SU1589093A1 - Apparatus for building up pressure pulses - Google Patents

Abstract

The invention relates to measurement technology and can be used for dynamic calibration of pressure sensors. The purpose of the invention is to improve the accuracy and provide adjustment of the parameters of the specified pressure pulses. The device comprises a housing 1 with sockets for sensors 2 and 3 of pressure and a pulse chamber 5 with a rod-needle 8 connected to a piezoceramic transducer. When the gap between the end of the rod-needle 8 and the ends of tadchik 2 and 3 is adjusted, the piezoceramic transducer 9 is given an electrical signal with a predetermined steepness of the front, a rise and a given amplitude. Transducer 9 changes its geometrical dimensions and injects the rod-needle into pulse chamber 5. The pressure change in the pulse chamber is detected by sensors 2 and 3. 2 Il.

Description

FIG. one

The invention relates to measurement technology and can be used for dynamic calibration of pressure sensors.

The aim of the invention is to improve the accuracy and provide adjustment of the parameters of the specified pressure pulses.

FIG. 1 shows the device section; in fig. 2 shows a circuit for connecting a device to a measuring circuit.

: The device consists of a housing 1, in which there are sockets for pressure sensors 2 and 3 and a static pressure pipe 4, a pulse chamber 5 and a seal 6. The housing 1 is screwed into the upper plate 7. A piston needle 8 enters the pulse chamber 5 rigidly connected to the piezoceramic transducer 9, which rests on the adjusting screw 10, screwed into the lower plate 11, which is connected to the upper plate 7 by the uprights 12.

The piezoceramic transducer is installed in a screen 13 made of a non-magnetic metal. The impulse chamber 5 is formed by an adjustable gap between the ends of the pressure sensors 2 and 3 and the beams of the needle-needle end parallel to them.

The circuit (Fig. 2) of the device for obtaining a pressure pulse comprises a piezo-ceramic transducer 9, a rod-needle 8, pressure sensors 2 and 3, an electrical signal generator 14 with adjustable voltage parameters, and a source 15 of static pressure.

The device works in the following way.

With an adjusted gap between the end of the rod-needle 8 and the ends of sensors 2 and 3 and a given static pressure in the Pulse chamber 5, an electric signal with a predetermined rising steepness and amplitude is supplied to the piezoceramic transducer 9. Under the action of voltage, converter 9 changes its geometric dimensions (varies in thickness) in proportion to the applied voltage and introduces the rod-needle into the pulse chamber 5. The rate of pressure change in the pulse chamber 5 is identical to the change in the applied voltage of the piezoceramic converter 9 and is detected by sensors 2 and 3, and his. the amplitude is proportional to the size of the gap between the mirror of the pulse chamber and the outer surface of the rod-needle head, as well as to the size of the change in the geometric dimensions of the piezoelectric transducer under the action of the applied voltage.

An electrical signal with specified voltage parameters is supplied from the generator 14 to the Piezoceramic transducer 9. The geometric dimensions of the transducer 9 change in proportion to the voltage applied to it on the rod needle 8, connected to the transducer 9, is introduced into the pulse chamber 5. The pressure in the pulse The chamber is detected by pressure sensors 2 and 3.

5 Signals from sensors 2 and 3 are supplied

to secondary equipment n computers, where they are fixed and processed. Due to the low inertia of the piezoceramic transducer, the steepness of the rise and pressure rise edge is identical to the parameters of the voltage pulse specified by the generator 14.

With the help of a source 15 of static pressure, which can be

5, a deadweight piston gauge is used, the required level of static pressure in the pulse chamber is set.

Obtaining a single pressure pulse by the proposed device allows you to precisely set and adjust the slope

0 and the amplitude of the generated pressure pulse, eliminate vibration interference, simplify the technique of the experiment.

Claims (1)

Invention Formula 5 a device for generating pressure pulses, comprising a housing with a pulse chamber filled with liquid and a stem needle connected to a pressure unit, the end of which is placed in the pulse chamber with a gap relative to its walls, characterized in that adjusting the parameters of the pressure pulses to be set, in it the motion setter is made in the form of a shielded piezoceramic transducer placed in the housing, on the radiating surface of which is fixed by its base -igla, wherein the transducer is coupled with an adjusting screw and is movable along the axis of the chamber. FIG. 2