RU111663U1 - PYCNOMETER - Google Patents

Abstract

 A pycnometer, which is a glass vessel of a special shape, the lower part of which is made spherical, connected to a vertical cylindrical tube on which an annular horizontal mark is located, characterized in that the spherical part of the pycnometer is made of two parts that divide it in half in a diametrical plane and between which is placed perforated partition with the size of holes, the diameter of which is less than the size of solid particles, the density of which is less than 1 g / cm3.

Description

The utility model relates to devices for measuring the density of bulk materials and may find application in laboratory practice in the chemical, paper and other industries.

A device for measuring the density of bulk materials (D.M. Mordasov, M.M. Mordasov "Technical measurements of the density of bulk materials" publishing house TTTU, 2004, page 8, Fig. 1.2.), Consisting of a measuring funnel located above the transition to the funnel a cylinder equipped with inclined plates for averaging a sample of material that is poured into a receiving vessel of a certain volume. This device uses the weight method for determining the density of bulk materials. The disadvantage of this device is the dependence of the amount of material poured into the receiving vessel on the height of the measuring funnel and the cylinder passing into the funnel. By changing the height of these elements, the degree of compaction of the material in the receiving vessel changes and its density accordingly changes.

Known pycnometer for determining the density of solid and bulk materials (Laboratory instruments and equipment made of glass and porcelain. Reference publication, publishing house CHEMISTRY, Moscow, 1988, p. 153 fig. 117a), consisting of a glass vessel of a special shape. The disadvantage of this pycnometer is the impossibility of determining the density of light materials with a density of p <1 g / cm ³ floating in the liquid.

A known pycnometer for liquids [GOST 22524-77], selected as a prototype, is a glass vessel of a special shape: the lower one of which is made spherical, connected to a vertical cylindrical tube on which an annular horizontal mark is located. The presence of a mark on a vertical tube allows you to accurately capture a certain amount of liquid. The density measurement is based on weighing a certain volume of liquid in the pycnometer, filling it up to an annular cylindrical mark on a vertical cylindrical tube. This pycnometer allows you to determine by the known method the density of bulk materials, the density of which is p> 1 g / cm ³ , i.e. density of solid materials that sink in liquids. The disadvantage of this pycnometer is the inability to determine the density of bulk materials whose density is p <1 g / cm ³ , since such materials float on the surface of the liquid, thereby distorting the filling volume of the pycnometer. Examples of such materials are sawdust, wood bark, wood shavings, charcoal, polyethylene granules, etc.

The purpose of the proposed utility model is to increase the accuracy of measuring the density of bulk materials with p <1 g / cm ³ .

This goal is achieved by the fact that the spherical part of the pycnometer is made of two parts, dividing it in half in the diametrical plane and between which a perforated partition is placed with the size of the holes, the diameter of which is smaller than the size of the solid particles.

The essence of the proposed utility model is illustrated in the drawing, where figure 1 shows a diagram of the pycnometer.

The pycnometer is a glass vessel of a special shape, the lower part 1 of which is spherical, the upper part 2 is also spherical and connected to a vertical cylindrical tube 3, on which there is an annular horizontal mark 4, Between the two parts of the pycnometer 1 and 2, separating it in the diametric in half the plane, there is a perforated partition 5 with a hole size whose diameter is smaller than the size of the solid particles. The upper 2, lower 1 parts of the pycnometer and the perforated partition 5 are connected by a cre leniem 6.

A pycnometer for measuring the density of bulk materials with p <1 g / cm ^{3 is} used as follows .. Pre-weighed bulk material is poured into the pre-disconnected lower part 1 of the pycnometer. Then, the perforated partition 5 and the upper part 2 of the pycnometer are installed on the latter. Next, the upper 2, perforated partition 5 and the lower 1 part of the pycnometer are connected by a fastening 6. Then the pycnometer is filled with a liquid of known density to a horizontal annular mark 4 on a vertical cylindrical tube 3, fixing a certain volume of the pycnometer (25, 50, 100 cm ³ , etc.). d.). Then the weighing of the pycnometer, filled with liquid and bulk material with p <1 g / cm ³ , is carried out and the density of the latter is calculated according to well-known formulas [GOST 22524-77]. The presence of two parts 1, 2 of the pycnometer allows filling the pycnometer with the studied material, and the perforated partition 5 prevents the ascent of the material with p <1 g / cm ³ , thereby increasing the accuracy of density measurement. In the known pycnometer (prototype), this is practically impossible, since such materials (sawdust, wood bark, wood shavings, charcoal, polyethylene granules, etc.) float on the surface of the liquid, thereby distorting the filling volume of the pycnometer.

The proposed pycnometer is manufactured at the University of Plant Polymers for subsequent testing and sale on the enterprises of the chemical, pulp and paper and other industries.

Claims (1)

A pycnometer, which is a glass vessel of a special shape, the lower part of which is made spherical, connected to a vertical cylindrical tube on which an annular horizontal mark is located, characterized in that the spherical part of the pycnometer is made of two parts that divide it in half in a diametrical plane and between which is placed perforated partition with the size of the holes, the diameter of which is less than the size of solid particles, the density of which is less than 1 g / cm ³ .