SU842890A1 - Information display - Google Patents

Description

(54) DEVICE FOR DISPLAYING INFORMATION

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The invention relates to automation and computing and is intended for use in information visualization systems.

A device for displaying information of an AS is known, the disadvantage of which is the large delay of the imaging time in relation to the moment of input signals and the presence of moving parts and components, which also reduces the speed and reliability of the device.

Closest to the present invention, there is a device for displaying information in the information, comprising a magnetic shield. an image visualization unit using a magnetic suspension, located in a plane parallel to the screen plane, and a control unit C23.

The disadvantage of this device is the lack of speed and reliability due to the inertia of the block of magnetic heads, making mechanical movement on the magnetic screen.

The purpose of the invention is to increase the speed and reliability of the device,

The goal is achieved by the fact that the device additionally contains parallel linear heaters and parallel linear magnetic field sources located in the screen plane perpendicular to each other and connected respectively to the first and second outputs of the control unit.

In addition, the device contains a magnetic suspension temperature controller installed in the imaging unit using magnetic cycnescy, the input of which is connected to the third output of the control unit.

Claims (1)

FIG. 1 shows a general structural diagram of the device; in fig. 2 magnetic screen; in fig. 3 the same, with built-in temperature regulator of the magnetic suspension; in fig. 4 - location of parallel sources of the magnetic field. The device comprises a magnetic screen 1, an imaging unit 2 with a magnetic suspension in parallel, parallel linear heaters 36 connected by chains 7 to a control unit 8, parallel sources of magnetic field 912 connected by chains 13 to a control unit 8 (14 magnetic body, made of magnetically hard material 15 - sections of heaters 3-6, 16 front transparent wall of the imaging unit, 17 - magnetic suspension used to visualize latent magnetic images, 18 and 19 base and section the magnetic surface of the magnetic shield, 20 is the space between the heaters and the sources of the magnetic field filled with the magnetically hard material), the regulator 21 of the temperature of the magnetic suspension associated with the control unit 22, the magnetic core 23, between the projections 24 of which are winding The device works as follows. When driving one of the heaters from the control unit 8, for example 4, the magnetic screen 1 warms over its entire width and narrow area adjacent to this heater to a temperature close to the Curie point of the magnetic solid material used in the magnetic body 14 in the working body “1 When excited from the control unit 8 of one of the sources, a magnetic field, for example, 10, a magnetic field acts on the magnetic screen 1 along its entire height in a narrow zone, when it is attached to this source. The magnitude of this field is chosen so that, if the heater is not excited, it does not noticeably change the magnetization of the magnetic screen 1 and, thus, does not affect the visualization process. Thus, excitation of a heater or a source of a magnetic field separately does not change noticeably the magnetization of the magnetic screen 1. When one of the heaters, for example 4, and the source of a magnetic field 10 are simultaneously excited, the sensitivity of the magnetic screen to the magnetic field is sharply increased. em, and it acquires a residual magnetization value that is different from the initial state. The selected magnetized intersection zone forms one element of the latent image, which, when visualized, forms one image element. By the considered method on the magnetic screen 1, create the entire displayed image. Magnetic screen 1 may have a different configuration. In the embodiment shown in FIG. In version 2, heaters 3–6 and sources of magnetic poly 9–12 are surrounded by a magnetically hard material. Visualization of the latent magnetic images recorded on the magnetic screen 1 is carried out by the magnetic suspension 17. The user observes the formed images through the front transparent wall 16 of the visualization system. In another embodiment of the magnetic screen 1 (Fig. 3), the source 10 of the magnetic field is connected to the base 18 by one side and the other side to the heaters. In turn, the heaters accept the working surface 19, the whole space 20 between the base 18 and The working surface 19, which is not occupied by magnetic field sources and heaters, is filled with a hard magnetic material. In the visualization of the hidden magical images is carried out by a magnetic suspension 17. When recording images with a large number of image elements; The magnetic wall area can increase and change the selection mode of individual recording areas. To regulate the temperature of the magnetic wall in the device, there is a system of regulator 21 of the temperature of the magnetic suspension 17. {consists of a sensor and a heater) connected by chains 22 to a control unit 8. As a magnetically hard material of the magnetic screen 1, a wide variety of ferro can be used. and ferri-magicians, since they are all characterized by a certain temperature value, called the Curie point, near which the magnetic susceptibility of materials and substances increases dramatically. In order to overheat the magnetic shield and reduce the energy consumption of heaters and magnetic field sources required for displaying information, it is advisable to use magnetically hard materials with a Curie point within 50-300 ° C, in particular chromium oxide, which has a Curie point ravya In the proposed device, anybody can be used as heaters (the 5th known heat sources (resistors, infrared emitters, tubular heaters, etc.). Also any known sources (magnetic heads, conductors, etc.) Can be used as magnetic field sources. e.) In Fig. 4, show one of the possible variants of their execution. The magnetic core 23c with protrusions 24 forms a magnetic wall. To create a magnetic field, an electric current is passed through one of the windings 25. To transfer the screen to its original p The magnetic state of the magnetic material of the screen is heated to a temperature equal to Curie, dp of which increases either the duration of the pulses delivered to the heaters or the amount of current flowing through them. Curie points. In connection with the absence of moving elements in the proposed device, the process of displaying information on the screen is significantly accelerated. Dp of local heating of the magnetic wall with a resistor heater is enough for 1–5 ms, which ensures the acceleration of information display in comparison with known systems by 10–100 or more times. At the same time, the durability of the device increases. Claim 1, A device for displaying information containing a magnetic screen, an image visualization unit using a magnetic suspension, located in a plane parallel to the screen plane, and a control unit, characterized in that, in order to improve the speed and reliability of the device, it contains parallel linear heaters and parallel linear magnetic field sources located in the screen plane perpendicular to each other and connected respectively to the first and second outputs of the block 5 eni 2, The device according to claim 1, wherein it contains a temperature controller of the magnetic suspension, which is connected to the third output of the control unit, installed in the imaging unit by means of a magnetic suspension. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 140085, cl. G 05 B 11/32, I960 .. 2, US Patent No. 3292171,. Cl, 340-325, published, 1971 (prototy);