (1) according to one of the preceding claims, wherein a

Surface protection layer (5) is mechanically smoothed so that it has a smoothness between 600 and 1200 Bekk ^¬ .