CS205229B1 - Device for recording of graphic signs - Google Patents

Description

The invention relates to a device for recording graphic features by a composition of a different number of elements arranged in a matrix or other suitable configuration.

A character is formulated by deleting certain elements from this configuration. If these elements have the character of points, the matrix is usually composed of seven rows and five columns. It is a bearable minimum necessary for clear and unambiguous display. Other systems use stripe-shaped elements of seven to fourteen to display a combination of which also produces a clear and legible graphic feature. Recording may be effected, for example, by printing a dye carried by the recording element or an auxiliary carrier, with a permanent visible mark on the surface of the recording carrier chemically, electrically, thermally, or the like.

Hitherto known methods of character realization using a matrix of points can be divided into two groups, namely;

- simultaneous registration of equal lines of each character

- simultaneous registration of one point column of one character.

By comparing both methods in terms of speed, mechanical complexity and complexity of the control circuits, we observe the following:

The mechanical complexity of the first method is low. Only the recording medium moves in the column direction, often continuously. The number of characters in a line does not affect this parameter. The disadvantage is the large number of recording elements. For a 5 x 7 matrix, this is the 5ϊ number of characters in a line.

The speed of this method is high and is not affected by the number of characters in a line.

The complexity of the control circuits is great, since complete information for the entire character line must be prepared before printing.

In the second group, the record carrier is at rest. The mechanical complexity is greater. The recording element moves in the row direction. After the character line is printed, the head returns to its original position and the record carrier moves one character height and line space.

In the second method, the recording speed decreases with the number of characters in a row, since the recording head must return a full line of characters, and the recording of a new line can only begin after the record carrier has been moved in the column direction by the character height and the line space. ;

The complexity of the control circuits in the second method is small, since it is sufficient that one combination be prepared for printing the dot bar.

Both ways are a common issue of the recording head itself. The arrangement of the recording elements is technologically and structurally demanding due to the very small distance between the recording elements, the need for electrical insulation and good individual flexibility and stability. This problem is particularly pronounced in a first method in which the number of recording elements is large.

The aforementioned drawbacks are limited by the device according to the invention, characterized in that at least one recording element is located on the recording element carrier which is supported by the hinges. The recording element carrier is connected, on the one hand, to the deflection mechanism for its transverse oscillation across the record carrier and to the position sensor. Suitably, the control block for supplying the recording elements transforms containing the information to be recorded.

By this arrangement, a new and higher effect is achieved, in particular by reducing the number of recording elements and increasing their mutual distance compared to known systems.

In a device according to the invention producing a 5x7 point matrix, the number of recording elements is less than 5x in the first method described above. With a number of characters in a line less than 7, the number of recording elements is less, and with a number of characters in a line of seven or more above, the recording speed is higher than in the second previously described method.

The device is further illustrated by the accompanying drawing which shows an exemplary embodiment of the device according to the invention.

The recording elements 7 are attached to the recording element carrier 2. The recording element carrier 2 is connected to the hinges of the deflection mechanism 6 and the position sensor 6. The electrical output of the position sensor 6 is connected to a control block 2 to which input information is also fed.

The function of the exemplary embodiment is as follows:

Each of the recording elements J is designed to record one character. The deflection mechanism which is coupled to the recording element carrier 2 moves all the recording elements 11 in an oscillating manner across the recording carrier 2 with an amplitude corresponding to the width of the recorded features. Since the carrier of the recording elements 2 is simultaneously connected to the position sensor 6 and further to the control block 2, the recording elements 1 are fed at each position with a certain amount of input information defined by a time interval corresponding to the position of the recording element 2. As a result, the desired effect is achieved, i.e. the creation of a feature on the record carrier 2. As the record carrier 2 moves in the longitudinal direction, the recording is performed at a new level of horizontal section of the feature each time the record carrier 2 is lifted. In this way, a complete feature is formed successively of a height determined by the speed of the oscillating movement of the record carrier 2 and the longitudinal movement of the record carrier 2.

Claims (1)

SUBJECT OF THE INVENTION A device for recording graphics, characterized in that at least one recording element (1) is arranged on a recording element carrier (2) carried by the hinges (3), the recording element carrier (2) being connected to a deflection mechanism (4) for deflection recording element carriers (2) across the record carrier (5) and, secondly, a position sensor (6) with a control block (7) connected. 1 sheet of drawings