RU63153U1 - DEVICE FOR SPEED REGISTRATION OF IMAGES - Google Patents

Abstract

Usage: In television technology, namely in high-speed digital video systems for transmitting and processing video signals of fast processes.

Creature: A device for high-speed image registration, comprising a housing 1 with load-bearing structural elements 2 and 3, an electronic video processing unit 4 is placed in the housing, connected via a connecting connector 5 to a communication cable 6, an input lens 7, the optical input of which is connected to the image of the object being registered and the output is with video processing channels, each of which contains optically coupled focusing lens 8 and an electron-optical converter 9 and a control module 10.

The device also includes a collimating lens 11, the input of which is optically connected to the output of the input lens 7, a dividing prism 12, two mirrors 13 and 14, an expansion element 15, while the outputs of the control modules 10 of the information processing channels are connected to the inputs of the electronic video processing unit 4, the separation prism 12 is mounted on the optical axis of the collimating lens 11, the reflective faces of the separation prism 12 are optically coupled to mirrors 13 and 14 mounted at an angle of 45 ° to the longitudinal axis of the device and connected with optical inputs of focusing lenses 8 channels of video processing, the supporting structural elements 2 and 3 are made in the form of two base plates mounted orthogonally to the longitudinal axis of the device and mounted on the upper and lower walls of the housing 1, while the spacer element 15 is fixed between the said base plates 2 and 3, a dividing prism 12 and mirrors 13 and 14 are mounted on the first base plate 2 from the side of the collimating lens 11, the focusing lenses 8 are located between these plates 2 and 3, electronically op Converters 9 are mounted on the rear side of the second base plate 3. 1 n.p.f. lm, 1 ill.

Description

The utility model relates to television technology and can be used in high-speed digital video systems for transmitting and processing video signals of fast processes.

A device based on a photodetector CCD matrix [1] (CCD is a charge-coupled device) comprising a lens and a series-connected photodetector CCD matrix with an anti-blooming device located in the focal plane of the lens, a video signal amplification and processing unit, and a photodetector CCD control unit a matrix whose output is connected to the control buses of the photodetector of the CCD matrix, and an optical filter of variable density is additionally introduced in front of the lens, which changes the transmittance depending on and intensity of the incident radiation flux.

The disadvantage of this device is its limited capabilities, since it does not provide means for the operational settings.

The closest in technical essence to the proposed utility model is the well-known high-speed digital video recording system [2], which contains an electron-optical unit, an information receiving and processing unit, a flash lamp and optically coupled laser emitter and photosensor mounted on a line intersecting the motion path registered object, while the electron-optical unit contains a video camera, input and projection lenses, connectors, an interface module, a power source and an electron-optical converter, the optical input of which is connected through the input lens with the image of the object being registered, and the output is through the projection lens with the optical input of the video camera connected via a communication cable to the controller of the information receiving and processing unit, while the electron-optical block contains a programmable high-voltage source power supply and series-connected programmable driver of delay time intervals, programmable pulse driver multiple exposures, programmable driver of gate pulse duration and driver of high voltage

of a nanosecond gate pulse, the input of the interface module is connected through a corresponding connector with a communication cable, and the output is connected to the information inputs of a programmable high-voltage power supply, a programmable driver of time delay intervals, a programmable driver of pulses of multiple exposure and a programmer of driver duration of a gate pulse, and the output of a programmable high-voltage source power supply connected to the control input formiro the driver of a high-voltage nanosecond gate pulse, the output of which is connected to the gate of the electron-optical converter, and the trigger input of the programmable driver of the time intervals of the delay is connected to the input "START" connected to one of the outputs of the photosensor, the other output of which is connected to the synchronization input of the flash lamp, the control input of which is connected via a communication cable to the controller of the information reception and processing unit.

The disadvantage of this system is the inability to get rid of parallax when shooting fast processes, since it does not provide technical means for its elimination.

The technical result, which consists in providing non-parallax shooting of fast processes in the proposed device for high-speed image registration, comprising a housing with load-bearing structural elements, an electronic video processing unit is placed in the housing, connected via a connector to a communication cable, an input lens, the optical input of which is connected to the image object being registered, and the output is with a video processing channel containing optically coupled focusing lens and the electron-optical converter, as well as the control module, is achieved by the fact that the device contains a collimating lens, the input of which is optically connected to the output of the input lens, a dividing prism, two mirrors, a spacer element and a second video processing channel with the corresponding focusing lens, electron-optical the converter and the control module, while the outputs of the control modules of the information processing channels are connected to the inputs of the electronic video processing unit, a separator The prism is mounted on the optical axis of the collimating lens, the reflective faces of the separation prism are optically coupled to the mirrors,

mounted at an angle of 45 ° to the longitudinal axis of the device and connected to the optical inputs of the focusing lenses of the video processing channels, the supporting structural elements are made in the form of two base plates mounted orthogonally to the longitudinal axis of the device and mounted on the upper and lower walls of the housing, while the spacer element is fixed between by the said base plates, a dividing prism and mirrors are mounted on the first base plate from the collimating lens side, the focusing lenses are located between said plates, electro-optical transducers are mounted on the rear side of the second support plate.

The essence of the utility model is illustrated by the drawing, which shows the design of the device.

A device comprising a housing with load-bearing structural elements made in the form of two base plates 2 and 3 mounted orthogonally to the longitudinal axis of the device and mounted on the upper and lower walls of the housing.

An electronic video processing unit 4 is arranged in the housing; it is made in the form of a printed circuit board with electrical components and is connected through a connecting connector 5 to the communication cable 6. An input lens 7 is installed in the front of the housing, the optical input of which is connected with the image of the object being registered.

The device contains two identical channels for processing video information, each of which includes a focusing lens 8 optically coupled to each other and an electron-optical converter 9, as well as a control module 10.

In addition, the device contains a collimating lens 11, the input of which is optically connected to the output of the input lens 7, a dividing prism 12, two mirrors 13 and 14, and a spacer element 15.

The dividing prism 12 is mounted on the optical axis of the collimating lens 11 and is optically coupled to mirrors 13 and 14 mounted at an angle of 45 ° to the longitudinal axis of the device and connected to the optical inputs of the focusing lenses 8.

The spacer element 15, designed to increase the rigidity of the structure and made in the form of a body of revolution (bushings), is fixed between the aforementioned support plates 2 and 3. On top of the casing is a handle 16 designed to carry the device during transportation and operation.

The dividing prism 12 and the mirrors 13 and 14, designed to separate and transfer the image into two channels, are mounted on the first base plate 2 from the side of the collimating lens 11. Focusing lenses 8 are located between these plates 2 and 3, electron-optical converters 9 are mounted on the back side of the second base plate 3.

The outputs of the control modules 10 channels of information processing are connected to the inputs of the electronic unit 4 for processing video information.

The information processing channels together with the electronic unit 4 are intended for converting an image of a rapidly moving object or a fast-moving process into a video signal transmitted through a connecting connector 5 and cable 6 to an external information processing system (not shown in the drawing).

The control modules 10 are designed to read information from matrix electron-optical converters 9 and to ensure time-coordinated operation of information processing channels.

The device operates as follows.

When shooting a fast-moving process, the proposed device implements the method of synchronous high-speed shooting.

When flying an object located in the field of view of the lens 7, its image enters the collimating lens 11, then to the separation prism 12, with the help of which it “bifurcates” and the mirrors 14 arrive, which direct it simultaneously to the inputs of the focusing lenses 8 of two information processing channels , after which they arrive at the inputs of the electron-optical converters 9. The electron-optical converters 9 with a nanosecond shutter provide the conversion of the image of an object moving at high speed (with outfit or bullet) with an exposure time of up to 10 ^-8 s.

From the electron-optical converters 9, the video signals in digital form are fed to the information inputs of the electronic unit 4, where it is converted into a resulting video signal that carries frame-by-frame information about the image.

From the output of the electronic unit 4, the video signal is transmitted through a connecting connector 5 via a communication cable 6 to an external information reception and processing system (not shown in the drawing), where it is processed according to a special program and recorded in

buffer memory (not shown). The volume of buffer memory can be more than 16 GB, which ensures the recording of images of objects with the necessary discreteness and fairly high quality.

Since the device uses a single optical system for both channels of information processing, i.e. Since the device allows tracking a fast-moving object using one input lens 7, the parallax phenomenon is completely eliminated. The fact is that when processing information, the electron-optical converters 9 and each of the electronic components related to each channel introduce a certain time delay, which are summed and accumulated. As a result, in the prototype, the total delay time due to these elements limits the speed of the device when processing video information.

The technical solution implemented in the proposed design of the device allows to improve performance when processing frame-by-frame video information due to the fact that the information processing channels operate alternately and are switched using control modules 10. At the same time that the previous frame of video information is processed in one channel, the second channel may begin to receive and process the subsequent frame of video information.

The mechanical part of the device (body 1, base plates 2, spacer element 3, handle 16) are made of aluminum alloy and undergo special processing to blacken surfaces (so as not to create optical interference in the form of light glare and reflections). Optical units (lenses 7, 11, 8, prism 12, mirrors 14) are standard and are manufactured at the enterprises of the optical industry.

Electron-optical converters 9 are matrix solid-state photosensitive devices, which are manufactured at electronic enterprises. Electronic components and elements of the device for high-speed image registration are implemented on the elements of digital computer technology, which are in serial production.

Information sources:

1. RF patent for utility model No. 32347, M. Cl. H04N, 5/235, published. 2003 year

2. RF patent for utility model No. 53524, M. Cl. H04N, 5/235, published. 2006 year

Claims (1)

A device for high-speed image registration containing a housing with load-bearing structural elements, an electronic video processing unit is placed in the housing, connected via a connector to a communication cable, an input lens, the optical input of which is connected to the image of the object being registered, and the output is connected to a video processing channel containing optically coupled focusing lens and electron-optical converter, a control module, characterized in that it contains a collimating lens, the input of which is optically connected with the output of the input lens, a separation prism, two mirrors, a spacer element and a second video information processing channel with the corresponding focusing lens, an electron-optical converter and a control module, while the outputs of the information processing channel control modules are connected to the inputs of the electronic video processing unit , the separation prism is mounted on the optical axis of the collimating lens, the reflective faces of the separation prism are optically coupled to with glasses installed at an angle of 45 ° to the longitudinal axis of the device and connected to the optical inputs of the focusing lenses of the video processing channels, the supporting structural elements are made in the form of two base plates mounted orthogonally to the longitudinal axis of the device and mounted on the upper and lower walls of the housing, while the spacer element fixed between the said base plates, a dividing prism and mirrors are mounted on the first base plate from the collimating lens side, focusing lenses put between said plates, electro-optical transducers are mounted on the rear side of the second support plate.