SU21480A1 - Differential pressure gauge - Google Patents

Description

The invention relates to differential pressure gauges consisting of two concentrically arranged and filled with mercury communicating from vessels, of which the inner vessel has a variable cross-section following the parabolic law.

The differential pressure gauge shown in cross-section consists of an outer cast metal cup 10, hermetically closed with a threaded metal cast cap 11 with a seal 12. The insert 14 of an electrically insulating substance (eg bakelite) in which the metal tube is pressed is inserted into the corresponding opening of the cap 11 15 and two through clamps 16. The liner 14, under which the gasket 17 is placed, is pressed tightly by the metal sleeve 18 to the lid 11. The stopper 19 is located at the highest hour. and a cover 11, serves to release the air by pouring water into the negative pressure chamber of the differential pressure gauge (when it is functioning as a steam and water gauge). The cavity cavity of the cup 10 is connected through the opening 13 to the three-way valve 7 of the piezometric tube 5 of negative pressure.

Inside the outer cup 10 a second cup 20 of electrically insulating material is placed, open at the top and attached to the cup 10 with a nut 21. A thick-walled vessel 22, also of electrically insulating material, is inserted into the cup 20. This sucker has a cylindrical shape on the outside, while its inner cavity is given a cylindrical shape in the upper part and a paraboloid of rotation in the lower part. From below, vessel 22 has a series of radial grooves 23, communicating with its cup 20 its internal cavity, which is hermetically sealed at the top with a gasket 24 provided with a threaded metal lid 25, into which tube 15. is screwed. air and water filling (the latter when using the device as a steam and water meter) and serves to connect the internal cavity of the vessel 22 with a three-way valve 7 positive pressure piezometric tube 5. On the outer surface of the electrically insulating vessel 22, a bifilically wound head of a wire 28 is made of a material that has a possibly low temperature coefficient of electrical resistance and is not destroyed by mercury. The ends of this winding are connected to terminals 16. Thus, the inner cavity of vessel 22 is a positive pressure chamber of a differential pressure gauge, and the inner annular cavities of cups 20 and 10 are a negative pressure chamber.

The action of the proposed differential manometer as a measurer of the amount of substance flowing through pipeline 2 is as follows: the positive pressure prevailing inside the vessel 22, the effect on the mercury located on it, displaces part of the latter through the grooves 23 into the annular cavity between the glass 20 and the vessel 22, in which, therefore, the level of mercury rises while inside the vessel 22 it decreases. At the same time, due to the paraboloidal shape of the internal cavity of the vessel 22, the rise of mercury in the above-mentioned annular cavity occurs in proportion to the square of the pressure difference in the positive or negative pressure chambers of the differential pressure gauge, i.e. directly proportional to (approximately) the amount of substance flowing through pipeline 2.

Mercury, rising in the space between vessel 22 and cup 20, short-circuits one or another part of the windings 28, reducing the total resistance of the latter. Thus, with a uniform winding of the wire 28, the decrease in its resistance, according to the above, is directly proportional to (approximately) the amount of substance flowing through the pipe 2.

The subject matter of the invention.

A differential pressure gauge consisting of two concentrically arranged communicating vessels filled with mercury, the inner vessel having a variable cross section following the parabolic law, characterized in that the inner vessel 22 is made of electrically insulating material and equipped with a spiral bifillary on its outer surface. winding 28 bare conductor, closed with mercury, depending on the pressure difference acting on the pressure gauge.

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