DE19702475A1 - Identification of product information carriers - Google Patents

Abstract

The product identification is in the form of a metal plate with a pattern of coded holes. The code pattern is read by directing the output of optical transmitters (S1,S2) through the holes of the moving plate to be receivers (E1-E2) on the other side One transmitter (S1) is associated with a pair of closely positioned receivers (E1,E2). This allows the direction of movement of the code carrier to be determined.

Description

The invention relates to a device for identifying a Information of an information carrier. Corresponding devices are known which have special ones wireless readers to read semiconductor code carriers. Disadvantageous in these systems, the is very limited Temperature range, usually not above 70 ° C. In many Industrial areas, for example in conveyor technology This dryer is not suitable for paint dryers, as it is often Ambient temperatures of over 200 ° C prevail, which the Would destroy semiconductor components.

With the help of the proposed invention it is possible in Temperature range of up to 1000 ° C ambient temperature, depending on used information carrier material, a safe To ensure object coding. The invention is particular intended for systems with undefined operating behavior. I.e. of the Code carrier can remain in the reading device for any length of time, without false readings.

As shown in Fig. 1, the information carrier ( 1 ) is realized by two lines with a specific arrangement of holes. The configuration shown in FIG. 1, which consists of a transmitter unit ( 2 ) and a receiver unit ( 3 ), can be used for scanning. The perforated plate moves in the direction of movement shown along a transport path ( 4 ). We refer to the top row of holes as the reference row below. The second row below is called the data row.

As shown in Fig. 1, the reference series are assigned two light receivers E1 and E2 and a light transmitter S1. If there is a reference hole in the middle in front of the transmitter S1, the two receivers E1 and E2 receive the transmission signal. With a small shift of the information carrier, however, only one receiver receives the transmission signal. In the event of a further shift in the same direction, no receiver then receives a signal from transmitter S1. This arrangement makes it possible to determine the direction of movement of the perforated plate unambiguously, since either receiver E1 or receiver E2 first receives or loses the transmission signal from S1 depending on a forward or backward travel. With the help of this information, the information of the data series can be mapped in a synchronous manner with the perforated plate movement in a forward-shift register in the receiver unit.

Structure of the data series

One possible embodiment of the perforated plate is shown in FIG. 2 and FIG. 3. A reference series ( 1 ) with a transmitter and two light receivers is used. In the data series ( 2 ) there is a transmitter and a light sensor. The information is determined by the position of the marker ( 3 ). Seen in the direction of movement, it can lie either in front of or behind the reference mark of the relevant information point. So z. B. the value of the information point can be defined as '1' if the data marker lies before the reference marker. For a '0' this means that the marking must lie behind the reference mark. Accordingly, the information carrier shown in Fig. 2 and Fig. 3 has the information "10011".

This evaluation method requires two independent error states to occur so that an error is not recognized during the evaluation. The evaluation can be carried out as follows:
By arranging the receivers El and E2, the states start of hole (E2 becomes light) - hole center (E1 + E2) - end of hole (E1 becomes dark) are formed.

The data state "1" is read if a signal has been recognized by receiver E3 between the hole start and hole center states, as shown in FIG. 2.
The data state "0" is read when a signal has been recognized by receiver E3 between the hole center and hole end states, as shown in FIG. 3.
There is therefore an error if both a "0" and a "1" were recognized in a read cycle, or if no data information was read.

Other designs with e.g. B. two receivers in the data series are also conceivable.

Claims (5)

1. Device for identifying information carriers, which are located in particular on transport units of material flow systems, characterized in that the information to be identified is arranged on at least two rows, preferably as a hole pattern, the detection device consisting of at least three sensors, preferably light barriers, and two these sensors are assigned to an information series, hereinafter referred to as a reference series, in such a way that the transport direction of the information carrier is recognized from the signals received from these sensors, and at the same time by evaluating the second series, hereinafter referred to as data series, by at least one additional sensor, preferably a light barrier, the value of the Observatory can be determined. 2. Device according to claim 1, characterized in that the information marks of the data series are arranged in such a way are two independent pieces of information about the one to be read Bit value can be generated. 3. Device according to claim 1 and 2, characterized in that by using at least two sensors in each row, in both rows both data and reference signals can be included. 4. Device according to claim 1, 2 and 3, characterized in that the sensors are designed as reflection light barriers, where only the markings of the information carrier the Reflect light rays. 5. Device according to claim 1, 2 and 3, characterized in that the sensor units are designed as light barriers, two light receivers being assigned to one light transmitter can.