DE10320383A1 - Object coding for machine readable marking by stamping ring markings into object material during manufacture - Google Patents

Abstract

Information code is made up of rings (1) or ring sections (3) with marker (4) for zero position. Code is directly impressed on workpiece as recessed and raised areas forming the rings/spaces during manufacture by stamp. Varying of rings or ring section patterns, number of rings /sections applied provides increased coding volume. Independent claims included for 1) For coding procedure 2) For manually adjustable stamp.

Description

State of technology

The The invention is based on an apparatus and a method for Coding objects.

at the known codes, in which the coding by means of continuous Numbers or letters, one or two-dimensional readable strips and Point codes ("barcodes", "data matrix") takes place high contrast between the coding feature and the background is required. Therefore they are usually printed in black and white on labels educated.

A device and a method for identifying and identifying an object are known ( DE 199 10 226 A1 ), in which the object is encoded by an annular area applied by the manufacturing process, in which a barcode (= barcode) is applied. The optically readable bar code, consisting of bars and gaps, is arranged in the form of a beam from a center of the annular region. This method has the disadvantage that the application after the manufacturing process already harbors a source of error due to inconsistent placement. In addition, a high level of measurement effort is required to measure the thickness of the lines and spaces.

It is also known to use an optoelectronically detectable identification or target element and a method for its detection ( DE 196 32 058 C1 ) to be used with an identification mark delimited by a circular circumferential line which is characterized by circular coding elements arranged around the identification center. The combination of coding points with angular positions used therein, which differ from each other by 30 °, 20 ° 360 ° / 24, harbors a considerable source of error both for this combination of features and for its appearance as an elliptical structure for the digital image recording device, since it requires a great deal of computation is necessary for decoding.

Furthermore, a coded label or sticker for the automatic identification of objects is known ( US 3,808,405 ), in which the coding is achieved by segment pairs, each of which defines a “digital pulse pair”. The width and arrangement of the segments is fixed and not variable. The disadvantage of this solution is that stickers can fall off the object to be coded and damage an inscription can be so that a clear identification of the object is no longer possible.

The invention and their advantages

The method according to the invention and the device according to the invention, in particular for carrying out the method for coding objects, have the advantages that the coding takes place in that the information code consists of a plurality of readable rings or ring sections which are arranged centrally symmetrically around a center point. This ring code can be read with rotation invariance. The presence or absence of a ring results in binary information with the maximum coding number 2 ⁿ , where n is the number of data rings. Coding by arranging mutually offset ring segments is also conceivable, as a result of which the coding variability is greatly increased. With a four-stage (90 °) rotation of the semicircular ring segments, for example, the coding range increases to 4 ⁿ or 4 [ ^n-1 ) for the rotation-invariant reading. The simple geometric shape of the concentric rings and the ability to read the code in several places result in a high degree of reliability for the desired identification of the workpiece.

at the coding according to the invention the surface of the workpiece is designed spatial Depressions and / or elevations. Either the ring thickness as well as the ring height as well as the sections between the ring sections are variable. This leaves the data content increases significantly. The surface design can also be done by roughening portions of the surface in the Form of rings or ring segments take place as well as sections with the shapes mentioned above, the material structure of which by the action of Pressure or heat changes has been. The coding can also be done by etching, engraving, Shape or lasers.

To an additional advantageous embodiment of the invention is read off the Codes along a radius or multiple radii of the rings either from the outside inside or vice versa. To enable the reading process, is attaching one or more catch rings, the inside and / or Outside may be appropriate intended. The rings or ring sections have a marking in the center, which defines the 0 position.

According to an additional advantageous embodiment of the invention, the coding is applied directly to the workpiece to be coded during the manufacturing process and thus a source of error for detecting the workpiece is excluded. The coding integrated in the manufacturing process makes it possible to use the coding for identifying and / or sorting and assigning of the workpiece to a certain product group is possible without an additional work step; the devices required for this are also dispensed with. The coding is inseparable from the workpiece and cannot fall off in the life cycle or be removed from the workpiece without damage. The workpiece is not contaminated with ink, paint or adhesive materials, which is advantageous both for use in the food sector and for recycling.

To an additional advantageous embodiment of the invention is in the manufacturing process of the workpiece the information code is injected directly into the workpiece with the injection nozzle. The tool shape must be changed the coding has not changed be the change the coding is done by replacing the injector. at If necessary, the coding can be changed at certain intervals without additional effort, because the socket with the injector must be changed frequently in the manufacturing process anyway. The information code can be varied.

To an additional advantageous embodiment of the invention is used to introduce the Coding during of the process, for example injection molding, injection blowing, Blowing, die casting, forging, sintering, extrusion, pressing or similar is a Stamp used. This stamp is on the shaping tool, for example, attached to the injection bushing. He can either fixed or changeable be equipped with a negative form of the code or one Have device with light, heat or with the help of another physical Effect creates a sufficient contrast on the surface. The stamp is preferably round, the coding features are on applied to a lathe. In an advantageous embodiment of the invention, the stamp consists of several nested Ring sleeves that are rotatable against each other. On every ring sleeve a ring segment of the code. The ring segments are adjustable by hand or are driven by an electric motor. It also follows from this the possibility, that every workpiece with every "shot", i.e. with every Injection process, receives a new code.

Further Advantages and advantageous embodiments of the invention are the the following drawing and the embodiment can be seen.

drawing

embodiments the invention are illustrated in the drawings and below described in more detail. Show it:

1 : Rings for coding

2 : Ring sections for coding

3 : another example with ring sections for coding

4 : variable coding with ring sleeves

5 : Principle of the rotational positions of the ring sections

6 : Ring sections with a large coding volume

7 : individual components of the stamp

8th : assembled stamp

description of the embodiment

In 1 coding by rings is shown. It contains an outer snap ring 1 as well as other rings 2 for coding. The Rings 2 give a value for coding 2 ⁿ possibilities, where n is the number of rings 2 is. These are arranged centrally symmetrically, in this example rotationally invariant, because the rings 2 are designed as full rings.

In 2 becomes a fixed code from ring sections 3 represented by a marker 4 has, which defines the 0 position and in this example is designed as a position pointer. This coding with the ring sections 3 gives a value of (2 ^a ) ⁿ possibilities, where a is the number of sections per ring and n is the number of rings.

3 shows another example of coding by ring sections 3 with the mark 4 ,

In 4 becomes a variable code from ring segments 3 with a marker 4 shown, the 4 rotatable ring sleeves 5 consists. The number of coding options in this case is (a) ⁿ , where a is the number of rotational positions and n is the number of rings.

In 5 is a rotatable ring section 3 with the mark 4 and the basic process of changing the rotational position is shown. The left position shows the rotational position 0 °. The ring section is turned to the right in order to obtain further valid rotational positions. The mark 4 (Arrow) is the corresponding reference variable and always shows the 0 ° position. For example, at 40 valid angular positions, the coding volume is 40.

6 shows several rotatable ring sections 3 with the mark 4 , By increasing the number of ring sections 3 the coding volume increases sharply. When using example se 6 concentric ring sections 3 the coding volume for 40 angular positions is 406 = 4,096,000,000 possibilities.

7 shows a manually adjustable stamp 6 from a round insert permanently installed in the tool 7 with the outer snap ring 1 and four adjustable inserts 8th . 9 . 10 and 11 , The three inner three-quarter ring sections 3 of the stakes 8th to 10 can be rotated by 15 ° against each other when the stamp is disassembled. When the stamp is reassembled, the ring sections are 3 secured against twisting by the teeth. Use with the arrow (marking 4 ) is used to attach the stamp 6 and as a safeguard against the inserts falling out 7 to 11 , With this stamp 6 243 = 13,824 different codes can be set.

8th shows the stamp 6 in the assembled state, the coding example shown in the drawing in this embodiment 12 generated, which is applied directly to the workpiece to be coded, for example made of plastic, during the manufacturing process.

All Features shown in the description and the drawing can both individually as well as in any combination with one another essential to the invention his.

1

Outer ring

2

rings

3

ring sections

4

mark

5

rotatable ring sleeve

6

stamp

7

commitment

8th

Adjustable commitment

9

Adjustable commitment

10

Adjustable commitment

11

Adjustable commitment

12

coding example

Claims (17)

Coding of objects - characterized by an information code to be applied to the object, characterized in that the information code consists of machine-readable surface differences introduced into the surface of the object. Coding according to claim 1, characterized in - that the surface information forming the information code from spatial Depressions and / or elevations in the surface of the object and - that reading by capturing the profile of these wells and / or increases he follows. Coding according to claim 1, characterized in that the information code from differences in roughness of the surface of the Object exists. Coding according to claims 1-3, characterized in that the information code by several readable rings ( 2 ) or legible or omitted ring sections ( 3 ) is formed by a catch ring ( 1 ) are enclosed. Coding according to claim 4, characterized in that the rings ( 2 ) or ring sections ( 3 ) are arranged largely centrally symmetrical to a center. Coding according to Claims 4 and 5, characterized in that that the ring course is spiral. Coding according to claim 4 and 5, characterized in that the ring sections ( 3 ) have a division with readable or omitted ring sections with a rotational offset between the beginning and end of the respective ring segment and that the starting position is marked by a marking defining the 0 position ( 4 ) is provided. Coding according to Claims 4-7, characterized in that the rings ( 2 ) or ring sections ( 3 ) are of different widths. Coding according to claims 4-7, characterized in that the readable rings ( 2 ) or ring sections ( 3 ) are of different depths or heights. Method for coding objects, in which a Information code is attached to the object, characterized in that that the arrangement of the information code on the object during the Production of the object is applied. A method of coding according to claim 10, characterized characterized that the information code due to structural changes of sections of the surface of the object, for example due to pressure and / or heat is formed. Coding tool for coding objects, in particular for generating the information code according to claim 1, characterized in that as a tool a stamp having the information code as a negative form ( 6 ) serves. Coding tool according to claim 12 for use with sprayed workpieces, characterized in that the spray nozzle in the center of the stamp ( 6 ) is arranged. Coding tool according to claim 12 or 13, characterized in that - the stamp ( 6 ) from several ring sleeves lying one inside the other ( 5 ) exists - that the ring sleeves ( 5 ) can be rotated against each other - that on each ring sleeve ( 5 ) there is a ring section of the code. Tool according to claim 14, characterized in that the ring sleeves ( 5 ) of the stamp ( 6 ) are manually adjustable. Tool for the coding method according to claim 14, characterized in that the ring sleeves ( 5 ) of the stamp ( 6 ) have an electric motor drive. Method according to claims 1-3 in connection with claims 14-16, characterized in that the ring sleeves ( 5 ) of the stamp ( 6 ) can be adjusted with every coding process.