SU14019A1 - Device for electroformation - Google Patents

Description

The proposed device is intended for transmitting images at a height and consists in the cumulative application of well-known details such as Jenkins discs, photocell based on the appearance of Hertz, Adler armored phones with mirrored membranes, dynamo and magneto.

In the schematic drawing of FIG. 1 shows a device at a transfer station, and FIG. 2-device at the receiving station.

The Jenkins disk 25 at the transfer station (Fig. 1) is equipped with forty-eight flat-convex lenses 3 made of UV glass and rotates on axis 15 by gear 14, 16 from the dynamo 17 on the same axis with which the magneto serves to obtain synchronizing currents entering the transmitter and amplifier 21 and transmitted to the receiving station. Thus at the transfer station, the antenna 22 transmits two waves of different lengths. The photocell b, based on the phenomenon of Hertz and perceiving light pulses 4 passing through the lenses 3, consists of a cylinder of Uvio left glass, covered with armor 5 from a metal layer and an insulator and filled with hydrogen. From the side of the disk 25, the cylinder “t is a glass tube with a metal ring 8; 7. A coaxial 8 is connected using a platinum wire 9 with a conventional Edison cartridge 11. Parallel to the grid 7 is located the bottom of another glass tube, covered with a layer of metal 10, which is connected to the glass using a conductor 12 chuck 11. The grid 7 and the metal plate 10 are connected by armored wires 13, 13 to the alternating poles of the constant current source and amplifier 2-1. At the prnemnoy station in one circuit (Fig. 2) of receiver 1, amplifier 21 is receiving (signals via antenna 22 turn on (wires 2.2) two Ldler type phones 20 connected in series; turn on the second circuit of synchronizing currents (wires 1.1) Magneto 18, which is located on the same axis as Dynamo 17, which is connected similarly to the device of the transmitter, with the Jenkins disk 25 by means of a gear train 16, 14. Ldler’s telephones 20 have double walls 19, between which are cooled with permallo and thin mirrored By diaphragms 23 of the same material, serving as membranes and connected to wires 2, 2 of the amplifier, as well as coils 34 of telephones. Parabolic reflector with a voltage arc 26 with metal electrodes -24, 24 and capacitor 27 pushes to produce a parallel beam two optical gratings 30, 31 (like the Bogol modulator) and mirror optical grating 29. The path of the rays, from the diaphragm of the second phone, and the grating 31 are conventionally shown as “uncirculated 32. The rays passing through the grating 31 and lenses 3 rotating synchronously with the disk 25 (FIG. 1) the Jena 25 insaud discs fall onto the screen 33, covered from the side of the disc 25 with a substance phosphating against the action of ultraviolet rays. The electrodes 24, 24, are made of iron, in order to produce as many ultra violet rays as possible. The screen 33 is made of a thick glass plate so that the ultraviolet rays cannot penetrate to the observer, the "lenses, the prisms and the capacitor are made of glass that freely transmits the indicated rays.

When rotating on the transfer stanion of the Jennins disk intended for decomposition of images, rays of light 4 passing through lens 3 hit photoe / tem 6 in the form of forty-eight vertical lines located close to each other, the speed of which should be adjusted accordingly by the speed of rotation of disk 25. So, the light pulses, depending on the gas pressure in the balloon and the distance between the electrodes, cause or extinguish a leak between the grid 7 and the metal plate 10, thereby causing a change in "{and the current directly proportional to s light intensity. With the help of a transmitter and an amplifier, oscillations are transmitted to the receiving station, where the currents through the wires 2 pass simultaneously in the coil 34 of the telephones and through the mirror aperture 23, which being located above the poles of the magnets will begin to oscillate, as the current oscillations magnet coils are simultaneous. In addition, the diaphragm also bends because, being attracted to an electro-magnet, it also serves as a membrane at the same time. A beam of parallel light rays from a voltaic arc 26, obtained with the aid of a parabolic reflector and

the capacitor passes through the optical lattice 30 to the diaphragm 23, reflecting from it onto the optical lattice 29 and, being reflected from the second diaphragm 23, through the optical lattice 31 enters the Jenkins disk 25. The lattices are set opposite each other so that of the membranes 23, the light completely disappears and only when vibrations are present, a part of the beam of light, proportional to the strength of the current passing through the telephones, is reflected from the grid 29 and hits the membrane of the second telephone. Having passed the lens 3 of the Jenkins disk 25, the rays fall on the screen 33, on which the transmitted image is obtained.

The subject of the patent.

A device for electric telescopes characterized by aggregate use:

1. At the transfer station: a) a Jenkins disk with forty-eight flat-convex lenses 3 made of UV glass, b) a photocell based on the appearance of Hertz and consisting of a cylinder UVIOL glass coated with armor S made of metal, and an insulator filled with hydrogen in which the photocell is placed parallel to each other the metal mesh 7 and the metal plate 10 connected to the opposite poles of the DC source, and c) the dynamo 16 and magneto 13, which are located on a common axis, of which the first serves to bring in the growth of the Jenkins disk and the magneto, and the second, to obtain the synchronizing currents;

2. At the receiving station: a) a Jenkins disk, similar to the same transmitter disk, b) a magneto 18 and a dynamo 17, used to drive the Jenkins disk to rotate synchronously with the transmitter disk, c) a parabolic reflector with a volt arc 26 and a capacitor 27 that serve for receiving a beam of parallel beams, c) two armored phones of the Adler type with double walls 19, between which there is water, equipped with permalo cores and mirrors with diaphragms 22 from the same mat