SU38061A1 - Apparatus for controlling the crystallization of solutions - Google Patents

Description

The main author's certificate No. 37649 describes a depressometer-apparatus for automatically controlling the crystallization of substances in boiling solutions, consisting of a thermometer immersed in the boiling fluid of the cooking apparatus, a mercury vacuum meter with a trap, connected using a valve to the steam space of the cooking apparatus, and a drum for the diagram mounted on a vertical axis and driven from a vacuum gauge by means of a float and a counter-load lowered into the open knee of a vacuum gauge.

One of the disadvantages of the depississimeter was the use of a mercury vacuum gauge with large cross-section tubes, which is caused by considerations of the sensitivity of the apparatus, i.e., the apparatus can be quite sensitive only if a tube is used in which the float is moved with a cross section not less than 17 mm in diameter. Since the float had to be immersed in the open knee of the gauge, the tube had to have a constant cross-section over the entire length, and therefore

(187)

the amount of mercury required for one apparatus was 4 kg.

In order to reduce the consumption of mercury, in the proposed modification of the apparatus, while maintaining the same sensitivity, the tube with a float that drives the drum with a diagram is wide only in the area that corresponds to the usual working dilutions when cooking sugar, i.e. from 30 to 67 cv of mercury, the tube diameter is much lower and higher. To prevent mercury spraying in the gauge reservoir with abrupt changes in the degree of vacuum, the narrow tube connecting the spherical part to the reservoir is somewhat enlarged at the point of contiguity to the latter, and the surface of the mercury is covered with a floating disk made of cardboard, ebonite, etc.

In FIG. 1 shows a vertical section of a modified vacuum gauge and FIG. 2 is a side view.

A float with a thread is inserted into the wide tube I, to which the solder is placed on the narrow part 2, and the thread is first passed through the no narrow tube 2 so that it goes outside. Then, the lower part of the narrow connecting tube is soldered on. The float in tube 1 when the vacuum gauge is working can thus move from the upper to the lower limit of the working vacuum, approximately from 30 to 67 cm in height of the mercury column and tell the apparatus drum only the working one and not the idle rotation. On the upper and lower bottoms of the float, it is desirable to put the circles of sheet rubber.

Previously, the connecting tube 3 was taken of a significant cross section for the reason that the mercury sucked in by the vacuum in the tank 4 from the wide tube 1 with a more or less rapid change in the vacuum pressure in the case of a small tube cross section would enter the tank 4 at a very high speed, i.e. In tank 4, a mercury fountain could be produced, splashing it, which could lead to splashing of mercury into the suction pipes and concentration traps and damage to the latter. These undesirable phenomena in the present proposal are eliminated by the fact that the tube 3 is taken of a small cross section, before connecting to the reservoir 4, at a small length from the junction with it has broadening. Thus, the formation of a mercury fountain in tank 4, especially at that moment when the height of its level in the tank itself is still small, this way is eliminated. Besides

In addition, for the same purpose, in tank 4, a circle 5 of cardboard, klingerite, ebonite, or fiber is enclosed, floating on the surface of mercury and preventing it from splashing to some extent.

The subject matter of the invention.

Modification of the apparatus for controlling the crystallization of the solutions described in the author's certificate No. 37649, characterized in that the tube 1, in which the float is installed, which drives the drum with the diagram, has a wide cross section necessary for free floating of the float usually used working vacuum in the range of approximately from 30 to 67 cm height of mercury, the rest of this tube, as the top 2, serves to pass the thread from the float to the rollers, and the bottom 3, connecting The tube 1 with the tank 4 of the gauge has a much smaller section; moreover, in order to prevent mercury spraying in the tank 4 with occasional abrupt changes in the degree of vacuum, the connecting tube 3 in the part directly adjacent to the tank 4 has an extension and the surface of the mercury in the reservoir 4, with the same purpose, is covered with a disc 5 of cardboard, ebonite, fiber and similar materials. to the dependent author's testimony A. D. Malikov J 8061

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