SU581398A1 - Instrument transducer for measuring air shock wave pressure - Google Patents

Description

I

This invention relates to a measurement technique.

The known air shock wave pressure transducers contain a housing, a membrane with glued resistance strain gauges fixed in the housing along the perimeter and dividing the housing cavity into two parts, one of which is sealed and the other perceives the pressure of the shock wave 11.

However, such transducers allow pressure to be measured over time only in the positive phase of the air shock wave.

The closest in technical essence to the present invention is an air pressure shock transducer equipped with a plate valve, which is installed on the part of the body that receives pressure, and the walls of the body under the membrane and plate valve are perforated 2.

However, this device allows you to measure pressure over time only in the discharge phase.

The purpose of the invention is to make it possible to measure the pressure of an air shock wave in P (the positive phase, as well as the discharge phase.

This goal is achieved by the fact that in a pressure transducer containing a sealed enclosure with a perforated wall, externally closed with a membrane with strain gauges, and a perforated lid with a plate valve positioned on the approach side of the pressure plate, the plate valve is attached to the cover;) On the inside it is equipped with strain gauges on the inside, and the valve seat is made in the lid.

Such an embodiment of the transducer makes it possible to measure in time the pressure of the air shock wave not only in its positive phase, but also in the discharge phase, since when the air shock front approaches, the plate valve with the resistance strain gauge attached is not adjacent to the saddle. allows waves to flow through the holes in the chamber above the membrane and its effect on the sensitive membrane.

At the same time, the plate valve, which perceives the pressure of the air shock wave, bends and functions as a membrane in proportion to the pressure. The signal from the resistance strain gauge is fed through an amplifier to the oscilloscope for recording.

With the beginning of the phase, the discharged plate valve moves away from the saddle, together with the body cavity above the sensitive membrane with the discharge area. Air pressure is established above the membrane, and on the other hand, atmospheric pressure acts on the membrane with a resistance sensor, the membrane deflects in proportion to the pressure difference and the signal from the strain gauge is applied to the oscilloscope.

The drawing shows the proposed device, the cut.

The device contains a sealed housing 1 with a perforated wall 2, a perforated cover 3, a membrane 4 with a strain gauge resistance 5, a plate valve 6 with a strain gauge resistance 7 and a hinge 8, a saddle 9 under the valve 6, a plate 10 for compensating resistance sensors 11, conductors 12 from strain gauges resistances 5 and 11, fitting 13 with seal and screw 14.

The air shock wave pressure transmitter operates as follows.

When the front of the air shock BO.-I approaches the valve 6, the latter is pressed by pressure to the saddle 9 and prevents the wave from flowing and its effect on the sensitive membrane 4 with the resistance load cell 5 applied during the entire time of action of the positive pressure of the shock wave. Valve 6 works in this case as a valve. At the same time, the valve 6 under the influence of the air shock wave pressure is bent in proportion to the pressure, the signal from the strain gauge 7 of the resistance is fed through an amplifier to the oscilloscope for recording. Valve 6 in this case works as a membrane.

With the beginning of the discharge phase, the valve 6 moves away from the saddle 9, after the cavity above the membrane 4 with the glued resistance sensor 5 with the discharge area, the pressure of the discharge wave is established above the membrane. On the other hand, the membrane is affected by atmospheric pressure in the cavity of housing 1. The membrane is bent in proportion to the difference of the pressures acting on it and the signal from the strain gauge 5 is fed through an amplifier to an oscilloscope for recording.

Thus, the air shock wave pressure is measured both in the positive phase of its action and in the discharge phase.

Claims (2)

Invention Formula An air shock pressure transducer containing a sealed housing with a perforated wall, an external membrane with strain gauges, and a perforated cover installed above the membrane. With a gap, a perforated cover with a plate valve, spaced on the pressure supply side, differing from in the positive phase as well as in the discharge phase, in it the plate valve is hinged on the lid and fitted with strain gages on the inside, and the valve seat is made in the lid. Sources of information taken into account in the examination: - 1. Soloukhin R. I. Shock waves and detonations in gases M., 1963, p. 55-66. 2. USSR author's certificate number 361405 Cl. G 01 L 23/18, 1970. 3 v