DE10231634A1 - Method and device for reading coded information - Google Patents

Abstract

The invention relates to a method for reading coded information (26) by means of a scanning device (1) of surfaces on packaging materials, objects and / or containers (34), in which the following process steps are carried out: DOLLAR A - Die die die frei Manageable scanning device (1) coded information (26) to be read is applied to a surface (25) of a packaging material, object and / or container (34) invisible to the human eye. DOLLAR A - By applying a scanning window (3) of the freely manageable scanning device (1) to the area (25) containing the coded information (26), printed areas (28) of the coded information (26) are converted into a by the freely manageable Scanning device (1) transferred readable state. DOLLAR A The signals read from the coded information (26) are displayed and / or reproduced in an audio / visual way.

Description

The invention relates to a Method and device for reading coded information. The encoded information can for example on the outside of packaging, such as CD cases, containers or original spare parts be appropriate to the automotive industry.

Out DE 195 17 194 A1 is known a device and a method for checking sheet material, such as banknotes or securities. The disclosed device for testing sheet material comprises an illumination device which illuminates the sheet material with light. A receiving device is provided which receives the light remitted by the sheet material and / or the light transmitted by the sheet material and converts it into corresponding electrical signals. There is also an evaluation device which processes the signals and compares them with reference data for checking the sheet material. The lighting device illuminates the sheet material continuously and in the entire spectral range to be examined. The receiving device has at least two linear CCD arrays arranged parallel to one another. Each CCD array is provided with a filter that is transparent to a certain spectral range, at least one filter in the visible and at least one further filter in the non-visible spectral range being transparent.

Out DE 199 07 045 A1 a label is known which comprises at least one section designed as a base layer and at least one section designed as an upper layer. The base layer is at least partially provided with at least one indicator means which, after the top layer has been applied to the base layer, passes through the top layer and becomes visible on the side of the top layer facing away from the base layer after a predeterminable period of time and / or at a specific temperature profile. The length of time after which the indicator agent has passed through the top layer is determined by the consistency of the indicator means and by the thickness of the top layer and by the material of the top layer and / or by the temperature. A partial and / or at least sectionally extending brake layer can be provided, by means of which the time period after which the indicator means has passed through the top layer or the extent of the at least one area in which the indicator means passes through the top layer is determined.

DE 200 10 183 U1 refers to a divisible document checking device. The document checking device disclosed comprises a housing and a glass plate arranged in a front wall of the housing as a support surface for a document to be checked. At least one scanning device / scanner and one evaluation unit / arithmetic unit with processor for digital evaluation of the signals obtained from the scanning device are arranged in the interior of the housing. The housing of the document checking device is designed to be divisible into at least two housing parts, one of the housing parts accommodating the entire evaluation unit and another housing part accommodating the entire scanning unit and at least the evaluation unit being designed to be removable.

DE 44 38 460 A1 discloses a data carrier with machine-readable coding. The data carrier has depressions in a partial area of its surface, which form the machine-readable coding and the depressions are introduced into the surface of the data carrier in such a way that they cannot be seen by the eye at the usual viewing angles. The coding can be formed, for example, by a deeply embossed relief pattern; on the other hand, the coding can also be designed as a machine-readable bar code. The coding can contain information about the manufacturer, the date of manufacture, the data carrier type, the serial number or the lot number.

DE 198 48 858 A1 relates to an electroluminescent semiconductor solid-state element as a test means for luminescent security features. For this purpose, a device for checking luminescent security features, which are arranged in and / or on valuable and security products and objects, is used. At least one UV-electroluminescent semiconductor solid element and / or at least one IR-electroluminescent semiconductor solid element and optionally a light element, the radiation of which is in the visible wavelength range, are arranged in bundles in a housing. These emit bundled radiation that is in the visible as well as in the invisible wavelength range. The proportion of radiation in the invisible wavelength range stimulates luminescent security features to emit radiation in the visible wavelength range.

The present invention lies based on the task of encoded information provided on objects surfaces read out that for the human eye is invisible and easy to use Scanning device can be read out.

According to the invention, this object is achieved by Features of claim 1 solved.

The advantages of those proposed according to the invention solution can be seen in the fact that coded information on the outside, for example of packaging materials, housings of spare parts a portable readout device are palpable. Things, Container, Components (for example automotive spare parts) can be installed be so that the encoded information from the corresponding case side of the component or - if not yet installed - by the outside the original packaging can be read.

By putting on, for example freely manageable scanning device on a coded, for example in binary Form, surface containing information that is invisible to the human eye is, can be in the way of heating, cooling, bringing about one chemical reaction or by polarizing the radiation of the coded Areas containing information influence their printed areas in such a way that their radiation reflection can only be detected by the freely manageable scanning device. To can the freely manageable scanning device with a in the range the scanning aperture executed Temperature control device may be provided. The change in reflection properties the area containing the coded information can also be applied a chemical pigment by means of the scanning device. Originally when creating the object - directly on it or on it its original packaging - applied, encoded information is for Imitators - there for human Eye invisible - not visible, but only through the freely manageable scanning device read. Through the application of the freely manageable scanning device the coded information of a change in state (heating, cooling, chemical Reaction, polarization of radiation) subjected to the reading the coded information by the freely manageable scanning device allows.

In a further embodiment of the Solution underlying the invention can in the freely manageable scanning device in the area the scanning aperture arranged temperature control device can be included, through which the coded Area containing information a packaging material, object or container is heatable. The warming a printed area containing coded information on a Object, packaging material or the like leaves it radiation of one wavelength emit which over the optical devices of the freely manageable scanning device can be recorded. In another design option of the proposed according to the invention The method can be applied to the freely manageable scanning device a chemical substance, for example containing a pigment the printed areas of the coded information are applied so that a chemical reaction or heat development occurs. In such a way heat generation resulting optical radiation can pass through the scanning device however, remains invisible to the human eye, because the wavelength is not visible. On the other hand, the heat development can also Put on the housing the scanner is activated; in the non-activated state is the printed area reflected by the encoded information Radiation not visible, this can only be seen when the scanning device is attached to go into a wavelength the for the scanner - but not for the human eye - visible and can therefore be evaluated.

Another way for human Eye invisible encoded information using a freely manageable Applying the scanning device lies in the application of radiation one wavelength, starting at a wavelength range of 350 nm, or UV or infrared radiation through the scanning arrangement.

The coded information to be read out, that on the original packaging or the housing of a component for human Eye is applied in invisible form, for example with With the help of a polarization element, which on the scanning opening of the freely manageable scanning device is to be applied, read. The coded information is transmitted by means of the polarization element for that free manageable scanning device visible and therefore readable.

The encoded information of a field on the original packaging material or directly on the object let yourself with the help of a between the object and the freely manageable scanning device Read the producible magnetic circuit. By means of the magnetic circuit can Example those printed with a specific magnetizable printing ink Areas of the coded information are activated such that this about the transparent scan opening read out by means of the optics recorded in the freely manageable scanning device can be.

The coded information can be applied to the surface of the original packaging of the object or the component to be scanned in field form or in line form. Depending on the application, the coded information can be read out on a data strip or on a field containing the coded information either field or line by line or field and line by line. The data strip acting as a transmitter of reflected radiation and the scanning device serving as a receiver represent a combination of security features which only communicate with one another in combination. Only when the freely manageable scanning device is applied to the top of the data strip containing the coded information can the pair: scanning device / data strip transmit information. If one of the partners of the security pair is missing, the coded information cannot be evaluated. A release code can be contained in the fields or the lines of the field containing the coded information, for example in binary form, which is recognized by a transponder (switchover function) contained in the freely manageable scanning device. If the transponder contained in the freely manageable scanning device has received the release code, the field or line form can be read out coded information of the scanning field on the object or on the packaging.

Another way of encoded information from one for area of an object invisible to the human eye or Reading a packaging is given by the fact that the printed Areas of the coded information under one at the freely manageable Preselectable scanning device Illumination angles are irradiated and those from the printed areas the information read out of the coded information is dependent on the angle of illumination. The selective preselection of an angle of incidence allows therefore from the printed areas of the coded information readable information varies. Will the printed areas Underlaid with a hologram, the readable information content of these areas are potentiated. It is irrelevant whether the Holograms underlay such areas of the coded information are arranged in rows or field form. With the holograms can be printed information, with two data strips on top of each other applied in different angular positions relative to each other become. The hologram is made by overlaying the different ones Data strips arranged position angles generated. This through overlay generated holograms can contain different information only from different angles are visible. For decryption the information contained in the holograms is therefore at least two different lighting angles are necessary, based on two Brought about will be: First can the angle of illumination of the incident radiation by the Inclination of the optical head of the freely manageable scanning device be varied; alternatively, the perspective can be changed.

The invention is described below with reference to the drawing described in more detail.

It shows:

1 a scanning device for reading out coded information in longitudinal section,

2 the scanning device according to 1 in cross section,

3 3 shows a cross section through the scanning opening, the scanning device being provided with a temperature control device which is located inside the scanning device above a readout opening,

4 a bottom view of the transparent scanning window,

5 a dot pattern not visible to the human eye on a packaging surface or outer casing wall of an object with field and row arrangement,

6 a polarizing element for the scanning opening of the scanning device and

7 a light source which scans the areas of the dot pattern printed with printing ink and which is flexible to the printed areas and which is arranged movably within the scanning device.

1 shows a scanning device for reading coded information in longitudinal section.

In the housing of a scanning device 1 (Reader), which is only partially shown here, is a contact surface 2 integrated, with which the scanning device can be placed on a template to be scanned. At the bottom of the scanner housing 1 is a bowl-shaped frame structure 8th let in which is a sampling window 3 contains in which a cover 4 made of transparent material. The inside of the bowl-shaped frame structure 8th can with a reflective coating 5 , such as mirror film, or a reflective paint. Inside the bowl-shaped frame structure 8th dipping in is an optics carrier 6 shown on which a lens consisting of several partial lenses 7 can be included.

The objective 7 can, for example, in a lens holder 11 on the optics carrier 6 are inserted and locked in their inserted position in fastening openings, so that its relative position with respect to that in the housing of the scanning device 1 movable optics carrier 6 is set.

With reference numbers 12 are the limiting rays of the cone of rays emanating from the lower of the lenses of the objective, which are directed onto the transparent cover 4 hit and the surface of the below the transparent cover 4 lying template 25 . 26 (cf. representation according to 3 ). The transparent cover 4 can for example consist of glass with a favorable refractive index; but it can also be made of transparent plastic material. On the exit side of the lens 7 are the boundary beams of the exit beam with reference numerals 13 designated. The exit beam cone 13 meets an inclined inside the housing of the scanner 1 arranged deflection surface 14 , for example arranged on the optics carrier accommodated in the housing 6 , the deflecting surface 14 can preferably be formed as a mirrored surface. From the one in the scanner housing 1 , inclined by the angle 15 to the optical axis 20 , arranged deflection surface 14 hits a redirected cone of rays 17 on the surface of a sensor element 16 , The long side of the sensor element 16 runs essentially parallel to the optical axis 20 of the lens 7 and can either be configured as a line sensor or also in the form of a sensor array.

Due to the movability of the optics carrier 6 on perpendicular to the plane of the drawing 1 arranged, rail-shaped sliding elements, the resolving power can be kept constant, ie the focal length of the lens 19 with respect to the bottom of the cover made of transparent material 4 to reach. If the focal length is constant over the entire scanning range, the resolution of the lens remains 7 over the entire scanning area, which is perpendicular to the plane of the drawing 1 runs, constant, so that no resolution fluctuations, especially in the end zones of the template to be scanned 25 . 26 may occur.

The representation according to 2 shows the scanning device according to 1 in cross section.

The top view of the partially cut housing of the scanning device 1 goes the lateral expansion of the optics carrier 6 out closer. Inside the optics carrier 6 is inside a lens holder 11 the objective 7 inserted, which can for example be designed as a multi-part lens arrangement. Between the lower limit of the bottom lens of the lens 7 and the transparent cover surface 4 is with reference numerals 20 the optical axis of the lens 7 located. From the ratio of the distances between the lens 7 and top of data strip 26 , the resulting distance between the image and the lens results in a depth of field, so that tolerances in the housing that arise due to production can be easily compensated for. Inclined to the optical axis 20 of the lens 7 are on the underside of the optics carrier 6 one or more light sources 9 . 32 appropriate. The focal length of the light source 9 . 32 can be chosen so that it coincides with the optical axis 20 in the lens holder 11 recorded lens 7 at the bottom of the transparent cover 4 coincides. This ensures that the top of the template to be scanned is reproduced with a sufficiently high degree of sharpness 25 about the in 1 specified optical path to the sensor element 16 takes place so that the information contained on the template, coded in binary form 26 with constant quality over the entire area of the template to be scanned 25 can be converted into audio, video or signals that can be processed on a PC.

The light source 9 . 32 can within the frame structure 8th the scanning device 1 as shown in 2 as a special light source 32 be designed, which can perform a pivoting / tilting movement with respect to its holder, which is indicated by the double arrow 33 is indicated. With the help of the tilting / swiveling movement of the special light source 32 within the frame structure 8th the scanning device 1 can - compare illustration according to 3 - printed areas 28 binary information 26 a disk 25 be irradiated under freely selectable lighting angles. Depending on the beam angles, different information contents of the binary coded information can 26 a disk 25 (Data strips) can be read out.

3 shows a cross section through the scanning opening of a scanning device, wherein the scanning device can be equipped with a temperature control device, which is in the region of the frame structure 8th above or within a transparent scan window 3 located.

In the lower area of the 3 incompletely reproduced scanner / reader 1, which is portable and can be handled freely without being connected to a power source via a line, is a frame structure 8th intended. The frame structure 8th can have a reflective coating on the inside 5 be provided and can be in 3 indicated snap locks with the housing of the scanning device, not shown here 1 connect. In the frame structure 8th are openings 10 formed, through which charging contacts extend to the in the scanning device 1 provided rechargeable batteries to charge, so that the scanning device / reader operates independently of the mains 1 can be guaranteed.

The frame structure 8th can have channels on their inside 30 for a temperature control device. The temperature control device can be designed, for example, as a heater, which can be designed, for example, as a resistance heater. Resistance heating - instead of this, the data strip can also be heated using microwaves or IR radiation - can be connected 31 with the current / voltage supply of the scanning device, not shown here 1 be connected and for temperature control of the scanning device in the area of the frame structure 8th and thus in the area of the scanning window 3 serve.

Instead of a temperature control device designed as a heater, it is just as possible on the inside of the frame structure 8th To provide channels for a cooling medium or to provide a Peltier element with which the frame structure 8th can be cooled.

Below the cover 4 made of transparent material, which is in the scanning opening 3 the frame structure 8th is embedded is a housing wall 34 indicated. In the with reference numerals 34 indicated housing wall can be a data strip 25 be inlaid on its top with binary information 26 is provided.

The one on the top of the in the case wall 34 embedded data strip 25 provided encoded information 26 has the transparent cover 4 the frame structure 8th the scanning device 1 to. In the case with reference numerals 34 designated component can be, for example, the housing of a water pump, a generator or a motor vehicle battery or any other motor vehicle spare part. In addition, reference numerals 34 also designate part of an original packaging of an object, in the wall thereof the data strip 25 can be let in; alternatively, the data strip can be 25 also apply to the surface of the object or the original packaging. The data strip 25 contains coded information on its side accessible to a reading device 26 that are at the top of the data strip 25 are applied and for example via the freely manageable, transportable scanning device 1 are readable. The encoded information 26 is used in the manufacture or production of the object 34 - Be it an original packaging, be it the housing of a motor vehicle spare part or the like - applied and is not visible to the human eye with the unarmed eye. When applying a chemical substance, such as a pigment, depending on the selection of the selected chemical substance, the code on the object can be irretrievably destroyed on the one hand, and on the other hand, the selection of the chemical substance can limit the readability in terms of time through the freely manageable scanning Establish facility as the chemical substance can be a volatilizing substance. In addition, it is also entirely possible to use, as the chemical substance influencing the coded information, those which can simply be wiped off the object or the original packaging after reading by the freely manageable scanning device.

The binary information 26 at the top of the data strip 25 can for example printed areas 28 include that contain an ink and those areas that are unprinted.

4 shows a bottom view of the transparent scanning window, which is embedded in the frame structure in the lower region of the scanning device.

The scan window 3 includes a cover 4 made of transparent material, which is in a border in the lower area of the frame structure 8th the scanning device / the reading device 1 is let in. In dashed lines, this is in the lower area of the frame structure 8th running temperature control device 30 indicated. The temperature control device 30 can essentially be the scan window 3 the frame structure 8th extend. In the frame structure 8th are the charging contacts 10 recognizable via which the freely manageable, transportable scanning device 1 is rechargeable when the internal energy storage is exhausted. In addition, it is also possible to use the temperature control device 30 also in the scan window 3 the frame structure 8th to integrate.

5 represents a dot pattern that is not visible to the naked human eye, which can be applied, for example, to an original packaging surface or an outer housing wall of an object and which is designed in a field and / or line arrangement.

The one on the top of a disk 25 such as a data strip, encoded information 26 includes a dot pattern as enlarged by the arrow 27 is shown. The dot pattern 27 contains with printing ink 28 printed areas as well as such areas 29 that are unprinted. The printed areas are essentially square or rectangular contiguous surface areas on the top of the data carrier 25 played. The surface areas, which are of quite different geometry, are preferably kept in a coloring which, when excited, offers the contrast which is sufficiently high for the scanning device, which results in an improved resolution, which in turn can be used to isolate the data strips or data strips containing the coded information Disk 25 to reduce in size and arrangement.

The encoded information 26 , which is preferably in binary coded form, can be within the scanning window for the freely manageable scanning device 1 (Reader) in the form of fields 41.1 . 41.2 respectively. 41.3 be arranged and divided. In connection with the arrangement of fields 41.1 . 41.2 respectively. 41.3 can the binary coded information 26 also in line form 42.1 . 42.2 . 42.3 ..... to 42.n on the disk 25 within the by the freely manageable scanning device 1 scannable area. In the individual fields 41.1 . 41.2 respectively. 41.3 information about the type, the year of manufacture, the lot size and the like can be stored in binary-coded form. However, this information can also be in line form 42.1 . 42.2 . 42.3 ... to 42.n on the surface of the disk 25 be deposited.

This information is for human The eye is not visible and is therefore visible to the naked eye The object or the original packaging.

When the printed areas heat up 28 the binary coded information 26 however, the printed areas emit 28 a radiation from the optics 7 . 22 . 24 the optics 7 . 22 . 24 the freely manageable scanning device 1 can be interpreted. The optics 7 . 23 . 24 read out information is in the scanner 1 through the sensor element specified in this 16 either converted into visually displayable or into audio information, which is sent directly through the scanner 1 (Reader) can be output again. The one from the data strip 25 Readable, preferably binary coded information 26 is only possible through the application of the freely manageable scanning device 1 readable and cannot be read by the unarmed human eye.

It is also possible in the field of coded information 26 a release code 38 provided. Becomes a freely manageable, portable scanning device 1 on the in 5 shown disk 25 applied, the Ausle sen in field arrangement 41.1 . 41.2 . 41.3 or line arrangement 42.1 . 42.2 . 42.3 ... 42.n organized information by unlocking one in the freely manageable scanning device 1 provided transponders. The transponder is identified by the release code 38 that in the binary coded information 26 of the disk 25 is activated.

6 shows a polarization element for the scanning opening of the freely manageable scanning device.

The disk 25 , in 5 Shown as a data strip, can be in its printed areas 28 be printed with a printing ink that is only visible under appropriately polarized light. Will over the sampling window 3 the freely manageable scanning device 1 a polarizing element 35 the areas printed with the printing ink that is only visible under polarized light 28 the coded information 26 for the freely manageable scanning device 1 visible and the encoded information 26 can be read out by this. The polarizing element 35 - For example in the form of a polarizing film - can be made by means of openings 36 in the field of frame structure 8th on the underside of the freely manageable scanning device 1 be attached. By means of the polarization element 35 For example, in the form of a polarizing film, the radiation can be polarized in the horizontal direction, vertical direction or circularly, combinations of the polarization orientations with one another also being possible.

7 shows a light source of the scanning device which scans the information coded areas of a dot pattern and which can be pivoted to the printed areas in certain angular positions and which is movably received in the lower area of the freely manageable scanning device. Instead of a swiveling light source inside the scanning device that is on top 26 of the data carrier containing the binary information 25 is applied, the optics can also be pivotally received within the scanning device in a kinematic reversal, so that its angular position can be adjusted with respect to the area of the data carrier containing coded information to be scanned.

On a freely manageable scanning device 1 facing outside of an object or an original packaging 34 are printed areas 28 as well as unprinted areas 29 executed. Depending on the application, this can be underlaid with a hologram with which the information content of the freely manageable scanning device 1 readable information can be expanded considerably. In the lower area of the scanning device 1 can be one within the frame structure 8th swiveling special light source 32 be trained. The special light source 32 is according to the double arrow 33 pivotable in both directions and can be relative to the optical axis 20 the freely manageable scanning device 1 at certain angles of inclination 40 be determined. Depending on the set lighting angle 40 information from the printed areas 28 the coded information 26 - be it backed by holograms or not - read out. Will be in the freely manageable scanning facility 1 the light source 32 in relation to the optical axis 20 the freely manageable scanning device 1 adjusted, so can be in the printed areas 28 and take further information from any holograms below. Depending on the chosen lighting angle 40 the special light source 32 in relation to the optical axis 20 the freely manageable scanning device 20 In this way, the coded information 26 potentiate removable information content.

1

Reader / sampling device

2

touchdown

3

sampling

4

cover

5

reflective coating

6

optics carrier

7

lens

8th

frame structure

9

lighting carrier

10

charging contacts

11

lens holder

12

Incident beam cone

13

Failure-ray cone

14

deflection

15

Tilt

16

sensor element

17

diverted beam path

18

traversing

19

distance

20

optical axis

21

lens carrier

22

lower lens

23

cover

24

upper lens

25

data strip

26

coded Information (top of data strip)

27

Dot pattern

28

printed areas

29

pressure-free rooms

30

tempering

31

Temperature control device connections

32

Special light source

33

Pan / tilt range

34

housing wall

35

polarizing film

36

fastening opening

37

-

38

release code

40

lighting angle

41

readout fields

41.1

first field

41.2

second field

41.3

third field

42

readout lines

42.1

first row

42.2

second row

42.3

third row

42.n

n-th row

Claims (14)

Method for reading coded information ( 26 ) by means of a scanning device ( 1 ) of surfaces of packaging materials, objects and containers ( 34 ) with the following procedural steps: - by the freely manageable scanning device ( 1 ) Coded information to be read out ( 26 ) is placed on a surface ( 25 ) of a packaging material, object, container ( 34 ) not visible to the human eye, - by application of the scanning window ( 3 ) the freely manageable scanning device ( 1 ) to which the coded information ( 26 ) containing area ( 25 ) printed areas ( 28 ) the coded information ( 26 ) in a by the freely manageable scanning device ( 1 ) readable state transferred. A method according to claim 1, characterized in that by means of a in the freely manageable scanning device ( 1 ) arranged temperature control device ( 30 ) which is the encoded information ( 26 ) containing area ( 25 ) of the packaging material, object, container ( 34 ) is heated. A method according to claim 2, characterized in that when the printed surfaces are heated ( 28 ) the coded information ( 26 ) they emit radiation of a wavelength which is transmitted via the optical devices ( 7 ; 23 . 24 ) the freely manageable scanning device ( 1 ) is detectable. Method according to Claim 1, characterized in that when the freely manageable scanning device ( 1 ) a chemical substance with the printed areas ( 28 ) the coded information ( 26 ) reacts. A method according to claim 4, characterized in that the application of the chemical substance to the printed areas ( 28 ) the coded information ( 26 ) results in a chemical reaction. A method according to claim 4, characterized in that the application of the chemical substance to the printed areas ( 28 ) the coded information ( 26 ) causes a change in temperature. A method according to claim 1, characterized in that the coded information invisible to the human eye ( 26 ) with a radiation of a frequency when the scanning device is applied ( 1 ) is irradiated, which encoded information ( 26 ) for the scanning device ( 1 ) makes visible. Method according to claim 7, characterized in that the radiation in a wavelength outside is in a range from 320 to 640 nm. A method according to claim 1, characterized in that the coded information ( 26 ) a polarizing element ( 35 ) is superimposed so that the encoded information ( 26 ) for the scanning device ( 1 ) can be read out. A method according to claim 1, characterized in that the encoded information ( 26 ) Fields ( 41.1 . 41.2 . 41.3 ) or lines ( 42.1 . 42.2 . 42.3 .... 42.n ) that are read out field by line or line by line. A method according to claim 1, characterized in that the reading of the coded information ( 26 ) via a release code contained in this ( 38 ) is released, which is via a in the scanning device ( 1 ) contained transponder is recognized. A method according to claim 1, characterized in that the printed areas ( 28 ) the coded information ( 26 ) with the scanning device ( 1 ) selectable lighting angle ( 40 ) a special light source ( 32 ) can be scanned and are from the printed areas ( 28 ) the coded information ( 26 ) the information read out is dependent on the angle of illumination. A method according to claim 10, characterized in that to increase the readable information content the fields ( 41.1 . 41.2 . 41.3 ) and lines ( 42.1 . 42.2 . 42.3 .... 42.n ) Holograms are highlighted A method according to claim 8, characterized in that by means of the polarization element ( 35 ) the radiation is polarized horizontally, vertically or circularly.