RU2502956C1 - System to record parameters of moving surface in fast processes - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: system comprises an optical facility of information transmission regarding dynamics of surface state installed in front of the surface along direction of its motion and connected to a surface image recorder. The facility for transmission of information on dynamics of the surface state is a rigid technical endoscope equipped with the possibility to illuminate the recorded surface. Besides, the endoscope may be equipped with a channel of laser illumination, and the recorder may be a digital camera. Besides, the digital camera may be connected to a computing centre for processing of recording results.

EFFECT: increased resolving power of a system.

4 cl, 1 dwg

Description

The system relates to the field of measurement technology, namely, to the registration of the parameters of the moving surface of the liner in the study of one-time fast-moving processes.

Several systems are known that implement methodological approaches for recording the dynamics of the state of a moving liner surface (speed, asymmetry, time, and gas-dynamic processes associated with motion): electrocontact (Rapid initiation of explosives. Special detonation modes. Collection of scientific articles edited by T. I. Tarzhanov. Snezhinok, 1998 [1]), electro-optical (Method for determining the asymmetry of surface motion. RF Patent No. 2364834. ND Anokhin, VV Bakanov, IN Budnikov et al. Published 08/20/2011, Bulletin No. 23. 2007 [2]), photo -diffraction (prototype) (photographic recording of fast processes. AS Dubovik. M .: Nauka. 1984 [3]). They are united by the property of measuring a specific instrument of speed and asymmetry, which are realized on the surface of the liner at a certain moment of the liner's movement. In the electrocontact approach [1], electrocontact sensors are installed in the system in the direction of the liner’s movement on certain measurement bases, and the result of the liner interacting with the electrocontact sensors in the form of electrical signals is recorded on an electronic oscilloscope; with the electro-optical approach [2], contact-optical sensors are installed in the system along the liner’s path, and the result of the liner’s interaction with the contact-optical sensors in the form of light and electric pulses using electronic oscilloscopes is recorded; in the system that implements the photo-chronographic approach (prototype) [3], an optical receiver is installed in the direction of the liner's movement, which is an optical means of transmitting information about the dynamics of the surface state of the liner, and the result of the liner's interaction with the optical receiver is recorded in the form of a photo-chronogram using an ultra-fast photo-chronographic recorder.

The main disadvantage of the approaches - electrocontact [1] and electro-optical [2] is the discrete registration of the dynamics of the state of the moving surface of the liner. This drawback is eliminated in [3] when using information on the dynamics of the surface state of the liner of a spherical optical receiver made of an optically transparent material as an optical transmission medium. Using an optical receiver, information is transmitted to a photochronographic recorder, which allows you to register the status of individual sections of the surface of the liner in the form of a raster image on film. The disadvantage of the prototype is the low resolution of the resulting image.

The problem to be solved is to increase the reliability and reliability of registering the dynamics of the state of the moving surface of the liner in fast processes.

The technical result of the invention is aimed at increasing the level of image resolution.

The specified technical result is achieved due to the fact that, in contrast to the known system for registering the parameters of the moving surface of the liner in fast processes, containing optical means for transmitting information about the dynamics of the state of the surface, located in front of the surface along the direction of its movement, associated with the surface image recorder, in the inventive optical system a means of transmitting information about the dynamics of the state of the surface is a hard technical endoscope, provided NOSTA backlight recorded surface.

In addition, in a particular implementation, in the registration system of the parameters of the moving surface of the liner, the endoscope can be equipped with a laser illumination channel, and the digital camera can serve as a recorder. In this case, the digital camera can be connected to a computer center for processing registration results.

The choice of a means of transmitting information about the surface condition of the liner in the form of a technical endoscope, if the system has the ability to organize illumination of the recorded surface, improves the quality of transmission of information about the surface condition and the quality of image registration. Conditions are provided for increasing the image resolution by increasing the resolution of the inventive system to 39 lp / mm instead of 19 lp / mm in the photo-chronographic system. Thus, the proposed approach allows the possibility of reaching a qualitatively different type of image registration technique during registration.

In FIG. The inventive system implemented in an explosive experiment is schematically depicted.

In the diagram, under the projection of the surface of a moving liner (1), an industrial rigid technical endoscope TE-80-63-90-60 is installed, which transmits information about the state of the surface during movement (2) with a side view. In the endoscope, optical fibers of laser illumination are located parallel to the optical axis (6). The endoscopic endoscope (4) is located inside the protective device (3) - microkasemat. A digital cinema camera (recorder) (5), which is focused on the surface of the liner, is pointed at the distor end face. From the movie camera, information is sent to a computer center, where, using software, information is processed on the state of the surface of the moving liner at a certain point in time.

To test the system, an explosive experiment was conducted in which the experimental assembly contained a binary shell consisting of a shell of aluminum alloy with a thickness of δ = 3 mm and a copper shell with a thickness of δ = 2 mm; the binary shell was loaded with a layer of plastic explosive (BB) based on a heating element, mounted over the surface using detonation wiring in several zones. Detonation wiring was initiated by an electric detonator (7).

The shell was mounted on a steel container, the volume under the shell was evacuated to a residual pressure of 0.1 atm. A technical endoscope with laser illumination was installed under the shell perpendicular to the axis, the distor end of which was brought into the microcase and on which the digital movie camera was set up.

When a high-voltage pulse is applied, a plastic explosive is detonated by the electric detonator, and the explosion products load the binary shell (1) with a registered moving surface. At the moment the shock wave exits onto the inner surface, the shell begins to move. During the movement, the state of the recorded surface changes, and the whole process through the endoscope (2) is recorded using a Sansikam digital camera (5). The resulting image shows the dynamics of the process of movement of the surface of the shell with a higher resolution. The implementation of the system allows to increase the reliability and reliability of registration by increasing the resolution of the image through the use of an endoscope with backlight and advanced digital technology for the study of one-time fast-moving processes.

Claims (4)

1. A system for recording parameters of a moving surface of a liner in fast-moving processes, comprising an optical means for transmitting information about the dynamics of the surface state associated with a surface image recorder located in front of the surface along the direction of its movement, characterized in that the hard technical endoscope serves as a means of transmitting information about the dynamics of the surface state provided with the ability to highlight the registered surface. 2. The registration system of the parameters of the moving surface of the liner according to claim 1, characterized in that the endoscope is equipped with a laser illumination channel. 3. The registration system of the parameters of the moving surface of the liner according to claim 1, characterized in that the recorder is a digital camera. 4. The registration system of the parameters of the moving surface of the liner according to claim 3, characterized in that the digital camera is connected to a computer center.