FR2461933A1 - LEVEL MEASURING DEVICE FOR MATERIAL CONTAINED IN RESERVOIRS LOCATED IN PROTECTIVE CHAMBERS PROHIBITED FOR THE CIRCULATION OF PERSONNEL, IN PARTICULAR FOR THE TREATMENT OF NUCLEAR FUELS - Google Patents

Abstract

LEVEL MEASURING DEVICE FOR MATERIALS CONTAINED IN TANKS LOCATED IN PROTECTED ROOMS PROHIBITED TO THE MOVEMENT OF PERSONNEL, IN PARTICULAR FOR THE TREATMENT OF NUCLEAR FUELS. IN FRONT OF THE LEVEL 6 INDICATOR GLASS IS INSTALLED A OBJECTIVE5 WITH A HEIGHT ADJUSTABLE POSITION CONNECTED BY MEANS OF A FLEXIBLE OPTICAL TUBE3 IN FIBERGLASS, TO AN LENS9 LOCATED OUTSIDE THE PROTECTION CHAMBER1.

Description

Level measuring device for substances contained in tanks

  located in protective chambers which are closed to the movement of personnel, in particular for

  the treatment of nuclear fuels.

  The present invention relates to a measuring device

  level for substances contained in trans-

  parents calibrated or in opaque tanks communicating with a calibrated tube forming glass level indicator and which are located in protective chambers prohibited to the movement of personnel. More particularly, during the treatment of nuclear fuels, the level measurement in liquid tanks plays an important role in controlling the circulation of fissile materials in the reactor. In order to always have as accurate information as possible on the residence of fissile material, the error in the balance sheet should be as small as possible, which means, when determining the quantities of fissile material exact volume and concentration of the solution. Similar considerations may also play a role in the measurement of the volume of powders. While the determination of the concentration can be carried out with great precision, the determination of the volume which, in the case of normally cylindrical reservoirs, is reduced to a measurement of the level of the powders. liquid - represents a problem which, from a metrological point of view, has not been solved with the desired accuracy. This also applies to

tanks with angular section.

  Current liquid level measurement systems work with measuring electrodes on a capacitive basis; ultrasonic measuring devices and cable probes, floats and other equipment are also used.

  devices. However, such measuring devices do not satisfy

  do not meet the requirements to be met by measurements of the volume of radioactive solutions, etc. These requirements consist of a high measurement accuracy, a radiation-resistant measuring device including the measurement electronics and the measured value transmission system, a long service life, acid-resistant components, absence of moving parts inside the tanks and reduced maintenance costs. The simplest solution for a liquid level measurement is a visual survey from a properly calibrated level indicator glass. This level indicator glass can be mounted on metal tanks in a manner known per se. For

  the particular case considered here, provision may be made for

  glass seeps, for example of cylindrical shape, provided with

  simply a scale of measurement allowing a reading.

  Such a simple and, moreover, very precise method, which satisfies all the requirements enumerated above, is however practically not applicable to the case considered here, since, in order to guarantee nuclear safety, the tanks must be executed in a clearly defined geometry, either in the form of high cylinders or in flattened tanks, which, in the case of large volumes, may reach a height of several meters. An optical determination of the level can not therefore be made from the working floor and involves the use of ladders or work platforms. In addition, the survey is also rendered impossible by the presence of the wall of the protection chamber surrounding these reservoirs, apart from the associated radio exposure.

  that it is to avoid as much as possible.

  According to the invention, the problem of allowing a precise reading of the calibrated level indicator glasses or calibrated reservoirs is nevertheless solved by the fact that, in front of the level indicator glass, a height-adjustable, connected objective is provided. , by means of a tube

  fiberglass optics, an eyepiece located

outside the protection chamber.

  The eyepiece is thus located outside the protection chamber, which is also used for shielding, while the lens, movable from the outside, can be adjusted in height, by remote control, with respect to the glass. level indicator or the actual tank wall. Since, normally, an illumination inside the protection chamber is insufficient, the illumination of the scale is provided from outside the protection chamber, by means of the optical tube, from

from a source of cold light.

  This system makes it possible to obtain not only a statement

  at the same level, but also - through

  the control mechanism of the adjustment mechanism, for example a rod, for the purpose - a numerical indication of the level of the liquid. The construction elements required for this purpose are known in the current state of the art, from

  it is unnecessary to proceed to a detailed description of

of these.

  To better highlight the present invention, reference is made to the accompanying drawing, which schematically shows such a level measuring device, which can be used alternately for two tanks. We will give

  following is a brief description of three examples of

  possible: 1. To raise, at any height, inside a stainless steel box 1 serving as a chamber

  protection level, the level of a liquid contained in a

  see glass 2, we use a flexible optical tube

  fiberglass 3 and a cold light source 4.

  The objective 5, which is located at the end of the optical tube and which is fixed to a mount 10 in a position adjustable in the vertical direction, is adjusted to the calibration 6 of the glass cylinder. The displacement of the frame is obtained by means of a rod 8, coupled to a motor unit 7 rotating to the left and to the right. The cold light source is located outside the box 1 of stainless steel; the fluid level is measured at eye level, approximately 1.70 m above the ground, using an eyepiece 9 installed in the chamber wall

protection 1.

  2. In the case where two cylindrical tanks are erected next to each other, the same measuring system may also be used for the second tank by rotating the objective of 1800, using a electromagnet for example. By electrically transmitting the number of turns of the rod and using a converter, it is possible to provide a numerical indication of the volume contained in the tank, starting from

given level of the liquid.

  3. This optical measurement system can also be extended to larger groups of tanks, when the rod provided with the power unit is equipped with mobility and can move from one tank to another. This has a particular advantage for measurements carried out in premises very exposed to radiation, in which it is forbidden to circulate without particular means of protection against radiation. It goes without saying that the motorized adjustment system for the lens could be replaced by appropriate traction cables, controlled from the outside. On the other hand, in the case of very high tanks, it would be possible to have several level measuring devices of this kind on top of each other, so as not to have to solicit

  too much flexibility of the optical tubes.

  Finally, it will be mentioned that it is of course possible to make the mobile eyepiece outside the protection chamber,

  that is to say, not to mount it rigidly on the wall of this

  ci and make sure that the optical tube 3 can move to

through the protective wall.

Claims (6)

  1. Level measuring device for substances contained in calibrated transparent tanks or in opaque tanks communicating with a calibrated glass tube   level, tanks located in chambers of pro-   No movement of personnel, characterized in that a height-adjustable objective (5) is provided in front of the level indicator glass (6) and is connected by means of a flexible optical tube (3) fiberglass, at a   eyepiece (9) located outside the protection chamber (1).   2. Level measuring device according to claim   1, characterized in that it is provided, for the illumination of the ver-   level indicator (6), a cold light source (4), which injects light into the optical tube (3) from   the outside of the protection chamber.   3. Level measuring device according to the claims   1 and 2, characterized in that a rod (8) or cable is provided for adjusting the height of the lens (5).   traction, and a drive control (7).   4. Level measuring device according to any one   of claims 1 to 3, characterized in that the   adjustment stroke and therefore the liquid level can be indicated numerically via the motor of control (7).   5. Level measuring device according to any one   conque of claims 1 to 4, characterized in that the   measuring device can be used for several tanks   (2) with appropriate movement of the lens (5).   6. Level measuring device according to any one of   Claims 1 to 5, characterized in that it is used   for measuring the volume of radioactive liquids or powders.