الطباعة الباردة ٢_a .. كتاب صحافة الغد

These drawn squares (page 190) are not as large as shown in the drawing. But it is so small that it cannot be distinguished with the naked eye. Therefore, the eye does not notice that the electron beam records round points instead of drawing square points. This process has a favorable effect on the outline of the letter, making it more rounded. In the other figure (page 191), the three letters appear enlarged, and the same three letters appear below them as you see after printing them.

There is no doubt that the larger the grid of lines, the clearer the letter becomes. That is, the number of dots or squares present in each square centimeter is about 200. The letter is in font 6, and its height is 2.4 millimeters. It contains 48 dots and its average width contains 22 dots. That is, the letter contains about 1,000 dots that are read by the electron beam, and the working speed of this device is two million pulses per second, so that the rays can read all these dots in each letter. Since the average letter consists of 1000 dots, the device can send 2000 letters per second. This speed, of course, is still theoretical. This is because there are no photographic (or lead) devices that can produce at this speed, especially since what feeds them is perforated tape. As for the actual speed, the “Hal” device reached 400 characters per second. The speed can be increased to more than 2,000 characters per second, if experts are able to produce more sensitive films and faster assistive devices than the current ones.

As for the photographic recording device inside the device, it is an electronic valve with a very thin and intense beam of light (beam), a photographic lens, and a small dark room. The letters are recorded - one after the other - on the LED television screen until the line is complete. The small line (37 mm) consists of 740 lines. In order for the device to be able to fill the entire line, it counts the number of lines for each letter and the number of lines of spaces between each word, then a reduced image of the letters appears on the electronic LED screen to the required size. It is transmitted secondly onto sensitive paper or film through a large aperture lens. Whenever a line ends, the drum rotates, so the film rotates by a line, so that the lines are not printed on top of each other. These pictorial collection devices take the place of mechanical collection devices. The auxiliary electronic mind is the one that increases the speed of the two collecting devices (the pictorial and the mechanical), but it increases the speed of the pictorial device over the other because there are no mechanical devices that hinder the speed of the mind’s work, as happens in collecting bullets.

A freezer and a Lumitype device (540 for photocopying) equipped with a small store containing 1440 transparent font 12 meters representing 120 shapes of this letter.

This device can produce any font of letters and any shape of them without... The machine requires the need to change stores, as happens in hot lead collection. Mechanical limits the speed of the machine, while the speed of electrical pulses in photographic collection helps to overcome this mechanical obstacle. The Lumitip device reached a speed of one thousand pulses per hour, and each electrical pulse corresponds to a letter or a metre. While the same company's Zip device for photographic collection reached a speed of 1,800,000 beats per hour.

The reason for the delay in the spread of these fast devices was the difficulty of correcting on film, because correcting on lead is done easily, as it is possible to lift the lead line from the pole and put another line in its place. As for the film, it was difficult to remove one line and place another, without this process taking a longer period of time, as it was necessary to cut this line from the film with a cutting device, and then place the correction line - which had previously been collected on another film - in the place of the line. First, paste it with adhesive paper.

The experts began to think about a faster way to make the correction, until they reached the possibility of making it in two forms: the first form requires writing all the corrections on a tape, and the original tape is placed with the correction tape in the electronic mind device, and a single corrected tape comes out on the other side. This tape goes to the photocopying device and produces a corrected film that no longer needs to be cut.