CS207293B1 - Scanner of the cards marked by the pencil - Google Patents

Description

(54) Pencil label reader

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pencil-tagged sensor.

The prior art sensors use reflection reading. In this way, the prescribed parameters of the graphic mark must be strictly observed. Failure to observe the size of the mark causes scanning errors. Also breaking - bending the label causes artifacts, manifesting error. The light source is a projection or other bulb, which places increased demands on heat dissipation, power consumption and dimensions. , J

These drawbacks are eliminated by a pencil! labeled photoelectric principle with a ί switch head, comprising an infrared radiation source and photodetectors, according to the invention, characterized in that a block of photodetectors is placed opposite the infrared radiation source in the sensor head, to which one output is connected via an amplifier and flip-flop the sensing synchronization circuit and the other outputs of the photodetector block are connected via memory amplifiers and flip-flops, whose reset inputs are interconnected and the control inputs are also interconnected.

The sensor head moves between the infrared radiation sources and the photodetectors with a label which is illuminated and a graphic mark formed on the label absorbs part of the infrared radiation.

By illuminating the graphic tag with an infrared radiation source, the sensor sensitivity and the tolerance of the graphic symbol parameters are increased, thereby reducing the number of scanning errors.

The invention is explained in more detail by way of example with reference to the accompanying drawing, in which a block diagram of a sensor is shown.

A block 57 of photodetectors, for example phototransistors, is located in the sensor head 1 against the infrared radiation source 56. The infrared radiation source 56 comprises, for example, thirteen electroluminescent diodes and a block 57 of photodetectors with thirteen phototransistors, each connected to an amplifier of 2 to 14 sensed pulses. The outputs of the amplifiers 2 to 14 are connected to the Schmitt flip-flops 15 to 27. The output of one flip-flop 27 is connected to the input of the scan synchronization circuit 40 and the outputs of the other flip-flops 15 to 26 are connected to memory inputs 28 to 39. _and they are mutually interlinked and 41 control inputs are also connected to each other j.

A graphic mark is taken from the individual stop labels in the sensor head 1 by means of a block 56 of photodetectors and the scanned pulses are amplified in amplifiers: 2 to 14. After shaping with Schmitt flip-flops ^: circuits 15 to 27 are fed to memories 28 to 39. 28 to 39 are associated with other digital technology means which are controlled by the control output 43 and the synchronization output

the sensing circuit 40. The control input 41 reads information from memories 28 to 39.

The zero state corresponding to the sensor sleep mode is induced by a positive pulse applied to the reset input 42 of memories 28 to 39.

The sensor according to the invention can be connected to digital means which enable the sensor-transformed data to be recorded on media suitable for inputting data into a computer or to a computer for direct input of data from a label.

Claims (1)

SUBJECT OF THE INVENTION Photoelectric photoelectric sensor tag sensor with sensor head, comprising an infrared radiation source and photodetectors, characterized in that in the sensor head (1) opposite the infrared radiation source (56) there is a photodetector block (57), one output of which is a sensing synchronization circuit (40) is connected via an amplifier (14) and a flip-flop (27), and memories (38 to 39) are connected via amplifiers (2 to 13) and flip-flops (15 to 26) to the other outputs of the photodetector block (57). ), whose reset inputs (42) are interconnected and control inputs (41) are also interconnected.