SU98012A1 - Analytical volume meter - Google Patents

Description

The subject of the invention is a device for measuring volumes of powdered n free-flowing bodies, based on the method of taking into account the absolute degree of air compression of the measuring part of the device according to the known, predetermined relative degree of compression of the regulating part of the device.

In contrast to the known similar devices, the described analytical volume gauge is equipped with a mercury U-shaped manometer with an optical sighting device, a heat absorber in the form of a chamber with a metal coil, and feed and drain pumps.

FIG. 1 is a diagram of a meter, the first embodiment in FIG. 2 - the same, the second option.

A test specimen is placed in the cylinder / hermetically sealed chamber 2 (Fig. 1) with the lid 3. The invariance of the internal volume of the chamber is controlled by the position of the risk on the installation handwheel 4 relative to the pointer 5. Chamber 2 is connected by tube 6 to the control and measuring parts of the device. The measuring part of the device includes a U-shaped manometer 7 with scales of 8, 9 and loops 10 for the production of readings mounted on sliders //. Each of the measuring tubes of the pressure gauge 7 can be connected by means of a crane 12 to a pump 13. The pump 13 is designed to supply or suck mercury, in order to compress or dilute the air in chamber 2.

The control part of the device consists of two valves 14, two glass tubes 15 and 16, a mercury manometer 17 equipped with a microscope 18, and a pump 19. The pump 19 provides a suction or supply of mercury present in the tubes 15, / 5 and in the manometer 17. A sealed chamber 20 is connected to the regulating part, in which there is a heat absorber made in the form of a metal spiral with a large surface. All internal volumes of the device are strictly calibrated. Ca. measures 2 and 20 are heat insulated. Pump 19 is limited to 98012

A body with four stops for precise leveling in the tubes 15 16. The test specimen 21 is placed in the cylinder /, and there must be a maximum possible filling of the entire volume of the cylinder. After installing the cylinder / sample into the chamber, the latter is hermetically sealed, while the handwheel 4 is set to the position corresponding to the new labels.

With open 1 valves, the 14th level in the tubes is set to the "zero position on the installation features 22 and 23. With the displacement of the meniscus, it takes some time until the temperature equilibrium is established, after which the initial" zero position is restored. Then the pumps 13 and 19 (macro setting) level in the tubes 15 and 16 are set at the dotted line 24, the pump 19 is brought to the limiter, and the pump 19 adjusts the levels. After that, a shutter speed of 20-25 seconds is given and, if there is no level change, the meniscus is brought by pump 13 to line 25 and a reading is made on a scale (8 or 9, relative to which the level was moved. The level of the column in the second tube relative to the other scale remains at zero position. String contraction denoted by (+).

Slow displacement of the meniscus indicates the leakage of the device, which must be eliminated, and the readings repeated. Then, using pumps 13 and 19, the level in the tubes 15 and 16 is preliminarily determined according to dashed line 26 and finally according to line 23 and the initial zero is checked according to figure 27 of pressure gauge 7. At a zero level zero in 7, the meter reads . During the vacuum operation, all operations are repeated in the reverse order.

The operation of the device is based on the Boyle-Mariott gas laws and is based on taking into account the absolute degree of air compression with a precisely determined relative degree of compression. The device has two open volumes. The volume Qi includes the volumes of chamber 2, the enclosing tubes 6, 7, 15, 28 and the manometer 17 to replace the mercury, and the volume Qa includes the volumes of the chamber 20, the tubes 16, 28, 29 and the manometer 17 to the meniscus of mercury.

The degree of compression established for the device is determined by the formula, where Aqa is the constant volume of the tube 16, which is enclosed between features 23 and 25.

When determining the volume of the sample V by displacing the level of mercury in the tubes 7 and / 5, in the volume Qi, the same pressure as in the volume Q, -, this is monitored by the pressure gauge 17 and corresponds to the equality of compression degrees in the meter and the other volume .me

The change in volume in the tubes of the pressure gauge 7, denoted by x, and the volume of sample V are related by the following dependence: A-kV,

. AoGO, -Oo) ... L (72

whereA K is a constant value,

Q2Q

and X is determined by the position of the mercury levels in the tubes of the pressure gauge 7 relative to scales 5 and 9, calibrated against the standards.

FIG. 2 shows the second embodiment of the constructive meter. Instead of two tubes of the pressure gauge 7, there is one tube 30 attached to the shank 31 and a magnifying glass 32. The zero position is set relative to bar 33. Instead of the pump 19, a twin pump 34 is installed, simultaneously supplying equal volumes of liquid to the coarse 35 and 36, while mercury is any liquid of a small specific gravity can easily be applied. A tube

37 and the taps 38 are used to adjust the mercury manometer 39 from the pump 40. The pump 40 is equipped with balancers - parts 41, 42, 43. The operation of the device is similar to the operation of the device in the first embodiment.

Subject invention

An analytical volume meter for determining the volume of powdery and loose bodies, based on the principle of taking into account the absolute degree of air compression in the measuring part of the device by the known, predetermined relative degree of compression of the regulating part of the device, using glass tubes equipped with scales providing high accuracy of measurement and convenience in operation, it contains mercury U-shaped manometer with optical sight device, heat absorber in the form of a chamber with metal coil and two feed and drain pumps with balancers and limiters.

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