SU1280353A1 - Device for calibrating instrument transducers of variable pressure - Google Patents

Abstract

The invention relates to a measurement technique and can be used as a means of calibrating pressure transducers in a dynamic mode. The aim of the invention is to expand the amplitude and frequency ranges and ko

Description

reduction of graduation error. In the upper part of the measuring head 11, there is a stepped piston 14 with a channel 16 through which the working fluid enters the compensation cavity 18 from the working chamber 17 and the outlet needle valve 20 to create the necessary constant pressure. The emitter 6, which is energized from the master oscillator 9, and the membrane 7

An alternating pressure is created in the working chamber 17. The voltage level on the calibrated transducer 13 is measured at a signal on the reference transducer 12, corresponding to the amplitude of the variable pressure at which the graduation is performed. The pointer 24 is calibrated in terms of the frequency of the workflow for a particular fluid. 1 il.

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The invention relates to a measurement technique, namely, to means of calibrating measuring transducers (PIs) of variable pressure in a fluid in a dynamic mode.

The aim of the invention is to expand the amplitude and frequency ranges and reduce the calibration error of the measurement transducers.

The drawing shows a device for calibrating variable pressure transducers (PI), a general view ..

The device has a base 1, a concentrator 2 mounted on it, and a source of constant pressure 3 with a pressure gauge 4, interconnected by a pipeline .5. The exciter 6 oscillator with radiating membrane 7 is placed inside base 1 and connected to power amplifier 8 and master oscillator 9. Replaceable tubular resonator 10 and floor measuring head 11 are successively installed on concentrator 2 and sample 11 is placed in measuring head 1I, ny converters (PI). In the upper part of the measuring head 11, a piston 14 is installed with sealing rubber rings 15 and a channel 16 connecting the closed working chamber 17 of the measuring head 11, the compensation cavity 18 formed by the piston 14, the inner wall of the measuring head Pi and the sealing nut 19.

needle valve 20. Auxiliary cavity 2 is connected by a hole 22 to the atmosphere. A piston nut 23 is fastened to the piston 14 and threaded to the outer wall of the measuring head 11. Parallel to the line of movement of the lower end of the cap nut 23, there is a pointer 24 to position the end surface of the piston 14 relative to the axis of the exemplary 12 and graduated 13 PI. The pointer 24 is calibrated in terms of the frequency of the workflow according to the formula

(ABOUT

X C / 2f,

where X is the distance from the piston face

14 to the axis PI 12 and 13; C - propagation speed

sound in a liquid; f is the frequency of the standing wave in the working chamber.

Preparation for operation and operation of the device is as follows. After pre-filling the cavity of the base 1, the concentrator 2 and the cavity of the replaceable tubular resonator 10 with a working fluid, such as transformer oil, an exemplary 12 and a graduated 13 PI are installed in the measuring head 11. Next, the exhaust needle valve and the flare nut 22 are opened by rotating the piston 14, which is capable of longitudinal movement, is set to its extreme upper position.

At the same time, the air is completely removed from the compensation iamera i 7 in order to fill it

Claims (1)

Invention Formula 25 thirty A device for calibrating variable pressure transducers containing a vibration oscillator with a radiating membrane, placed at the base, connected to a constant pressure source and filled with a liquid closed working chamber formed by successively connected concentrator, tubular resonator and measuring head with TH jacks for fastening on it an exemplary and calibrated measuring transducers, and a master oscillator with a power amplifier connected to a rozbud The oscillator is distinguished by the fact that, in order to expand the amplitude and frequency ranges and reduce the graduation error, it is equipped with a stepped piston located in the upper part of the measuring head and located at its lower end in the working chamber, while in the upper part of the measuring head around the body The piston has a compensation cavity, which is connected to the working chamber and channels in the piston in the upper piston. 40 45 50 The calibrated 13 PI is determined by -55 of the end part of the piston, and the piston is provided with a movement lock. Circulation 778 Subscription the ratio of the voltage at its output VNIIPI Order 7049/41 Random polygons pr-tie, Uzhgorod, st. Project, 4 five 0 to the level of reproducible variable pressure. Due to the fact that the PI calibration in the device occurs at the antinodes of the standing pressure wave, the amplitude and frequency ranges and the accuracy of the IP calibration are greatly increased. The amplitude range is increased by 2 times, the frequency range by 3 times and the accuracy of the PI calibration by 2 times due to the combination of the antinode of the standing pressure wave, carried out by the unloaded moving piston, with the axis of the reference and calibrated measuring transducers. The proposed device allows the calibration of the power source in the frequency range 0.4-30 kHz with a pressure amplitude of 100 kPa with an error not exceeding 5%. Invention Formula A device for calibrating variable pressure transducers containing a vibration oscillator with a radiating membrane, placed at the base, connected to a constant pressure source and a fluid-filled closed working chamber formed by a series-connected concentrator, tubular resonator and measuring head with TXp jacks on it is an exemplary and calibrated measuring transducer, and a master oscillator with a power amplifier connected to the switchgear oscillations, characterized in that, in order to expand the amplitude and frequency ranges and reduce the calibration error, it is equipped with a stepped piston located in the upper part of the measuring head and located at its lower end in the working chamber, while in the upper part of the measuring head around the piston body the compensation cavity, which is connected to the working chamber by a channel and channels that are filled in the piston and equipped with an exhaust valve installed in the upper the front part of the piston, and the piston is provided with a movement lock.