SU1539539A1 - Hydrooptic measuring device - Google Patents

Abstract

The invention is intended to measure the transparency of water in oceanographic studies in the depth range up to 6000 m. The purpose of the invention is to increase the reliability of measurements by reducing the deviations of the optical beam at elevated hydrostatic pressures. The device includes a housing 1, a cover 3 with a hole, a porthole 9, a truss 5 with a reflector rigidly connected to the housing 1, inside of which a platform 6 is located with an optical unit 2 placed on it connected to a measuring circuit. New is the implementation of the platform of the optical unit with a protrusion 7, made in the form of a hollow cylinder mounted in the hole of the lid with a gap and coaxially with it, the gap is sealed with elastic annular gaskets 8, and the porthole is located at the end of the protrusion 7 and its dimensions do not exceed the diameter of the protrusion. 1 il.

Description

The optical unit 2 placed on it, connected to the measurement circuit, is a new implementation of the platform of the optical unit with a protrusion 7 made in the form of a hollow cylinder mounted in the opening of the lid

with a gap and coaxially with it, the gap is sealed with elastic annular gaskets 8, and the porthole is located at the end of the protrusion 7 and its dimensions do not exceed the diameter of the protrusion. 1 il.

This invention relates to a measurement technique, in particular, to a hydro-optical design. instruments for measuring the transparency of water and used in oceanographic research in the depth range of up to 6000 m.

The purpose of the invention is to increase the accuracy of the measurement by reducing the deviations of the optical beam at elevated hydrostatic pressures.

The drawing shows a hydro-optical measuring device.

The device contains a robust cylindrical housing 1, inside which a measuring circuit (not shown) and an optical unit 2 are installed. The housing 1 is connected to a cover 3 protecting the measuring circuit of the device from hydrostatic action and made with a truncated conical tip. The connection of the cover 3 with the housing 1 is sealed with gaskets 4. On the outside, a truss 5 is installed on the outside.

The elements of the optical unit 2 are mounted on a platform 6, which in the upper part has a cylindrical hollow protrusion 7 mounted coaxially in the axial hole of the lid 3. The connection of the hollow cylindrical protrusion 7 of the platform with the lid 3 is sealed with rubber gaskets 8. A porthole is mounted on the outer end of the protrusion in the seat 9. with a cover 10 illuminator and a sealing gasket 11 of rubber.

On the farm 5 is installed the reflector 12 coaxially with the window and the illuminator 13, mounted on the platform 6 inside the case. A divider plate 14, a photomultiplier tube 15, a mirror 16, a modulator 17 and a lens 18 are also installed on the platform. The platform 6 with a protrusion 7 of the optical unit is made as a single part5

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or, which allows the seat under the porthole 9 to be made with high accuracy, eliminating the need for adjustment when installing the porthole 9 on the lid 3. The lug 7 of the platform of the optical unit 2 is connected to the lid 3 with a clearance of 30-174 microns.

Coaxial holes in the lid 3 and in the protrusion 7 are necessary for the passage of the measuring and reflected rays, and the porthole 9 is for protection of the internal cavity of the hydro-optical measuring device from the effects of aggressive environment.

Making the cover 3 with a truncated conical tip reduces the deformation of the cover at the point of its connection with the protrusion. 7, platform 6 of the optical unit, since it is known that the stresses in the part subjected to external hydrostatic pressure are directly proportional to its

Ip -R

radius (6 ---, where 5 is the voltage in the part walls; P is pressure, kg / cm; R is the radius, cm; t is the wall thickness, cm), and the deformations are proportional to stress m. The connection with the protrusion-7 has the smallest radius (the small base of the truncated cone), and hence the smallest deformations.

The assembly of the device is as follows.

Optical parts are installed on the platform 6 of the optical unit: the illuminator 13, mirrors 16, lens 18 (conventionally shown in the drawing). At the end of the hollow protrusion 7 of the platform 6, a porthole 9 is installed into the seat, fixed with the aid of the porthole cover 10 and the sealing rubber gasket 11 on the protrusion with 7 screws (not shown).

The optical unit is adjusted so that the measuring beam passes through the center of the porthole 9. Then, sealing strips 8 are put on the protrusion 7, the tuned unit is inserted with the protrusion 7 into the opening of the cover 3 and fixed. on the cover with screws (not shown). Further adjustment of the device is carried out by moving the reflector 12 mounted on the farm 5.

Hydro-optical measuring device (in simplified form) works as follows.

The beam from the illuminator 13 passes through the separating plate 14. A part of the beam goes to the photomultiplier 15, the signal from which enters the measuring unit (not shown). Another part of the beam through the separator plate 14 is reflected from the mirror 16, passes through the modulator 17, the object 18, the porthole 9, the volume of liquid under study and hits the reflector 12 The reflected beam returns along the same path. Due to the modulator, the direct and reflected rays are alternately transmitted to the photomultiplier tube, and the measuring unit compares the direct and reflected rays, which can be used to judge the degree of transparency of the fluid. i

Due to the connection of the protrusion 7 of the platform with the lid 3 on the running fit, the elastic deformation of the lid, which occurs with an increase in the depth of the device under the action of hydrostatic pressure, does not affect the operation of the device, since the porthole 9 does not change its position and, accordingly, does not change gauge position0

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the length of the measuring base.

The increase in the reliability of hydrooptical measurements due to the exclusion of the error introduced by the action of hydrostatic pressure on the meter is due to the constancy of the base to be measured, since the effect of deformation of the cover is eliminated, and the position of the optical beam remains unchanged due to the presence of gaps between the protrusion and the hole in the cover.

In addition, manufacturing costs are reduced by reducing the metal content of the cover and by simplifying, securing, and reducing the time and amount of adjustment; adjustment work is excluded when replacing the optical unit and is significantly reduced when the meter is adjusted.

Claims (1)

Invention Formula A hydro-optical measuring device comprising a housing, a lid with a hole, a porthole, a truss with a reflector rigidly connected to the lid, a platform with an optical unit placed on it, connected to the measuring circuit, is located inside the housing so as to increase the measurement accuracy by reducing the deflection of the optical beam at elevated hydrostatic pressures, the platform of the optical unit further comprises a protrusion made in the form of a hollow cylinder mounted in the hole uu and cover with a gap coaxially therewith, wherein a gap is sealed by elastic O-rings, and the porthole is located at the end of the protrusion and its dimensions do not exceed the diameter of the protrusion.