SU571699A1 - Photoelectric level gauge - Google Patents

Description

(54) PHOTOELECTRIC LEVEL

one

The invention of fire ogons to the field of measurement technology, in particular, to devices for measuring ugns of tilting objects, and intended for use in shipbuilding, mechanical engineering, geodesy. 5

Photovoltaic bubble levels are known, containing a transparent cylindrical ampoule with a transparent filler, two illuminators, installed along the ends of the ampoule, and two photocell CpejKy ampoules l. However, the indication of intermediate positions of the bubble level is low due to irregularity and instability of the light fluxes of illuminators, as well as movement light spot on the photosensitive jg surface of photoresistors and photodiodes used in photocell circuits, which causes considerable instability of the characteristics acteristics of photocells, the effect of interference.

Levels containing a cylindrical ampoule with an opaque liquid and an air bubble, photopotentiometers and illuminators are also known, the latter are installed at the top of the ampoule J.2J. Ampoule filled with colored solution. The illuminator is installed at the top 25

ampoules, and the latter is installed on semi-conductor substrates, forming an element with a light electromotive force. Light weakly passes through the solution, so that the intensity of light under the bubble is greater than in other areas of the ampoule, due to the smaller thickness of the liquid under the bubble. At the same time, due to the smooth variation of the thickness of the liquid layer at the boundaries of the bubble (at Leniska), the blurring of light and shade on the photocell is inevitable. Blurring the boundaries of light and shadow reduces the level sensitivity.

Also known is a photoelectric level containing a cylindrical ampoule filled with a liquid with an air bubble. Two phototangers, plugged into the measuring bridge, installed symmetrically with respect to the middle of the aN-rnyra iiH illuminator h.

Claims (3)

The purpose of the invention is to improve the sensitivity of the level throughout the entire operation and to eliminate the influence of the instability of the light flux on the sensitivity of the level. This is achieved in that the vial is filled with iienj303pa4HoA liquid with a light surface, such as mercury, and photo potentiometers are installed so that they cover the upper part of the vial covered with the edges of the bubble when it is crossed in the level range, except for the area for entering the light flux, (For example, in the form of a cavity parallel to the longitudinal axis of the level (Fig; 1). In Figures 1 and 2, the basic diagram of the ampoule is level. The ampoule contains the corilo 1, photopotentiometer 2, and air bubble 3 (fig. L). The ampoule is filled opaquely Liquid with light reflective surface. The fogtoptendiometers are installed symmetrically with respect to the middle of the ampoule, so that they occupy the entire part of the ampule covered by the edges of the bubble with the exception of the area for entering the light flux in the form of two slits. The illumination can be natural Photopotentiometers 2 can be made imperatively in the form of rectangular prisms with photocell layers on the catheter face of the prim. Prisms 4 are installed symmetrically relative to the middle of the ampoule, so that the axes occupy the entire part of the ampoule except u. There is a plot for entering the light flux Between the prisms, in the middle of the ampoule, the illuminator, made in the form of electric bulbs 5, two light filters 6 and two screens 7, is installed. The hypotenuse faces of the prisms are mirrored, and two photo potentiometers are installed on the cathograph of the Hsix, which are included in the bridge measuring circuit at the output of which has a signal information on the magnitude and sign of the bubble deviation from the middle position, convenient for insertion into automatic devices. To eliminate extraneous illumination of photopotentiometers, the lateral faces of the prisms, as well as the outer surface of the ampoule at the length of the base of the prisms and at the ends, are coated with an opaque varnish. The level works in the following way. When the ampoule 1 is tilted, the bubble 3 is displaced from the middle position. At the same time, the light spot on one photopotentiometer increases, while on the other it decreases. This leads to a proportional change in the electrical resistances of photovoltage meters, acting like a moving contact of a conventional potentiometer. A change in the resistances of photo potentiometers included in the measuring bridge causes its imbalance and the appearance of a signal proportional to the displacement of the bubble at the output of the bridge measuring circuit. The invention of the photoelectric level, born of a cylinder, a tropical ampoule, filled with air bubble, about two photopotentiometers, included in the measuring bridge, installed symmetrically relative to the middle of the ampoule, and the illuminator, which does not increase over the whole range of operation and exclusion of the effect of instability of the luminous flux on the ps & level level, in it the ampoule is filled with an opaque liquid with a light reflecting surface, such as mercury, and enyuyumetry mounted so that they cover the upper part of the ampoule, ohvatyvae fyyu edges when the bubble within range of a stirred layer for isklyuchekiem portion for introducing the light flux, such as a strip parallel to the axis prodolg .noy layer. Sources of information taken into account in the examination: 1, USSR Copyright Certificate Ng 154030, cl. Q 01 C 9/32, 1962. 2. Japanese Patent No. 48-4211, cl. 1OEO, 1973. 3. USSR author's certificate number 398819, cl. Q 01 C 9/01. 1972. - WWf a r - / m.l one Dd -g