RU2190206C1 - Device for allowance test of density of liquids - Google Patents

Abstract

FIELD: technological processes of production of liquids, determination of brand of automobile fuel, in particular. SUBSTANCE: device has vessel with inlet hole which is divided by vertical partitions into communicating spaces possessing upper and lower rests. Each space houses floats with different calibrated values of volumetric density which form scale of allowance test of density of tested liquid. Indicator is vertical partition between adjacent, sunk and floating, floats. Difference of volumetric densities of two adjacent floats is equal to allowance zone of tested liquid. Device also has thermometer and its front panel is made of clear material. EFFECT: increased productivity of operation of allowance test of density of liquids, enhanced sensitivity of device. 1 cl, 1 dwg

Description

 The invention relates to the field of research of various properties of materials, namely the density of liquids, and can be used in industry in technological processes in the manufacture of liquids, in motor vehicles, in particular for determining the brand of automobile fuel.

 A device for measuring the density of a liquid is known, comprising a chamber for pumping liquid and a float with a lever (see Farzan N.G., Ilyasov I.V., Azim-Zade A.Yu. Technological measurements and devices. M., Higher school. , 1989, - 456 p., P. 275, Fig. 10.1, c), in which the change in the buoyancy force acting on the float, under other constant conditions, is proportional to the change in the density of the liquid.

 The reasons that impede the achievement of the technical result indicated below when using the known device include the complexity of the design.

 The closest device of the same purpose to the claimed invention in terms of features is a device for measuring the density of liquids, including a container for the test fluid and a float (see Farzan N.G., Ilyasov I.V., Azim-Zade A.Yu. Technological measurements and instruments. M., Higher school., 1989. - 456 p., P. 275, Fig. 10.1.6) and adopted as a prototype.

 In this design, when the density of the liquid changes, the degree of immersion of the float in the container changes.

 The reasons that impede the achievement of the technical result indicated below when using the known device adopted for the prototype include the complexity of the design, low productivity of the operation for controlling the density of the investigated fluid.

 The technical result is an increase in the performance of the operation of tolerance control of the density of the studied liquids and an increase in the sensitivity of the device.

 The specified technical result in the implementation of the invention is achieved by the fact that the known device for tolerance control of the density of liquids contains a container for liquid with an inlet and a float located therein.

 The peculiarity is that the liquid container is divided by vertical partitions into communicating cavities having upper and lower stops, and in each cavity floats with different calibrated values of bulk density are placed in such a way that the difference in bulk densities of two adjacent floats is equal to the tolerance field of the density of the studied liquid and which form a scale for tolerance control of the density of the investigated fluid, and the pointer is a vertical partition between adjacent sunken and floating floats; the front panel of the device is transparent.

 In addition, a feature of the device is that it contains a thermometer.

 The drawing shows a diagram of the device tolerance control of fluid density.

 Information confirming the possibility of carrying out the invention to obtain the above technical result is as follows.

The device comprises a liquid tank 1 with an inlet 2. The liquid tank 1 is divided by vertical partitions 3 into communicating cavities 4 having upper stops 5 and lower stops 6. In each of the communicating cavities 4 floats 7-12 with different calibrated values of bulk density are placed , which form a scale of tolerance control of the density of the studied fluid, and the pointer is a vertical partition 3 between adjacent sunken and floating floats, and the difference in volume densities of two adjacent swimming trunks is equal to the tolerance field of the density of the investigated fluid. All floats 7-12 are made, for example, of aluminum, and have air cavities inside. The floats 7-12 can have a simple geometric shape, for example cylindrical, which allows their volume to be determined quite accurately, and their mass is determined with a high degree of accuracy by weighing, i.e. floats 7-12 are made with a calibrated bulk density value. If you make a series of floats 7-12 with a decreasing value of bulk density ρ, i.e. ρ ₇ >ρ> ρ ₉ > ρ ₁₀ > ρ ₁₁ > ρ ₁₂ , then we obtain the tolerance control scale for the density of the studied liquids. To account for changes in the density of the liquid under investigation when the temperature changes, a thermometer 13 is placed in the liquid tank 1. The front panel of the device is transparent.

 The device operates as follows.

The investigated liquid is poured into the liquid container 1 through the inlet 2. Those floats in which the bulk density is less than the density of the liquid under investigation will float and appear at the upper stops 5, and those floats in which the bulk density is higher than the density of the studied liquid will be at the lower stops 6. According to the index, which is the vertical partition 3 between adjacent sunken and floated floats, determine the density value of the test fluid with a tolerance field equal to the difference in volume densities of the sunken and floated floats. So, for the case taking place in the drawing, the fluid density ρ is determined from the expression ρ ₉ >ρ> ρ ₁₀ .
The presence of the upper 5 and lower 6 stops and the complete immersion of floats 7-12 in the test liquid eliminate errors due to surface effects at the interface.

 The determination of the density of the studied fluid by the proposed device allows to increase the productivity of the control operation and increase the sensitivity of the device, because the height of the tank 1 can be selected large.

 So, for example, if automobile fuel is used as the test liquid, then the brand of automobile fuel can be easily determined from the value of the fuel density. Since automobile fuel has a limited range, the number of calibrated floats will also be limited, and each of them can be calibrated with the brand of automobile fuel. For practical purposes, it is enough to have 5-10 floats to accurately determine the brand of fuel.

Claims (2)

 1. Device for tolerance control of fluid density, containing a fluid container with an inlet and a float located in it, characterized in that the fluid container is divided by vertical partitions into communicating cavities having upper and lower stops, with floats with different calibrated floats in each cavity values of bulk density so that the difference in bulk densities of two adjacent floats is equal to the tolerance field of the density of the studied fluid, which form a tolerance control scale of NOSTA sample liquid, and the pointer is a vertical partition between the adjacent sunken floats and floated, the front panel unit is transparent.  2. The device according to p. 1, characterized in that it contains a thermometer.