SU940000A1 - Device for determination of porous loose material volume weight - Google Patents

Description

(5) yCTPOiCTBO FOR MEASURING THE VOLUME WEIGHT OF POROUS BULK MATERIALS

one

The invention relates to the measurement of physical quantities, in particular the volume weight of grains of porous bulk materials.

A device for determining the density and degree of dispersion of bulk materials is known, having a capacity for determining the volume of a liquid, such as water. A sample of the material is poured into a liquid and the change in volume fo shows the volume of the sample. A piston with a graduated rod is placed in a container and is immersed with its lower end to a certain gradation in order to accurately establish the volume reference on the rod. The telescopic part of the device is designed so that when fully immersed in the liquid, another rod projects, indicating the weight of the sample on the scale

The device is complex and does not allow to take into account when determining the bulk mass of loose grains.

material. and pores, and air bubbles, between the grains. Therefore, it is not possible to guarantee the accuracy of determining the bulk density of grains of porous bulk materials with a known instrument.

Also known is a device for determining the volumetric weight of grains of a porous granular material, including a transparent measuring vessel with a cylindrical neck, a transparent funnel in the form of a piston with a permeable membrane at the end inserted into it. On the outer side of the funnel end, a sealing ring is fixed. The disadvantage of this device is the comparatively low accuracy of determining the volumetric weight of grains of porous granular materials and the complexity of operating the device, for example, preliminary removal of intergranular fluid from a saturated liquid sample.

The purpose of the invention is to improve the accuracy of determination.

To achieve this goal, the device, which includes the main transparent measuring vessel with a cylindrical neck and the piston with a membrane permeable to liquids, is equipped with an additional transparent vessel with a cylindrical mouth that is integral with the main vessel, and is made in the form of an agitator with blades opening during rotation and provided with a horizontal crossbar supported on the cylindrical neck of the additional tank a

FIG. 1 shows a general view of the device; FIG. .2 - agitator piston, general view.

The device includes a main transparent measuring tank 1 with a cylindrical neck 2, with which it is connected to an additional transparent tank 3 with a cylindrical neck 4. Through the measuring transparent containers 1 and 3 of the device passes the agitator-piston consisting of the blades opening during rotation, a piston 6 provided with a liquid-permeable membrane 7 sealing ring 8, a rod 9 and a crossbar 10.

On the neck 2 of the main tank 1 there is a mark 11 located under the piston 6,

The device works as follows

Porous granular sample weighing is poured into measuring container 1, filled with kerosene, evacuated and weighed, then filled with water up to neck 2. At the same time, kerosene is displaced from the intergranular space with water and placed above it, and floating light grains of the test material are retained by the membrane 7 .

The slope of the instrument, kerosene, is poured into an additional transparent container 3 and shaken, as a result of which kerosene remaining in the intergranular space is released. A piston-stirrer is connected to the motor, and trapped air is removed. Then, adding water, bring its level to the 1 1 mark and weigh it. The device is washed, filled with water to the mark P, weighed.

Knowing the mass of the test sample of the used kerosene of the instrument contents (sample, water up to the mark and floating kerosene), as well as the mass of water in the volume of the instrument, calculate the volume mass of the grains of the test material.

Claims (2)

1. For England of England No. 2015725, cl. G 1 A, 1979,. 2. USSR author's certificate number 359576, cl. G 01 N-9/10, 1972 (prototype). Fig.i ten X ar 0ug.Z