SU830169A1 - Device for graduating pressure impulse transducers - Google Patents

Description

(54) DEVICE FOR CALIBRATION OF TRANSFORMERS CONVERTERS PRESSURE PULSES

the cylinder has central holes, and the cable passes through these holes, fastened with a ball along its diameter, and the upper end of the cable is thrown over the block and both ends of the cable are fastened with weights.

The drawing shows a diagram of the proposed device.

The working cylinder 1, made in the form of alternating vertical cylinders of different diameters and filled with liquid 2 with a low temperature coefficient of viscosity, such as silicone oil, has slots 3 for graduated and control pressure transducers. An unheated piston 4 in the shape of a ball, like the working cylinder 1, is made of a material with a low linear expansion coefficient, such as amorphous quartz, moreover, a ferromagnetic core 5 is contained inside the piston 4. 7 and is equipped with electromagnetic holders 8 of the piston 4. The single-core cable 9 (string) is fastened with a ball-piston. The upper end of the cable passes through the upper hole of the cylinder and through the blocks 10 and is bonded with an exemplary load 11. The lower end of the cable passes through an opening in the bottom. end of the cylinder and fastened to a load 12, another exemplary mass.

A device for calibrating pressure pulse transducers operates as follows.

At the initial moment the working cylinder 1 is installed strictly vertically. The non-recessed spherical piston 4 is held in the upper position by the electromagnetic piston holder 8. The graduated pressure transducer is installed in the lower socket 3 and is subjected to a constant pressure equal to the hydrostatic pressure of the liquid 2. When the electromagnetic holder 8 is turned off, the piston 4 slowly falls down due to gravity. In this case, the piston-ball is affected by the force of the tin of the lower load (directed downwards), the yil of the tin of the ball-piston itself (also directed downwards) and the force of the gravity of the upper load (directed upwards). After the start of the ball-piston movement, the pressure acting on the pressure transducers increases and when the piston 4 reaches a constant speed, it becomes

equal to the sum of the hydraulic pressure of the fluid 2 and the total tonnage force of the ball of the piston and model weights 11 and 12, referred to the area of the diametrical section of the ball of the piston. This pressure remains constant until the constant speed of the piston 4 moves through the narrow cylinder. When the piston 4 enters the wide cylinder, the pressure drops to hydrostatic and then increases again to the same level as the piston 4 enters the narrow channel. The magnitude of this high pressure is determined by measuring the height of the liquid column 2 and the weight of the scrape and sample weights, i.e. absolutely. The magnitude of the pulse is determined by the difference in weight of the sample weights, which are attached to the upper and lower ends of the cable 9, and the weight of the ball-piston. By varying the weight difference of exemplary weights, different pressure pulse values are obtained. The device allows to obtain pressure pulses of 0.01 - 10 air pressure.

Tests carried out on a prototype of a device for calibrating pressure pulse transducers of the proposed design confirm its positive qualities.

Claims (2)

1. Author's certificate of the USSR 305378, cl. G 01 L 27./Ofl, 1969. 2. Authors certificate of the USSR 580472, cl. G 01 L 27/00, 1976 (prototype). // I1 ////////