SU493734A1 - Stand for determining the dynamic characteristics of acceleration measuring transducers - Google Patents

Description

A power supply unit 16 is installed. The acceleration and current transducers are connected to the recording unit 17 by coaxial cables 18 and 19, respectively.

A thyristor control system 20 is provided in the stand, containing pulse transformers 21 and 22 and a delay unit 23. The inductor magnetic circuit consists of a cup 24, a cover 25 and a sub-inductor part of the rod 26. The cup and the cover are made of ferromagnetic material and are interconnected by screws 27. Operating winding the inductor is wound tightly on the sub-inductor part of the rod through an electrically insulating gasket 28. The working rod and the inductor are centered at 1 brush and rubber rings 29.

The stand works as follows.

Using the power supply unit 16, capacitors 6 and 12 are charged, a single pulse of electrical voltage is applied to the input of the thyristor control system 20, which is transformed by the pulse transformer 21 and opens the thyristor 13. The capacitor 12 is discharged to the bias winding 5. In the auxiliary discharge circuit A pulsed bias current flows, which causes a magnetic flux F in the inductor 2 magnetic circuit.

A single impulse of electric voltage applied to the thyristor control input 20 delayed by time 3 by means of delay unit 23 is transformed by impulse transformer 22 and opens impulse thyristors 8. Discharge of capacitor 6 to the working winding 4 occurs. Pulsed current flows in the main discharge electric circuit 4 (0- When a pulsed current tl flows in the sub-inductor part 26 of the working rod 1, the induced eddy current flows in the working winding 4) The interaction of currents ii and iz causes repulsive electrodynamics Solid forces FI, which stretch the working winding 4 and compress the subductor part 26 of the working rod 1. In addition, for a given direction of the magnetic flux F there is an interaction of the magnetic flux F and currents tl and 12, as a result of which the electrodynamic forces p2 develop. Also cause the deformation of the stretching of the working winding 4 and the deformation of compression of the under inductor part 26 of the working rod 1.

Thus, in the sub-inductor part 26 of the working rod 1, pulse deformation is excited with a duration equal to the duration of the current pulse and. The need for a delay block 23 is caused by the fact.

that the greatest force effect on the sub-inductor part 26 of the working rod 1 is achieved when, during the course of the current tl, the magnetic flux has the greatest value. A deformation wave (mechanical stress), the length of which depends on the length of the working winding 4, the speed of sound propagation in the material of the working rod 1 and the duration of the deformation pulse, propagates to both sides of the working rod 1.

When the deformation wave reaches the end of the working rod with the transducer 3 acceleration, it causes its shock excitation.

The electrical voltage generated in the electric accelerator 3 is proportional to the response of this converter to shock excitation. This electrical voltage is input to the unit.

registering 17 by means of coaxial cable 18. A pulse of electric voltage proportional to the current pulse is supplied to the other input of the register 17 by means of coaxial cable 19. This voltage is removed from the current measuring transducer 3 (coaxial shunt) and carries information about the input shock effect on the acceleration transducer 3.

Subject invention

A bench for determining the dynamic characteristics of acceleration measuring transducers, comprising an electrically conductive rod, a recording unit, and an excitation system, characterized in that, in order to improve the accuracy of determining the dynamic characteristics and increase the peak value of shock acceleration, the excitation system is designed as a discharge electrical circuit out of work

windings of the inductor, wound on an electrically conductive rod, a switch and a capacitor connected in series, and an auxiliary discharge electric circuit from the series-connected windings

biasing the inductor, capacitor and thyristor, and the switch contains serially connected diodes, pulsed thyristors with voltage distribution resistors and their control system,

consisting of two pulse transformers and a delay unit, and a measuring current transducer made, for example, in the form of a coaxial shunt.