DE1219267B - Arrangement for column or line scanning of idle punch cards or the like. - Google Patents

Description

Arrangement for column or line scanning of those at rest Punch cards or the like. The invention relates to an arrangement for scanning of punch cards not moved during the scanning process or the like. By means of a on individual marking positions in a row (row or column) of the punch card adjustable light beam and one arranged in the beam path behind the punch card Light receiver.

In many applications it is necessary to split punch cards or to scan line by line multiple times, with the option of selecting the rows retrieve individually. For this purpose, the cards must then be used during the scanning process be at rest. For scanning recording media that are at rest, one has Cathode ray devices have already been used, with the cathode ray over the recording medium is moved. However, the effort for this is so great that it is desirable to have a cheap and at the same time very reliable beam deflection unit to manufacture create.

According to the invention there is one in one plane under the card support elliptically curved concave mirror is provided, the elliptical cutting line of which is parallel to the direction of the row of cards to be swept by the light beam, furthermore in the focal line of the elliptical mirror above the map support a rotating mirror is arranged, the axis of rotation of which is at right angles to the row of cards that can be swept over and is parallel to the plane of the map and one light beam corresponding to it Setting directs to a marking position of the row of cards, and finally is in the second focal line, whose beam path to the elliptical mirror is free of components, the light receiver is arranged.

The use of the elliptically curved mirror has the advantage of that in spite of a stationary scanning device and a stationary recording medium one of the rotating mirror outgoing light beam for each activated marking position of its row of cards reflected to the same photocell.

Further developments of the invention are characterized in the subclaims.

The invention is illustrated below with reference to FIGS. 1 to 5 for example explained in more detail. It shows F i g. 1 is an ellipse with several ray paths, F i G. 2 shows an embodiment according to the invention, FIG. 3 shows an embodiment of the invention with mirror bodies, F i g. 4 another embodiment with mirror bodies, F i g. 5 shows a side view of an arrangement according to FIG. 2 or 3. As in FIG. 1 shows, in the case of an elliptical mirror, all rays emanating from the one focal point going out, reflected to the other focal point. This means that from one Rotating mirror, which is in the left focal point, all outgoing rays hit in the right focal point, regardless of the angle at which the Ray emanates from the left focal point. With a photocell in the right focus the light rays reflected by the elliptical mirror can be received and convert them into electrical signals.

In the embodiments described below are all Parts that do not contribute to the understanding of the invention are omitted for the sake of clarity not to bother.

F i g. 2 schematically shows an embodiment of the invention. The punch card 1 lies at rest on the card support 10 during the scanning. from the light source 2 is imaged a gap on the rotating mirror 3, so that on the Punch card 1 a sharp slit of light is projected. Instead of the one mirror surface the rotating mirror 2 can have several reflective surfaces, so that a very fast Setting to a specific column of the punch card is possible. Under the card pad the mirror 4, which is elliptically curved in a plane, is located elliptical Edge curve is parallel to the lines of the punch card. In one focal line The rotating mirror is located on the ellipse of which the mirror represents a section 3, while the photocells 6 are arranged in the other focal line. As from FIG. 1 and 2, all rays coming from the rotating mirror are now 3 go out, reflected to the photocell row 6, in the for each hole location of the Column a photocell is provided.

In the embodiment of FIG. 3 is for everyone in place of one Map lines with a common elliptical mirror each map line has a mirror body 4 made of transparent material of high optical density, i. H. large refractive index, intended. The elliptical, mirrored edge curve 5 of this mirror body lies with respect to the rotating mirror 3 and the card support 10 as well as the elliptical Mirror according to FIG. 2. The formation of a mirror body is shown in FIG. 3 and 4. Two focal rays coming from the right focal point approximately at right angles go out to each other, at the same time represent the delimitation lines of the mirror body, one focal beam lying parallel to the card support 10. Perpendicular to On the drawing plane, the mirror body has the width of a line of punched cards.

When the mirror 3 is rotated, the light gap moves in the line direction over the punched card 1. All rays that pass through a perforation are reflected at the elliptical mirror 5 to the other focal point and received by the photocells 6. So that the rays emanating from the rotating mirror penetrate perpendicularly into the mirror body, the latter is cut out circularly at 7, as shown in FIG. 3 shows.

In Fig. 4 shows an embodiment of the invention, in which this circular recess does not exist; otherwise this is true Example, however, with the example of FIG. 3 match. If you do without the circular Recess, so it is necessary that the mirrored edge curve 5 is not exactly elliptical, but rather to be somewhat distorted, as shown by the dashed line 8 is. The modified elliptical shape is required because the angle of incidence of the Rotating mirror on the card surface is not the same for all light positions and so that different angles of refraction occur.

F i g. 5 shows a view of the arrangement according to FIG. 3 and 4 towards of the arrow 9, from which it can be seen that for each line of the card a separate one Mirror body is provided, while a single rotating mirror is common for all lines 3 is present.

The use of several mirror bodies has the advantage that the optical adjustment is very simple. The edge curves 5 of the individual ellipses can now be designed or deformed so that the focal points are offset so that the photocells can then also be attached offset. This is on the one hand for reasons of space advantageous, on the other hand the individual photocells are also useful better protected against light from the neighboring scanning points.

In Fig. 5 is the first plate from the right not a row of the Punch card, but assigned to a clock track extending in the direction of the line, which is attached to the card holder. The rotating mirror is based on this clock track controlled; it delivers a clock pulse even with unperforated columns. The support plate, in which the clock track is located can be designed to be interchangeable, so that the Scanning device can optionally be adapted to different types of cards. With the help of the clock track, the rotating mirror can be stopped exactly in the column.

Claims (6)

Claims: 1. Arrangement for scanning during the scanning process non-moving punch cards or the like by means of a on individual marking positions a row (row or column) of the punch card adjustable light beam and one light receiver arranged in the beam path behind the punch card, d a d u r c h G e k e n n n -z e i c h n e t that under the card support an elliptical in one plane curved concave mirror whose elliptical cutting line is parallel to the direction the row of cards to be swept over by the light beam lies that furthermore in one, a rotating mirror located above the focal line of the elliptical mirror is arranged whose axis of rotation is at right angles to the row of cards that can be painted over and is parallel to the plane of the map and the one light beam according to its setting directs to a marking position of the row of cards, and that in the second focal line, whose beam path to the elliptical mirror is free of components, the light receiver is arranged. 2. Arrangement according to claim 1 for the simultaneous scanning of several Rows of cards, characterized in that elliptical mirror and rotating mirror are at right angles extended according to the direction of the rows of cards according to the number of rows of cards are that each row of cards is assigned a light receiver and that by the Rotating mirror on the punch card creates an illuminated gap that shows the same marking positions of all rows of cards is covered. 3. Arrangement according to claim 2, characterized characterized in that for each of the rows of cards a separate elliptical mirror with the width of the row of cards is provided. 4. Arrangement according to claim 1 to 3, characterized in that the elliptical mirror consists of plane-parallel Sheets of transparent material of high optical density, d. H. large refractive index, exist whose edge curves are one of the one that coincides with the location of the photocell Focal point outgoing ellipse sector correspond, with an edge curve section has a limitation corresponding to a focal beam, which is parallel to the card support runs, and wherein the elliptically curved surface is designed to be reflective. 5. Arrangement according to claim 4, characterized in that the parallel to the card support running surface of the mirror body has a recess under the card support, whose edge curve corresponds to an arc of a circle, the dimensions of which are determined in such a way that that the light rays coming from the rotating mirror are perpendicular to the mirror body enter. 6. Arrangement according to claim 3 to 5, characterized in that the elliptical Edge curves of the individual mirror bodies are designed so that the second focal points lie staggered. 7. Arrangement according to claim 1 to 6, characterized in that that to control the rotating mirror in the card support a row of clock marks is provided. B. Arrangement according to claim 7, characterized in that the Clock mark row carrying card support is designed to be replaceable. 9. Arrangement according to claims 1 to 8, characterized in that the rotating mirror has several reflecting mirrors Has surfaces. Documents considered: Deutsche Auslegeschrift D 6583 IX c / 43 a (announced December 13, 1956).