SU606118A1 - Pressure gauge - Google Patents

Description

(54) DEVICE FOR MEASURING PRESSURE

The invention relates to pressure measurement instruments and can be used to measure pressure and sound fluctuations in gas streams in openly gushing wells. With the open flow of gas wells, the flow rate determination is carried out with a calculation by the parameters of the reservoir pressure and the casing diameter of the well, which is a very approximate value. At the same time, high gas outflow rates, subsonic and sound, are accompanied by high constant pressures and sound vibrations. Measure them In-flow impossible with existing strain gauge devices with pressure sensors, including a body and a load-measuring tensometric pressure sensor, equipped on both sides with power transmitters & 1. There are known devices for measuring variable sound pressure, which includes a piezoelectric sensor, and equipped with a power-transmitting rod on both sides. The drawback of the devices is the impossibility of measuring both constant and sound pressures in the open gas flow, in particular, when the gas flow wells are open. The aim of the invention is to develop a device for measuring pressures in a gas stream in an open flowing well. The goal is achieved by the fact that the body is made of a streamlined closed shape, inside of which, in the frontal part, the meridically positioned levers are immobilized on one half of the Coft with one stem and the other with the second stem. Fig, 1 shows a general view of the device in cross section; in fig. 2 is a section A-A of FIG. one; in fig. 3 - installation of the device in the gas fountain. The device consists of an elastic case i of a drop-shaped form, in the head part of which a eyebolt 2 is tightly fitted, equipped inside with case 1 with a closed ycrpoflcTBONf 3, on which the meridian elastic epembits b are fixed on ring 4: on one of the cnnonepeaaitv schnh stocks 7, and on the other popovnne - on the other. A pressure sensor 8, for example, a strain gauge or a piezoelectric sensor, which is determined by the start of the device — for measuring pressure and speed, or vibration and noise — was installed between the force-transmitting rods 7. The pressure sensor is equipped with an electrode layer to us 9 and electric wires 1O.

The device can be entered into the gas fountain with the help of a cable 11 and directing it to the mouth of the flowing well 12. The housing 1 is made by connecting dowx over the section, vulcanized after the assembly of its internal elements.

The device works as follows. For example, with the help of cable 11, on which the eir-bolt 2 is eked out and the device case 1, it is directed to the mouth of the fountain-t of your gas well 12. The outgoing gas flow orients the device case 1 in the direction of its movement, facing It causes dynamic pressure on its frontal part and the static flow on the tail end. Both pressures squeeze the meridian elastic elements 5, those on the radial stops 6 each define a pressure gauge on the rods 7, where they are summed up and transmitted to the sensor 8.

When performing the measurement probe 8 in the form of a strain gauge resistance sensor, the graduated deformations and changes its resistance, which is measured by an external device through the electric wire 1O. The change in resistance occurs in proportion to the gas flow rate.

When the sensor 8 is in the form of a piezoelectric one, perceive the high-frequency co-fluids of the gas flow, respectively, generates an emf that can be recorded by an external recorder OR received on an oscillogram. This is how sound power is measured.

The proposed device allows measuring the napaMQT iiraisoBoro flow directly at the wellhead. This significantly increases the safety of the work on the elimination of gas fountains.

Claims (2)

1. USSR Author's Certificate No. 5 02 2 47 cl. (| 01 U 1/22, 1976. 2. The patent of Germany No. 235032, cl. 42 to 18, 1974.