SU693148A2 - Device for determining specific mass of solid materials - Google Patents

Description

(54) DEVICE FOR DETERMINATION OF THE PARTY WEIGHT

SOLID BODIES:

one

The invention relates to a device for measuring the density of bodies, used primarily in mineralogical studies.

Basically auth. St. No. 175705 described a vacuum device for determining the specific weights of solids 1.

The device consists of a housing in which a removable ampoule (measuring cell) is mounted to accommodate a sample of the material under investigation, connected to two movable mercury columns, one of which is a capillary vacuum gauge and the other is a measuring horizontal capillary. The free end of the capillary ends with an elongated vertical leg, on which a rubber mercury tank is mounted, equipped with a micrometer screw. With this screw, when the tank is pressed, mercury is supplied to the measuring capillary to set the zero or its output from the capillary (when the pressure on the rubber tank is reduced) and, thus, the air pressure in the measuring cell decreases.

The volume of the sample in this device is determined by three measurements of the lengths of the movement of mercury in the measuring capillary from the zero mark made at the same vacuum in the system: first with

empty ampoule, and then filled with a standard or sample. Finding the difference between the length of the movement of mercury with an empty ampoule and the lengths of movement of mercury in the two other measurements, knowing the magnitude of the sample and the volume of the standard, calculate the density

(specific weight) of the sample.

To make accurate determinations of the volume of a small sample of a substance, it is necessary that the total measuring volume

system no more than 2-3 times the volume of the sample. The design of this device does not fully meet this requirement.

Since not only the measuring capillary, but also the vacuum gauge is connected to the ampoule for placing a hinge having 50-100 mm,

the volume of which (1000-2000 mm) is many times greater than the volume of the measuring cell. This leads to a significant decrease in the accuracy of definitions.

The purpose of the invention is to improve measurement accuracy.

This is achieved by the fact that in the device with the measuring cell, only the measuring capillary is connected, and the vacuum gauge and the air pump are connected to the bottom by means of a sealed compensation tank (it is filled with mercury to a level above the point of connection with the capillary and the vertical mercury air cushion) . At the same time, the air pressure in the measuring cell is regulated (varied) by changing the air pressure in the compensated tank (due to the displacement V of the measuring key when measuring and AaiuiefiHW B computer of the MCH tank). Such a riSStfdfljrer constructive solution should be used to change pressure and measure it in the system on any pumps or vacuum gauges without any restrictions on their volume.

On the board, the pre-live device is a general view.

A device for determining the density of solids includes a measuring cell 1, vapillating in a thin section of a plug 2, a horizontally measuring capillary 3, the free end 4 of which is connected to a compaction tank 5, with which a vacuum meter 8 and an air pump double-sided action (not in the drawing of the contract), if necessary, it can be switched off with the help of a predokhrochnyi edge 9. -,:,

The measuring capillary p 3 has a narrow U-shaped bend, the descending branch of which has a widening (compensator) 10, equal in volume to the measuring cell I and allowing Tbsch to reduce the total measuring capillary 3. To reduce the pressure and the atmospheric pressure, use valve 7 bypass tube 6 / and tap I, located on the capillary tube .3 from the measuring cell I.

The device works as follows. . . -

Grinding tube 2 with an unfilled sample or reference cell 1 is installed in the slot of the slot, then with valves 9 and I open and pump 7 closed, the pump creates some excess pressure in the compensation tank 5 and, due to this pressure, the measuring capillary 3 is filled to zero. (O-0). Next, by closing the valve 11, the pump reduces the pressure in the tank 5 to a precisely fixed pressure ensuring the movement of the mercury column in the capillary 3 from the zero setting (O-0) to the maximum possible distance, and taking this distance after which naShs return the mercury to its original position and open the faucet I.

The following definitions of lengths, p and j, 5 | in the capillary 3, when there is a standard in the measuring cell with a precisely calibrated volume or a sample (w) of the sample, however length readings are taken ONLY according to the achievements in the same vacuum system. As in. the first case Find the difference ftt-fjr LSet. and, v (. calculate the density of the substance by.

formula.

  w: ml

TlEvGr

Claims (1)

Invention Formula A device for determining the specific gravity of solids according to ed. St. No. 175705, which differs from that to that, in order to increase the exact-; When measured, it is equipped with a compensation tank that is not completely filled; mercury and connected to the free end of the measuring capillary and vacuum gauge. Sources of information taken into account in the examination I. Copyright certificate № 175705, M., CL.2 G 01 N 9/02, 1964 (prototype).