RU112448U1 - UNIVERSAL DEVICE FOR ADJUSTING AND CHECKING MULTI-CHANNEL PRODUCTS WITH A LASER RANGE - Google Patents

Abstract

A universal device for aligning and checking multichannel products with a laser rangefinder, containing a fiber-optic delay line with input and output ends, an input optical system with an input mirror lens, in the focus of which the first field diaphragm is installed, behind it the first illuminator, placed with the possibility of illuminating the first field diaphragm, and an output optical system with an output mirror lens, a second field diaphragm and a second illuminator located with the possibility of illuminating the second field diaphragm, while the output end of the fiber-optic delay line is located in the focal plane of the output mirror lens coaxially through the spectrum splitter, with the second a field diaphragm, characterized in that at least one mirror rhombus is additionally introduced into the device, installed so that the laser radiation of the rangefinder is directed to the input receiving system of the device, and the receiving channel and other channels of the product are directed directly wash or through its mirror rhombus into the output optical system of the device.

Description

The inventive utility model relates to measuring technique, namely to devices for the non-track control of the output parameters of a laser range finder installed in an optical-electronic device, placed, for example, in an aircraft.

A device for monitoring a laser rangefinder according to the application of Germany No. 3700962, publ. 07/28/1988, containing an input optical system with an input lens, a fiber-optic delay line with input and output ends and an output optical system with an output lens.

The disadvantages of this device are:

- the inability to control a single device of laser rangefinders with different radiation wavelengths;

- it is intended only for non-track control of a laser range finder installed in a multi-channel product;

- lack of operational monitoring and adjustment of the direction and power of radiation;

- lack of ability to control products with different observation channels.

These disadvantages are partially eliminated in the device for monitoring a laser rangefinder, installed in the product according to patent No. 40680, publ. September 20, 2004, which, in terms of essential features, is the closest analogue of the claimed utility model and contains a fiber-optic delay line with input and output ends, an input optical system with an input mirror lens, and an output optical system with an output mirror lens. The focus of the input mirror lens has a first field diaphragm, followed by a first illuminator arranged to illuminate the first field diaphragm, and a second field diaphragm and a second illuminator arranged to illuminate the second field diaphragm, the output end face of the fiber the optical delay line is located in the focal plane of the output mirror lens coaxially through a spectrometer with a second field diaphragm.

The disadvantages of the closest analogue are:

- insufficient quality control of various products on which not only television (TV) channels are installed, but also thermal imaging (TPV), thermal, etc.

- insufficient accuracy of control of the device.

The task to which the claimed utility model is directed is to create a universal device for aligning and checking multi-channel products with a laser range finder, expanding the device’s functionality and increasing its convenience.

The technical result of the utility model is the use of a single device for monitoring products with different observation channels: TV, TPV, thermal, etc. while improving the quality and accuracy of control.

The problem is solved, and the claimed technical result is achieved by the fact that in the known device for monitoring a laser rangefinder containing a fiber optic delay line with input and output ends, the input optical system with an input mirror lens, in the focus of which is installed the first field diaphragm, followed by the first an illuminator arranged to illuminate the first field diaphragm and an output optical system with an output mirror lens, a second field diaphragm and a second illuminator located with the ability to illuminate the second field aperture, while the output end of the fiber-optic delay line is located in the focal plane of the output mirror lens coaxially, through a spectro splitter, with a second field aperture,

- additionally introduced at least one mirror rhombus,

- mirror rhombus is installed so that the laser radiation of the range finder is directed to the input receiving system of the device,

- the receiving channel of the range finder and other channels (TV, TPV, thermal, etc.) of the product are sent directly or through their mirror rhombus to the output optical system of the device.

The drawing shows a diagram of the inventive device.

The device 1 for aligning and checking multichannel products with a laser range finder is optically coupled to the transmitting 2 and receiving 3 channels of the controlled laser range finder, as well as, for example, to the TPV channel 4 of the product 5 in which they are located.

The input optical system - the receiving channel of the device 1 contains the first mirror rhombus 6, the aperture diaphragm 7, the system 8 of radiation attenuators, the input mirror lens 9 made in the form of a spherical mirror, followed by the first field diaphragm 10, the diffuser 11, the first lamp 12 and so on the input end 13 of the fiber optic delay line 15. The diffuser 11 is made in the form of milk glass. The photodetector 14 measures the power of radiation received by the radiation diffuser 11.

The output optical system - the transmitting channel of the device 1 contains the output end 16 of the fiber optic delay line 15 located in the focal plane of the output mirror lens. The mirror lens is made in the form of a spherical mirror 17 with a central hole and a flat mirror 18. Between the output end 16 of the fiber optic delay line 15 and the spherical mirror 17 with a central hole are located a spectrometer 19, a second field diaphragm 20, and a second lamp 21. At the exit from the spherical mirrors mounted second mirror rhombus 22.

The operation of the device is carried out in the following sequence.

The universal device is designed to align and verify the basic characteristics, parallel channels and the functioning of all varieties of products that detect and capture the target with one of their channels (TV, TPV, thermal, etc.) and measure the distance to the object.

At the beginning of work using the collimator check the parallelism of the axes of the device 1. Then check the parallelism of the axes of the product 5 and measure the range. To do this, install the device 1 in such a way that the receiving channel of the device 1 is located directly in front of the transmitting channel 2 of the laser rangefinder (not shown conditionally) or using the first mirror rhombus 6. In this case, the transmitting channel of the device 1 with the second mirror rhombus 22 is located opposite the receiving channel a range finder, a TPV observation channel directly, and the remaining TV channels through the same second mirror rhombus 22 are optically coupled to the receiving channel 3 of the laser range finder. Turn on, for example, TV channel 3. Turn on the second lamp 21 and by means of a spectrodivider 19, observing the image of the second field diaphragm 20 on the screen of TV channel 3 of the product 5, combine the electronic crosshair with the center of the image of the second field diaphragm 20. Turn on the transmitting 2 and receiving 3 channels of a laser range finder. The radiation from the transmitting channel 2 of the laser range finder of the product 5, passing through the aperture diaphragm 7, the attenuator system 8 and the input mirror lens 9, the first field diaphragm 10 and the radiation diffuser 11, enters the input end 13 of the fiber-optic delay line 15. The radiation power at the input the end face 13 is controlled by the signal of the photodetector 14. The delayed radiation pulse emerging from the output end 16 passes through the output lens formed by a spherical mirror 17 with a central hole and a flat mirror 18 and sent to the TV reception channel 3 of the laser rangefinder product 5, which provides a measure of the range, i.e., to control the laser rangefinder. Products with a different arrangement of channels work similarly: the receiving and transmitting channels of device 1 are interfaced with mirror rhombs 6 and 22 with the corresponding channels of the product.

Thus, the use of one universal device will allow high-quality and precise control of the laser range finder of various multichannel products, which, compared with the prototype, expands the functionality of the device and significantly increases the convenience in operation.

Claims (1)

A universal device for aligning and checking multichannel products with a laser range finder, containing a fiber-optic delay line with input and output ends, an input optical system with an input mirror lens, in the focus of which there is a first field diaphragm, behind it a first illuminator, placed with the possibility of lighting the first a field diaphragm, and an output optical system with an output mirror lens, a second field diaphragm and a second illuminator, arranged to illuminate the second the left diaphragm, while the output end of the fiber-optic delay line is located in the focal plane of the output mirror lens coaxially, through a spectro splitter, with a second field diaphragm, characterized in that at least one mirror rhombus is inserted into the device, installed so that laser radiation from the range finder is directed to the input receiving system of the device, and the receiving channel and other channels of the product are directed directly or through its mirror rhombus to the output optical system of the device .