SU5993A1 - Device for driving drums used for transmission and reception in devices for electrical image transmission - Google Patents

Description

The drums used for transmission and reception in devices for electrical image transmission are usually directly connected by gear with a synchronized drive motor. In this case, it is necessary to re-drive the drive motor before each separate gear and take measures each time to synchronize the motors and to bring the phases of movement of the two drums into coincidence. This complicates the method of operation of the entire device and makes it unsuitable for serial works. The present invention aims at minimizing the measures for synchronizing and setting the phases, not slowing down the work compared to the already achieved great short duration of the image transmission itself and making the device especially suitable for longer work during which the maximum number of individual transmissions is required. For this, a synchronized drive motor or, respectively, a gear directly connected to the HHD1 is connected to the drum axis by means of a friction clutch (clutch, magnetic clutch, etc.), which allows the engine to disconnect from the engine , and on the receiving side, the drum and supply it with a new image or film, while the engines continue to work, so they do not have to be installed again either at the beginning or at the end of a separate transmission, but only once n times to the beginning of the entire series. A centrifugal clutch is connected to the friction clutch, which converts the magnetic clutch directly after the gripping of the drum axis with the motor axis at the same almost speed and at a certain position of one axis relative to the other, due to snap of the gripping lever. As a result, the establishment of image phases, i.e. the same setting of the seams of the paintings on both drums is necessary only at the beginning of a whole number of gears. The phase coincidence of both drums is achieved by placing a light (or dark) mark on the transfer drum, in a certain place, mainly in the place where the picture is seam, which illuminates (or darkens) the photosensitive element at each turn and sends a pulse each time. current in the receiving device, the drum of which according to the method of control, mainly through the differential, leads to the coincidence of the phases with the transmitting drum (in the sense of the position of its pattern seams). Drum ne connected tightly with the axis. The latter is shaped into a cone on which a drum is fitted with an image (or, respectively, with a film in the cassette), with a groove in which the PTIFT or protrusion of the drum enters; the drum and the cone occupy a constant position to each other. To facilitate the work, the drum (and also the engine is advisable) is laid vertically and mounted on the top of the taper axis. Optical device offset, i.e. the photosensitive element and the modulated light in the receiver relative to the roller for receiving images are as follows; in both cases the roller is stationary and the optical device advances along the slot along the drum, and to transmit it, it is sufficient to pass the optical device only once along the drum in one direction. The drum axis is equipped with a friction brake, which eliminates the effect of the dead stroke of the gears of the mechanism. .In FIG. Figure 1 shows a diagram of the connection between the engine and the drum at the reception. on the other hand, what the scheme is also valid for the transmission part, and in FIG. 2 is a schematic diagram of an optical auxiliary device for matching the phases of both drums. The synchronized motor m of the drum (Fig. 1) acts by transmitting d to the main axis a and differential of d. The second axis 6.6 of this differential is made movable by means of frame g, on which lever h sits, in a plane vertical to the plane of the drawing, and at the same time produces an offset or, accordingly, phase control between both parts of the main axis a, a. Axis 5,6 can also be rotated by a special handwheel, instead of lever h. At the end of the axis a. A, there is a conic gear, that gear 7c, which translates the axis into a vertical position (c., C-friction clutch, whose details, for example, magnets, are not specified). The disk of the friction clutch facing the engine is provided on the edge with a protrusion c against which the pad e rests on another disk, and at the same time the disk connected to the drum develops almost the same speed as the drive disk and the magnetic clutch thus turns into a mechanical clutch. This is due to the use of a spring /, pulling the shoe e at low speeds towards the middle and having such dimensions that the spring is stretched by the centrifugal force of the lever at the required speed so that the lever is caught by the protrusion c1 of the lower disc. An axle of the drum adjoins the upper disc of the friction clutch, which is also equipped with a brake disc S, E to which the brake shoe or brake spring is attached. This device eliminates the dead gear resulting from the gear drive of the entire drive unit. A drum t is mounted on the tapered end of the drum axis, and the cone is provided with a groove and that the protrusion is located on the inside of the drum so that the drum and the cone are constantly in the same position relative to each other. It is recommended to include a free wheel mechanism between the engine and the magnetic clutch, by means of which the differential is used only at the beginning, when setting the phases of the drum. This will simplify the operation of the entire device and increase the reliability of action. The receiver drum, provided with a photosensitive film, has a cassette surrounding it, into which it is inserted

drum in a dark room. Easeta together with the drum can then be inserted in daylight in a practical apparatus, equipped with an opaque cover. Only after the drum is mounted on the axle can you open the cassette. It is recommended to remove the entire drum from the magnetic clutch, at the end of the transmission by means of a screw with a coarse thread, which sits in the upper part of the casing I and is set in motion at the moment of separation of the friction clutch.

FIG. Figure 2 shows schematically an optical monitoring device for setting the phases of both drums, in order to match the position of the image seams {8-transmission side, E-receiving side). In the transmitter, a beam emanating from a light source is incident on a mirror q, movable together with a photoelectric element on the spindle and implanted at an angle of 45 °, which mirror directs the beam onto the roller v. To set the phases, there is an optical device movable on the spindle (initially against the edge of the drum), on which an image of a light mark is located at the location of the seam and is illuminated by it, with each passing of the optical device, for an instant, an element resulting in current pulses in the circuit element, which pulses are supplied by means of transfer wiring and (or, respectively, without wires) and amplifiers v and v to receiving device E. In receiving device E there is a receiving light source W, vet which is controlled drivable input currents conductive light relay j. At the edge of the receiving drum Y, in accordance with the seam of the images, the mirror z passes, at each turn, once through the extended axis of the lens or lens system located perpendicular to the drum and directed by the rays of the lamp. light beam at an angle of 45 °. If you now look at the moving mirror from above in the manner described above, you will be able to see the flickering light of source x only when mirror s is at the time of the current pulse just in the position shown in the drawing, i.e. in the continuation of the axis of the lens. The phase matching is done in such a way that, when observing, the position of the auxiliary axis b, b of the differential is changed (Fig. 1) and thus the drum moves in its phase relative to the movement of its adaptive device until the flickers of light are visible. x lamp in the field of images. In this case, the stitches of the images of both drums pass at the same instant before the corresponding optical device. Instead, the differential could rotate the synchronous motor stator. For slow drum turns, the accepting device can be changed as follows: the mirror z is removed and the lens j is removed, and a contact is placed on the drum (in the direction of the image seam on the drum axis side), which makes an electrical connection with a fixed sliding brush once every turn. the auxiliary lamp comes on. Melkans of the light of the reference and this auxiliary lamp are rejected, each in the form of a darkened beam of light next to each other on the screen or the like. II serve as an indicator of the correct installation of the phases in the case of simultaneous ignition.

The subject of the patent.

1. A device for driving drums, used for non-transmission and reception in devices for electrical image transmission, from synchronized engines, respectively located in the transmitter and receiver, characterized by the fact that one or the other or both of them are connected together by means of friction clutches and differential gears with the specified engines so that they can be turned on or off during the course of the engines, and the phases of the drums are set using the specified differential of information transfer.

2. In the application described in paragraph 1 of the device, except for the friction clutch, the centrifugal clutch,