DE1235045B - Device for scanning perforated recording media - Google Patents

Description

Device for scanning perforated recording media The invention relates to a device for scanning record carriers in which Information is stored in the form of hole combinations, in particular punch cards, wherein the material of the recording medium emits an ion current to scanning electrodes interrupts.

In communications engineering and in data processing technology frequently information is stored in recording media by means of hole combinations. When this information is recycled, the recording medium has to be recovered are scanned. In addition to mechanical, optical and acoustic scanning devices a scanning device for perforated recording media is known in which both sides of the recording medium each has an electrode. According to this in the U.S. Patent 2 861220 indicated scanning device, if a perforation occurs in the area of the electrodes formed an ionization path, while the material of the recording medium prevents the formation of an ionization path between the electrodes. Disadvantageous with this arrangement, however, is that only very thick and homogeneous recording media May be used because an ionization path is used in thin and porous recording media is formed through the pores of the recording medium. So there would be Scanning holes are displayed where there are actually no holes.

The object of the invention is to use punched recording media to sample an ion stream, the disadvantages described when using thin and porous recording media do not occur.

The object set is according to the invention by a device solved, which is characterized in that one of two electrodes with a high potential difference formed ionization path on one side of the recording medium and accordingly the recording tracks of the recording medium are scanning electrodes on the other Side of the recording medium are arranged such that ions of the through the ionization path formed ion gas through perforations occurring in the recording medium to the Scanning electrodes arrive.

The advantage of this arrangement is that the two electrodes on one side of the recording medium the ionization path through the between the two electrodes existing high potential difference is formed. This high potential difference is necessary to form an ionization path. the Electrons are moved at high speed and could therefore pass through pores of a recording medium if it is between the ionization electrodes would be passed through. In the present case, however, the record carrier is next to the ionization path so that the ions through the recording medium can be prevented from being diz on the other side of the recording medium Arranged scanning electrodes come close. Only if there are perforations the ions reach the scanning electrodes.

According to a preferred development of the device according to the invention the ionized gas is moved over the recording medium. This will resulting paper dust is transported away from the scanning points and the inonized Gas mechanically through perforations in the recording medium to the scanning electrodes introduced.

According to a further embodiment of the device according to the invention two metal tips with different potentials are arranged in the gas duct, with the metal tip with the more positive potential is arranged closer to the recording medium is.

An embodiment of the invention is shown in the drawing and described below. The figure shows a simplified sectional illustration a scanning device with ionized air, by means of which a punched tape is scanned will.

Air is blown from above in the direction of the arrow with a slight excess pressure through a channel 1 onto a perforated strip 2. There are two metal tips 3, 4 in the air duct. The metal tip 4 closer to the punched tape 2 is grounded, the metal tip 3 further away from the punched tape is connected via a high-resistance 5 to the negative pole of a voltage source of several kilovolts. The air is ionized, ie charged, when it passes the metal tips 3, 4 by the large electric field strength prevailing there. The arrangement is dimensioned so that no spark discharge occurs. The negatively charged air particles move from the metal tip 3 to the grounded metal tip 4. Many of these charge carriers are carried away by the air flow and either hit the punched tape 2, if there is no hole, or an electrode 6, if the punched tape 2 is at this point has a hole. When the charge carriers can reach the electrodes 6, one of which is arranged for each scanning point, they transfer their charge to them. If the electrodes 6 are connected to a zero potential, current flows through the electrodes when there is a hole in the punched tape 2. The scanning current is amplified via a tube circuit 7 and made available on an output line 8 for evaluation.

The scanning device described above allows a scanning speed which is equal to that of optical scanning devices.

Claims (3)

Claims: 1. Device for scanning recording media, in which information is stored in the form of hole combinations, whereby the The material of the recording medium interrupts an ion flow to the scanning electrodes, d a - characterized in that one of two electrodes (3, 4) with a high potential difference formed ionization path on one side of the recording medium (2) and corresponding to the recording tracks of the recording medium scanning electrodes (6) are arranged on the other side of the recording medium that ions of the ion gas formed by the ionization path through in the recording medium (2) occurring perforations reach the scanning electrodes (6). 2. Device according to Claim 1, characterized in that the ionized gas moves over the recording medium (2) is performed. 3. Device according to one of claims 1 or 2, characterized in that that in the gas channel (1) two metal tips (3, 4) with different potentials are arranged are, the metal tip (4) with the more positive potential the recording medium (2) is arranged closer. Publications considered: German patent specification No. 676,537; U.S. Patent No. 2,861,220.