SU1747918A1 - Measuring tank - Google Patents

Abstract

Usage: determination of the volume and other temperature-sensitive parameters (liquid, multiphase and solid media. Essence of the invention: the volume of the medium portion in the measuring device is determined by a scale (3) located on the throat (2), and its temperature is measured by a thermometer (4) the longitudinal channel (5) in the measuring device (1) The temperature of the medium is changed by controlling the flow or temperature of the coolant flowing through the second longitudinal channel (6) The coolant is supplied and discharged through the pipe (7) and (8) Tmernik tightness no indicator is mounted in the neck of the indicator (9) made in the form of a ball with an axial rod (10). The indicator also records the damage to the tightness of the measuring device 1 or 9 3 100 2% (705%) 100% Ut 99.8% {95%} .76 75 C I- M O 1

Description

The invention relates to glass devices for determining volume, volume change, density, concentration of controlled liquid, multiphase and solid media with temperature changes.

A known glass measuring sample flask containing a glass cone-cylindrical tank with a glass volume measuring neck located above the vertical axis of the tank.

Such a bulb is very accurate and fundamentally applicable in its heat-resistant properties to accurately determine the volume, change the volume, density and concentration of liquid, multiphase and solid media over a very wide temperature range, but is inconvenient to use because it does not provide a thin adjustment of the temperature of the intra-bulb medium over a wide temperature range and measurement of its temperature.

Closest to the proposed device is a glass measuring flask containing a conical-cylindrical glass tank with a cylindrical volume measuring throat and a liquid thermometer located on the vertical axis of the tank.

Such a glass measuring flask can be used to determine the volume, change the volume, density and concentration of liquid, multiphase and solid media, as well as measure their temperature over a wide range of temperatures, but is not accurate enough and tight due to the separability of the design, changing connector parameters in case of temperature fluctuations and gas accumulation in the recess near the thermometer, moreover, it does not provide for fine adjustment of the temperature of the intra-bulb medium in a wide temperature range, and the use of LfTetanus genus baths laborious, uncomfortable and ineffective, e.g., under control of the program in a wide temperature range

The purpose of the invention is to increase the measurement efficiency by providing a fine adjustment of the temperature of the controlled medium in a glass measuring flask and improving the accuracy of determining the thermosensitive parameters of the monitored media in a wide temperature range.

The goal is achieved by inserting inlet and outlet pipes of a heat-transfer agent in a measuring device containing a glass tank with a volume measuring throat and a thermometer, a vertical channel for installing a thermometer and a hemofibre canal for controlling the temperature of the controlled medium are made in the side wall of the glass tank. In the neck of the measuring device there is a spherical hole into which a ball-shaped indicator valve is installed, consisting of a ball and an upper indicator rod connected to the ball.

The drawing shows the design of the proposed device.

0 The mernik contains a glass double-cone cylindrical tank 1 with a cylindrical volume measuring neck 2 equipped with a scale 3 of a thermometer 4 installed in channel 5, made in the bicuscular-cylindrical section of tank 1, and a heat exchange channel 6 with connections 7 and 8 for supply and discharge of heat and coolant The heat exchange channel 6 is also made in the double cone section of the tank 1. The upper part of the neck 2 is made with a spherical angle closed by a ball valve 9 with an indicator with a rod 10.

5 Element 11 is a heat shield with a vertical capillary channel 12 for equalizing the subterm pressure; a vertical section 5 for installing a thermometer with an atmospheric element, element 13 is a foam collecting tray with a peripheral double-sided rim and an additional corner heat shield rim 14, elements 15 and 16 are a tap and a meter on the nozzle 8, respectively.

Determination of volume, change in volume, density and concentration (by apparent density, taking into account temperatures) of liquid, multiphase and solid media using

0 of the proposed measuring device is produced according to existing known methods with the only difference that the heating and cooling of the controlled medium in the flask is carried out by manual or automatic change.

5 flow rate or temperature of the heat-transfer agent flowing through the heat exchange channel 6 of the tank 1 using, for example, a heating-cooling element 17 and a flow regulator 18.

0Volume of volume and volume change

liquid controlled medium as a function of temperature is determined using a capacity measurement on a scale of 3 and a temperature measurement on a scale of a thermometer 4

5 (i.e. direct measurement method); the lower part of the channel 5 can be sealed with a stopper 11. The flow-through nozzle 8 is used to organize the circulation heat exchange flow along a sealed circuit using

flow promoter (not shown) and for other purposes. As a heating and cooling agent, air and other gases, saturated and superheated steam, as well as water, freon and other liquids can be used.

The presence of a valve 15 and a pressure gauge 16 provides the ability to autonomously control the vapor pressure of a coolant, for example, freon, water vapor, etc., at a given level or according to a program, which additionally provides flexibility and accuracy in controlling the temperature of the internal fluid.

The presence of a ball check valve 9 provides temporary sealing of the glass measuring flask in combination with protection from creating significant excessive pressures in the flask, and a gas or vapor breakthrough between valve 9 and neck 2 is accompanied by an audible signal due to blows of the indicator rod 10 of the valve the neck and

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five

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Claims (1)

signals the possible inaccuracy of the measurements, as part of the mass escapes with steam to the environment. The invention of the Mernik contains a transparent glass tank with a measuring neck, equipped with a thermometer, characterized in that, in order to increase efficiency by changing the temperature of the controlled medium and increasing measurement accuracy; two inlets for the heat-coolant supply and removal and a ball indicator with an axial rod are introduced into it; in the end of the measuring neck is spherical Single hole into which the bead core is set up in the wall of the transparent measuring vessel formed longitudinal channels, one of which is mounted a thermometer and teplohladagenta supply and discharge pipes are mounted on the wall of the transparent glass vessel, and communicated respectively with the inlet and outlet of the second channel