SU830282A1 - Device for checking longitudinal instability of film in motion-picture camera - Google Patents

Description

(54) DEVICE FOR THE CONTROL OF THE LONGITUDINAL INSTABILITY OF THE FILM IN THE FILM APPARATUS

one

The invention relates to a cinema, in particular, to the dp counterpropane instability of foam in cinema cameras.

A device is known for countering pulsations of films in a camera that measures the modulation of the luminous flux transmitted through the aperture using a photoelectrical sensor and a spring-loaded rod, the end of which abuts the center of the phi phy frame in the frame window Tl.

The drawback of the device is that the sliding contact of the rod with the film introduces errors in the measurements, pulsations of the film.

The closest in technical detail to the invention is a service for determining image instability, containing a source of parallel light beam directed at an angle to the film plane, test 5mm with a shell in each frame, acting as a diaphragm in the area of the personnel window, photodetector and electronic recorder 2.

The disadvantages of this device are in violation of the actual conditions of transportation of the film in the cinematograph and in the necessary fabrication and use of a special test film.

The purpose of the invention is to improve the measurement accuracy.

Claims (2)

This goal is achieved by the fact that the device controls the longitudinal instability of a film in a cinema camera, which contains a collimator light source with a diaphragm, a film mounted to the lens, a photodetector and an electronic recorder, between the film and xonniovfa and the film and the film object (mirrored the surface and the reflected light flux between the film and the lens is introduced by a compensating element. For example, the element can be made in the form of an aperture with a profile opening. Fig. 1 shows the device, a general scheme; Fig. 2 shows the modulation of the reflected light flux in the presence of film bends; Fig. 3 shows the relative position of the compensating element in the form of dia}) and directional on him the luminous flux. The device consists of a light source 1, a koppimator containing a capacitor 2, a diaphragm 3 and a lens 4 mirrors 5 and 6, a diaphragm 7, film 8, a compensating element 9, tube 10, photo cells 11 and 12, amplifier 13 and recorder 14. The device works as follows in a way. The luminous flux from the light source 1, the passage through the collimator, forms with a parallel beam of rays, which is directed by a mirror 5 through the diaphragm 7, which hams, for example, a rectangular aperture, at an angle to the film 8 in the central zone of the frame window of the movie film channel (not shown). Reflected from the light film noiOK, the passage is repeated a second time through aperture 7, it is modulated by the latter, depending on the change in the distance between aperture 7 and film 8, i.e. depending on the longitudinal instability of the film. The light modulated in this way is reflected, the flow is directed by the mirror and the object 10 through the compensating element 9 to the photosensitive area of the photocell 12, the electrical signal from which goes through the amplifier 13 to the recording device 14. Since the film 8 is a flexible tape, then in the dynamics its bends in the film are possible, the channel which can be annpOKcravfKpoBaTb for the portion of the film in the central zone of the frame window as turns of its plane. As a result of these turns, an additional modulation of the reflected light flux by the diaphragm 7 and the change of its direction occur. The compensating element 9, made in the form of a diaphragm with a right orifice or a photometric wedge, additionally modulates the reflected light flux in such a way that a change in its amplitude depending on the eix direction compensates for a change in the reflected light flux caused by a diaphragm 7 and for turning-tszh controlled plot kiyuyuplschki 8 in the area of the personnel window of the device. The diaphragm with a profile or photometric wedge used as a compensating element 9 is defined by the following relationship: cos (i4ic () 2 | b5in (iarct | -), where is the change in aperture slit width) (optical plane of the photometric wedge), compensating the reflected light flux in the presence of turns in the controlled section of the film, Z is the coordinate of the displacement of the light flux on the diaphragm e with the profile opening when the film turns, and the distance from the film plane to the compensating o element-, the angle of incidence of a parallel beam of rays on the film plane; the slit width of the working diaphragm 7; the distance from the plane of the film 8 to the diaphragm 7. The rotation of the film 8 in another direction (in the plane perpendicular to the plane of FIG.) will not affect the measurement results, since the height of the light stroke directed to the compensating element 9 is greater than compensating element 9. A photocell 11, which measures the amount of light reflected from the film 8, is calibrated to calibrate the signal when the light flux emitted by the light source 1 is changed, and when the coefficient Reflectance of different types of films or to adjust the stabilized voltage supplied to the light source 1. Mirrors 5 and 6, which change the direction of the luminous flux, make it possible to increase the measurement accuracy by increasing the angle of incidence of the luminous flux on the film 8. The use of the invention improves the operational status of the diode 1. control of the longitudinal instability of the film in the camera as compared with the known methods of control. The device can be used not only in film engineering, but also in other areas of technology where measurement of linear displacements or oscillations of objects having a flat surface with a specular or directional-diffuse reflection is required. Invention 1. Device for controlling the longitudinal instability of a film in a cinema camera containing a consecutively located on the optical axis a cam light source with a diaphragm, a film and a lens, photodetector and electronic register installed in the reflected light flux Rathore, characterized ec in that, in order to increase the w (ig, .1 measurements, the outer surface between the film and the collimator and the film and the lens are mirrored surfaces and a compensating element is inserted into the reflected light flux between the film and the lens. 2. The device according to claim 1 .e with the fact that the compensating element is made in the form of a diaphragm with a profile shedding, 3. The device according to claim 2, which is designed so that the compensating element is made in the form of a photometric wedge. in the examination 1.Kuperman A.Ya. and others. Methods of nosloduli behavior film at film projection, Sat, Proceedings of NIKFI, issue 58, 1970, pp. 83-91. 2. The patent of Austria No. 241986, cl. 57 (32, published, 1965. D