SU100761A1 - Instrument for measuring the specific gravity of solutions - Google Patents

Description

The invention relates to instruments for measuring the specific weight of the solutions directly in the apparatus, in which both the level j) acTBOpa and pressure are varied.

There are well-known products of this goal, a European pneumatic tube in the form of two pneumometric tubes, immersed in the test solution at different depths and connected to a differential pressure gauge, calibrated in units of density. The readings of such devices are of considerable importance due to the fluctuation of the level of the test liquid and the pressure in the apparatus. For this reason, a pneumatic tube is usually installed in a compartment1 of the 11th tank, through which another one must continuously flow the test solution out of the apparatus, which is not always possible to cope with known difficulties.

In contrast to these well-known devices, the sparing instrument allows the weight of the solution to be determined with sufficient accuracy directly in the apparatus, which fluctuates the level of the solution and pressure.

With this purpose, notably two pneumometric tubes connected to a differential pressure gauge, a third I-Nevmometric tube is installed in the apparatus, immersed in the test solution deeper than the first two tubes and incorporated into the pneumatic circuit of these tubes. At the same time, the third pneumatic tube iHpaeT plays the role of a compensator for the fluctuations of the level of the solution and the pressure in the equipment, as well as to be used as a level indicator of the level fluctuations by means of pressure gauges connected to it.

Pa drawing shows an exemplary scheme of the I1 of the target instrument.

The apparatus / installed two pneumatic tubes 2 p 3, lowered into the solution by different gmubina and connected to each other via the rtc capacitance and differential pressure gauge 4, vc: found in the price of secondary devices 5 of the visual or register pyiOHiero type.

In addition to the 1H1vmatic tubes 2 and 3, a third pneumatic one is installed in the device; tube 6, immersed in a solution of g, 1rub of the first two tubes on cocvUHieiHiasi with a mercury manometer 7.

All three infrared tube tubes from communications 8 through vessels 9, which are completely volatile, in order to be able to be observed from glass or another transparent material.

 constant air pressure .

At ETHOL1, the air pressure, post1: ay1dego into tubes 2 and 3, depends on the size of resistance to be overcome in tube 6, and, finally, is determined by the level of the solution in the apparatus and 1% in pressure. Therefore, at the level and pressure level fluctuations in ainiapaTe, the mode of outflow of air from the tube 6 and, accordingly, the amount of pressure of the air entering the tubes 2 and 3 automatically change, and this improves these factors on the readings of the differential pressure gauge 4 .

Differential mercury-capacitance gauge 4 is plugged in according to a known pattern into a chain of electrical appliances .5 of a visual or recording type, the scales of which can be calibrated in one unit, and their weight.

Simultaneously mercury manometer 7 connected to tube 6,

index of oscillations y) ram solution in the apparatus.

PRESENTATION

1. Instrument for measuring the specific gravity of solutions containing two pneumatic meter tubes, which are immersed at different depths and connected to a differential pressure gauge, characterized in that, in order to compensate for measurement errors at the level of the solution or pressure in the apparatus ,; the latter is installed one third of the non-geometric tube, immersed in the test solution deeper than the non-geometric tubes and included in the pneumatic system of these tubes.

2. Application in the device according to n. 1 pressure gauge connected to a third pyvmometric tube to indicate the level fluctuations in the apparatus.