SU883844A1 - Camera for photographing objects of meteor type - Google Patents

Description

The invention relates to photographic equipment, in particular, to an astronomical apparatus used for photographing bright objects such as meteorites — fireballs. A device for recording the time of flight of a bolide is known, in which the luminous flux is successively modeled by the sectors of the high-speed obturator, once (by photographing the car’s trace on the film in strokes, as well as by two slow-motion arrows rotating at different angular speeds: one with a frequency of 1 rev / s and a friend with a frequency that is ahead of the first arrow by 1 turn in 8 hours. At the same time, the relative position and shape of the strokes, shielded by the arrows of the slow obturator, depends on the time of shooting the car. the span of the bolide is calculated by the location of the arrows at a fixed R3 time point. The drawbacks of the device are the complexity of the design, the high demands of the camera and the need to process large amounts of photographic material. The closest in technical essence to the invention is a camera for nightly photographing objects like meteors containing a lens , a shutter, a modulator controlled by a drive and associated with sector optical elements periodically deflecting the light flux, a cassette with a photomatter scarlet, pivotally mounted, the light sensor and the time frame to which the shutter are synchronized, the light frame and drives the rotation of the modulator and the cassette. A film frame exposes a long time during which a meteor can fly, the luminous flux from which during a fast rotation of the modulator intersects its sectors with a period that is much shorter than the duration of the meteor flight. The optical elements placed on one half of the modulator sectors are made in the form of wedges. / separating the photosequence of the meteor into two discontinuous lines, mixed relative to each other, we will take the vector determined by the orientation of the cassette of relatively refracting wedge edges into a fixed point in time. A rotator slowly rotating the tape in the focal plane of the lens changes the direction of the displacement vector relative to the film over time. In this case, the direction of displacement fixes the moment of flight of the meteor within the exposure interval, and the angular velocity of the meteor is determined by the intervals on the photosecond 2. The disadvantage of this camera is the significant moment of inertia of the modulator with optical wedges, making it difficult to periodically stop at given time points required to obtain reference points, and causing uneven angular velocity when it resumes its rotation. In addition, the vibration of the moving elements of the camera does not allow determining the speed and moment of the meteor flight during the braking period and the speed modulator gains with a given accuracy, and also makes it difficult to measure the parameters of the meteor trajectory by the photogram more precisely than 0.01 mm. The aim of the invention is to improve the measurement accuracy of metrological characteristics of the span of the blid during the whole measurement period by reducing vibration. This goal is achieved in that the camera contains a shutter lens located on the optical axis, a drive controlled modulator, an optical element, a cassette with photographic material, a light frame and a time sensor connected to the light beam, the shutter, the modulator drive and the cassette The optical element is equipped with an autonomous drive and is mounted for rotation around the optical axis of the lens, while the modulator is equipped with a node for its output from the light flux and is located behind the optical element, and the cassette is installed stationary, while the autonomous drive is connected to the output of a time sensor, the modulator output node from the luminous flux is made in the form of a spring-loaded rocker arm mounted on its drive axis 4.4, at one end of which the modulator is fixed and the other end is connected to an electromagnet coordinated zan with an exit of the sensor of time. The drawing shows a schematic diagram of the device. The device comprises a lens 1 with a hinged shutter lid 2 controlled by an electromagnetic actuator 3, a wedge-shaped element 4, kinematically associated with an autonomous actuator 5, mounted in the plane of the aperture diaphragm of the objective 1 and blocking a part of the light flux. Behind the optical element C, there is a modulator 6, kinematically connected with the actuator 7. A beam 9 is mounted on the axis and the actuator 7, connected to an electromagnet 10, forming an output node of the modulator 6 from the light flux. The cartridge 11 with the photographic material is located in the focal plane of the lens 1. The time sensor 12 is electrically connected with the drives 3 and 7, with the autonomous drive 5 by the electromagnet 10 and the light frame 13. The camera operates as follows. The optical axis of lens 1 is oriented at the zenith. At night, when capturing, cap-shutter 2 is open, optical element k and modulator 6 are rotated, respectively, by an autonomous drive 5 and actuator 7. The photo material placed in the cassette 11 is exposed for a long time. During the passage of a meteor, the light flux sent by it to the lens 1, the passage through the zone of the optical element k, gives two images of the trail of motion of the meteor. When the modulator 6 rotates with a period much shorter than the meteor flight time, the meteor photo sequence is depicted as two dashed lines, straight and shifted. The displacement vector AB is determined by the orientation of the refractive edge of the optical element at a given time. Since the autonomous drive 5 rotates the optical element C with a period that is not longer than the exposure period of this frame, the AB vector changes direction over time. Thus, the direction of displacement captures the relative moment of passage of the meteor. The angular velocity of the meteor is determined by the length of the break or stroke on the photosecond. The time sensor 12 at known times of the eremise periodically turns on the light frame 13, the image of which forms the VG reference vectors, and at the same time the electromagnet. 10 that is rotated around axis 8 of the beam 9 with the modulator 6 located on it at an angle necessary to lead the modulator 6 out of the luminous flux, to simultaneously obtain reference points on star photo sequences, while the rotation of the modulator 6 does not stop. . At the set time, the sensor 12 time commands to close the cover-shutter 2 using an electromagnetic actuator 3. Using the invention significantly reduces the vibration of the camera elements by reducing the moment of inertia of the modulator, freed from heavy optical wedges and manufactured from thin sheets material. The location of the optical element in the plane of the aperture stop of the lens reduces its dimensions, since the cross section of the light flux in this plane has the smallest dimensions. Installing a cassette with a photographic material motionless relative to the camera body also reduces its vibration. In addition, the modulator output from the luminous flux without stopping its rotation when receiving the reference points on the photographic material makes it possible to avoid irregularly interrupting the photosecond sections on the photogram, which makes it possible to maintain accuracy in determining the speed and moment of the bolide passage, during the entire measurement period and bring measurement accuracy according to the photogram up to O, 0020, 003 mm. A formula of the invention Camera for photographing objects like meteors, holding; and located on the optical axis of the lens with a shutter, modulator, modulator, optical drive, cassette with photographic material, light reper and time sensor connected to the light reper , shutter, modulator drive and cassette, characterized in that, in order to improve the accuracy of measurement of the metrological characteristics of the span of the bolide during the entire measurement period by reducing vibrations, the optical element in it is provided autonomously The drive is installed with the possibility of rotation around the optical axis of the lens, while the modulator is equipped with a node for its output from the luminous flux and is located behind the optical element, and the cassette is fixed, while the autonomous drive is connected to the output of the time sensor. 2. The camera according to claim 1, distinguishes from the fact that the modulator output node from the luminous flux is made in the form of a spring-loaded gearbox mounted on its drive axis, at one end of which the modulator is locked, and the other end is connected to an electromagnet Sizan with time sensor output. Sources of information taken into account in the examination 1. Kramer E. N. About the determination of the time of the outbreak of a meteor with the help of a movable blade abutrator. Astronomical circulator № 135, 1952, p. 10. 2. The author's certificate of the USSR №, cl. G 03 B 19/02, 1970 (prototype).

Claims (1)

Claim A camera for photographing objects of the meteor type, comprising a lens ⁵ with a shutter located on the optical axis, a modulator controlled by a drive, an optical element, a cassette with photo material, a light reference and a time sensor connected to a light reference, a shutter, a modulator drive ¹⁰ and a cartridge, in that, in order to increase the accuracy of measurement of flight metrological characteristics of the car during the entire measurement period pU ¹⁵ reduce the vibrations, it is provided with an optical element and an independent drive INSTALLATIONS rotatably about the optical axis of the lens, wherein the modulator is provided with its output node ²⁰ of the luminous flux and is located behind the optical element, and the tape is motionless, the independent drive is associated with the release time of the sensor. ²⁵ 2. Camera pop. 1, characterized in that the modulator output unit from the light flux is made in the form of a spring-loaded rocker mounted on the axis of its drive, on: at one end of which a modulator is fixed, and the other end is connected to an electromagnet, which connected to the output of the time sensor.