SU794382A1 - Volume measuring unit - Google Patents

Description

Union of Soviet Socialist Republics

State Committee

USSR for inventions and discoveries) IBTvNTKO-Tbl [

О П НС А Н1Ге INVENTIONS TO AUTHORIZED CERTIFICATE (61) Additional to author. certificate-wu - (22) It is declared 22.01.79 (21) 2719476 / 18-26 with the addition of application No. - (23) Priority - (43) Published on 01/07/81. Bulletin No. 1 (45) Date of publication of the description 07.01.81 (p) 794382 (51) M. Cl. ³

G 01F 17/00 (53) UDC 543.8 (088.8)

(72) Authors inventions E. M. Sasin, Η. F. Yablonskaya, A.A. Krasnokutskaya, N.G. Kondratyev and A.V. Bobylev (71) Applicant Order of the Red Banner of Labor, Special Design Bureau of Analytical Instrumentation of the Scientific and Technical Association of the USSR Academy of Sciences

(54) INSTALLATION FOR MEASURING VOLUMES i

The invention relates to the design of installations for measuring the capacity of tanks, vessels, etc., and can be used to measure small volumes of metering devices of gas analyzers. 5

Known installations for measuring small volumes, containing communicating vessels, a line for filling vessels with low-boiling liquid, connected to an adsorber filling line and a gas line for inert gas supply [1].

There is also known a device for measuring the volumes of dosing devices, containing communicating vessels, a line for filling vessels with a working fluid, a trap, 15 adsorber, a flow meter, a dosing device with channels, one of which is connected to the filling line, and the other through a line for displacing the working fluid with a dosing device cylinders for inert gas 20 connected to one of the communicating vessels and to the other channel of the metering device [2].

Common shortcomings of known plants is that they have limited accuracy hydrochloric _{May 2,} design complexity and labor intensity and duration of the measurements.

In order to increase the accuracy, reliability and acceleration of measurements, the installation is equipped with an additional adsorber, cup scales, on one cup of which there is a trap with an adsorber, and on the other an additional adsorber, and three-way valves connected to the upper part of the communicating vessels, while one of the valves is connected with one of the inert gas cylinders.

The drawing shows a process diagram of the installation.

Installation for measuring the volume of dosing devices consists of communicating vessels 1 and 2; line 3 filling vessels with working fluid; traps 4, adsorber 5; flowmeter 6; dosing device 7 with channels 8 and 9, the channel being connected to the filling line 3, and the channel through the working fluid displacement line 10 — with a trap 4; inert gas cylinders 11 and 12 connected to one of the interconnected vessels 2 and to the channel 9 of the metering device 7; additional adsorber 13, cup scales 14, on the cup 15 of which there is a trap 4 with adsorber 5, and on the cup 16 an additional adsorber 13; and three-way valves 17 and 18 connected to the upper part of the communicating vessels 1 and 2. One of the valves 17 is connected to one of the inert gas cylinders 11, the cylinders having reducers 19 and 20, and vessels 1 and 2 having plugs 21.

Installation works as follows.

From a cylinder 12, inert gas purge (helium, argon, nitrogen) through a reducer 19 enters through a line 10 to a metering device 7 and then through a thin elastic tube from which a line 10 is continued to a trap 4 and an adsorber 5. The gas flow is controlled by a flowmeter 6 The purge is carried out until an equilibrium is established, determined by the constancy of the weight of the adsorber 5, the weighing of which is carried out on the scales 14 continuously throughout the entire purge period.

After establishing a constant weight of the adsorbent in the adsorber 5, the position of the metering device 7 is changed by turning it, and a determined volume of volatile liquid, for example, carbon tetrachloride, is introduced into line 10 from channel 8. The liquid is displaced by the purge gas and is sent first to the trap 4, where it is delayed, and the vapor enters the adsorber 5, where they are absorbed by the adsorbent, for example, activated carbon. After the adsorber 5, the gas enters the flow meter 6. The amount of liquid and its vapor trapped by the trap 4 and the adsorber 5 is continuously weighed using a balance 14. Knowing the total weight of the liquid coming from the metering device 7 and its specific gravity, find the volume of the metering device 7, rather, the volume of its channel 8.

The adsorber 13 mounted on the pan 16 of the balance 14 reduces the error caused by the change in ambient temperature during weighing.

Filling the channel 8 with liquid is as follows.

The communicating vessels 1 and 2 are filled with liquid and closed with plugs 21.

704382

From the cylinder 11 through the gearbox 20 and the valve 17, inert gas enters the vessel 1 and presses the liquid through the channel 8 into the vessel 2. The gas above the liquid in the vessel 2 is released into the atmosphere through the valve 18. The fluid coming from the vessel 1 into the vessel 2 flushes the channel 8 and removes gas bubbles from it. After that, the liquid is similarly squeezed from vessel 2 to vessel 1, repeating repeatedly the washing operation of channel 8 until gas bubbles completely disappear in it. After that, in the channel 8 set the final dose of fluid, which is then served, as described above, to determine its weight.

Claims (2)

(54) INSTALLATION FOR MEASURING VOLUMES of the outgoing taps 17 and 18 connected to the upper part of the communicating vessels 1 and 2. One of the taps 17 is connected to one of the cylinders 11 for the inert gas, the irich cylinders have the gearboxes 19 and 20, and the vessels 1 and 2 - Nrobki 21. Installation works as follows. From cylinder 12 purge inert gas (helium, argon, nitrogen) through reducer 19 enters through line 10 to metering device 7 and further through thin elastic tube from which line 10 is continued, trap 4 and adsorber 5. Gas flow is controlled flow meter 6. Purging is carried out until an equilibrium is established, determined by the weight constant of the adsorber 5, which is weighed on the scale 14 continuously during the entire purge period. After the constant weight of the adsorbent is established in the adsorber 5, the position of the metering device 7 is changed by its rotation, and a definable volume of volatile liquid, such as carbon tetrachloride, is introduced into line 10 from channel 8. The liquid is displaced by the purge gas and directed first to the trap 4, where it is delayed, and the vapors enter the adsorber 5, where they are absorbed by an adsorbent, such as activated carbon. After the adsorber 5, the gas enters the flow meter 6. The amount of liquid and its vapor trapped by the trap 4 and the adsorber 5 is continuously weighed by means of the balance 14. With the total weight of the liquid coming from the metering device 7 and its specific weight, the volume of the metering device 7 is found or rather, the volume of its channel 8. The adsorber 13 mounted on the 16 weighing pan 14 reduces the error caused by a change in the ambient temperature during weighing. The filling of the channel 8 with liquid is carried out as follows. The communicating vessels 1 and 2 are filled with liquid and closed with plugs 21. From cylinder 11 through reducer 20 and valve 17, the inert gas enters vessel 1 and squeezes fluid through channel 8 into vessel 2. Gas above liquid in vessel 2 is thrown into the atmosphere through the valve 18. The fluid coming from the vessel 1 into the vessel 2, washes channel 8 and removes gas bubbles from it. After that, the liquid is likewise squeezed from vessel 2 into vessel 1, repeating repeatedly the operation of washing channel 8 until the gas bubbles completely disappear in it. After that, the final dose of liquid is set in channel 8, which is then supplied, as described above, to determine its weight. An apparatus for measuring volumes of metering devices, comprising communicating vessels, a filling line for vessels with working fluid, a trap, an adsorber, a flow meter, a metering device with channels, one of which is connected to the filling line, and the other through a displacement line for working fluid with a metering device, inert gas cylinders connected to one of the communicating vessels and to another channel of the metering device, characterized in that, in order to increase the accuracy, reliability and acceleration of measurements It is equipped with an additional adsorber, pan weights, on one cup of which a trap with an adsorber is mounted, and on the other - an additional adsorber, and three-way valves connected to the upper part of communicating vessels, one of the valves being connected to one of the inert gas cylinders. Sources of information taken into account during the examination 1. USSR author's certificate No. 480915, cl. G 01F 17/00, 1975. 2. USSR author's certificate number 539221, cl. G GIF 17/00, 1976 (prototype).