SU96885A1 - A control gauge for measuring the volume of anhydrous alcohol - Google Patents

Description

Testing instruments for measuring the volume of anhydrous alcohol in a water-alcohol solution reduced to a normal temperature, consisting of a solution receptacle for a tank with a float suspended from a spring, a sectional drum for measuring the volume of a solution and an anhydrous alcohol counter, are known. However, such shells, at different temperatures, measure the volume of anhydrous cnripia and allow an error of 1–1.5%, while taking alcohol into account requires an accuracy of about 0.2%.

The proposed control projectile provides greater than the known control shells, accuracy in measuring the volume of anhydrous alcohol with an accuracy of up to 0.20, 5%.

This is achieved by the fact that between the float, made hollow of the same as the alcohol meter, metal, and the counter includes two bulk bodies. One volumetric body is kinematically connected with the float and has a curved surface constructed in accordance with the table of indications of the alcohol meter with amending them for the thermal expansion of the sectional drum. The second bulk body has a surface of an involute profile and is connected with an anhydrous alcohol counter via a free-wheeling mechanism. Between the two volume bodies there is a w, pack, which limits the movement of the second volume body, depending on the position of the first one, and is connected via a suitable transmission with a thermal bulb located in the receiving tank.

The drawing shows a diagram of the described contro-lnogo projectile.

The basis of the construction of the alcoholometric part of the control projectile is based on taking into account the temperature, specific gravity and volume at this temperature and automatic determination using these parameters, as well as the coefficient of expansion of the solution corresponding to a given strength; the volume of anhydrous alcohol contained in the solution and reduced to a temperature of 20 by using a volume scale.

The control projectile is made using most of the parts of the known SK-35 control projectile and includes a reservoir 1 that is suitable for mortar, a float 2 suspended on a spring, made of the same material as the alcohol meter; sectional drum for measuring the volume of the solution and the counter 3 of anhydrous alcool.

Between the float 2 n counter 3 mounted two three-dimensional body 4 W. 5.

The volumetric body 4 has a fivolinear surface constructed in accordance with the table of indications of an alcohol meter with amending them for the thermal dissociation of the sectional drum. The volumetric body 4 is kinematically connected with the float 2 and is provided with a brake 6, which is automatically activated by a sectional drum at the moment the probe 7 approaches the volumetric body 4 to take readings.

The volumetric body 5 has an involute prof. L surface and is connected with an anhydrous alcohol counter 5 through a free-wheeling mechanism.

A probe 7, located on the melade by volume bodies 4 and 5, limits the peremesting of the second volume body 5 depending on the position of the first volume body 4 and is connected to a thermal bulb 10 located in the receiving tank 1 by means of the bellows 8 and the capillary tube 9.

When an alcohol solution of a certain strength and a certain temperature (from O to 30 °) is passed through the control projectile, the float 2 takes a position corresponding to its weight in this solution. Kinematically connected to the float 2, the bulk body 4 will be in one of its sections in the plane of movement of the probe 7 against its tips.

At the next turn of the sectional drum occurs first

braking of the volumetric body 4 in this position with the brake 6, then the second volumetric body 5 abuts against the end of the n axis; un 7 and moves it all the way from the point of the probe 7 to the point of this cross section of the volumetric body 4. The profile (evolvent) of the voluminous body 5 provides proportionality of the stroke length of the probe 7 to the angle of rotation of the counting wheel.

The counting mechanism of the control projectile KS-35 (this mechanism is used unchanged) is arranged so that the rotation of the counting wheel at an angle of 1 corresponds to the reading of 5/36 liters of anhydrous alcohol. For a given radius of initial involute circumference, it is obtained that 1 mm of stroke of probe 7 or "idle displacement of the bulk body 5 but the initial circle corresponds to the reading of 5/85.5 liters of anhydrous alcohol on the counter.

One or another section of the bulk body 4, established under the influence of the weight of the float 2 in this solution against the tip of the probe 7, provides a change of the probe 7 to the stop in the bulk body 4, designed so that the amount of movement corresponds to the volume of anhydrous alcohol reduced to a temperature of 20 ° and containing in one compartment sectional drum.

This volume is stored and summed by the counter.

Depending on the change in the temperature of the solution in the receiving tank /, the axis of the probe 7 automatically moves in a horizontal direction, occupying a position against one or another section; volumetric body 4 in a vertical plane. The horizontal movement of the probe is carried out by the bellows 8, to which the capillary tube 9 is connected from the thermal bulb 10 of an annular form, installed in the receiving tank 1. The working fluid is alcohol.

Subject invention

Claims (3)

1. A control device for measuring the volume of anhydrous alcohol in a water-alcohol solution, reduced to a normal temperature, consisting of a solution receptacle for a tank with a float suspended from a spring, a sectional drum for measuring the volume of the solution, and an anhydrous alcohol counter, characterized in that the purpose of specifying the readings of the projectile between the float, a hollow formed hollow of the same as the alcohol meter, a metal, and a counter v. two voluminous bodies, of which the first, kinematically connected with a float, has a curved the upper part, built in accordance with the table of indications of an alcohol meter, with amendments to them for the thermal expansion of the sectional drum, and the second three-dimensional body has the surface of an involute profile and through a free wheeling mechanism associated with an anhydrous alcohol counter, and between. Both bulk bodies have a probe that limits the movement of the second volume body depending on the position of the first one. 2. The shape of the projectile according to claim 1, characterized in that the probe, in order to make a temperature correction to the measurement by rearranging it in the horizontal direction, is connected via a suitable transmission to a thermal bottle located in the receiving tank. 3. Forma performance sparta yes on PP. 1-2, characterized in that the first three-dimensional body is provided with a brake automatically activated by a drive from the sectional drum at the moment the probe approaches the body to take readings.