SU738686A1 - Electrodynamic oscillator - Google Patents

Description

(54) ELECTRODYNAMIC VIBRATION AGENT

one

The invention relates to a vibration technique, namely to electrodynamic oscillation drivers, and can be used for testing various objects for vibration and vibration resistance.

A known electrodynamic exciter oscillation pathogen containing a magnetic circuit with a bias winding, a moving system including intertwined excitation winding and a table, and a suspension of the moving system in the form of membranes 1.

But with such an exciter of oscillations it is impossible to obtain oscillations with a large amplitude, since the membranes holding the weight of the moving system with the test object installed on it have considerable rigidity,

The most flimsy to the invention by its technical nature is an electrodynamic excitation exciter comprising a magnetic core with a bias winding, a movable system including fastened excitation winding, a table and passing through the central hole of the magnetic core.

the rod, and the suspension of the moving system in the form of a membrane, a source of a magnetic field with adjustable bias attached to the rod core, placed between the poles of the source of the magnetic field 2.

The introduction of a magnetic field with a current-controlled sub-magnetising system and a core placed between its poles into the suspension of the moving system allows to significantly increase the amplitude of the excited oscillations due to membrane unloading from the weight of the moving system.

15

However, the accuracy of reproducible vibrations is small, since the membrane does not have sufficient rigidity against the parasitic transverse components of vibrations.

20

The aim of the invention is to increase the accuracy of reproduction of a given forgFZ oscillations.

This goal is achieved by the fact that the causative agent is equipped with means of controlling the transverse displacements of the moving system, measles is made in the form of two mutually perpendicular cores lying in the plane perpendicular to the axis of the central stem, and the source of magnetic field is made with two pairs of electromagnets installed identical to cores of the core, with the cores of the core and electromagnets facing each other with the same poles, the means of control of transverse displacements contain a three-component vibration opreobraeovatel mounted on the table, and two spaced apart along the length of the central rod a pair of capacitive Nogo preobrazovatoley disposed in mutually perpeydikul polar planes between the rod and the punch. FIG. 1 schematically shows an electrodynamic excitatory exciter; in Fig. 2, the source is a magnet, a magnetic field and - measles. Electrodynamic exciter contains magnetic core 1 with a winding; 2 by; magnetization, the underlay system, which includes the excitation winding 3, table 4 and rod 5, and the MOBILE system suspension in the form of a membrane b, a source of magnetic field attached to the rod 5 and. the core, which is made in the form of mutually perpendicular cores 7 and 8, / lying in the plane, perpendicular to the axis of the central rod 5, and the source of the CSH of the magnetic floor is made with two pairs of electromagnets 9 and 10, 11: and 12 installed electromagnets ., 7, and 8 are the core, and the cores of the core and electromagnets are connected to each other by like poles. - The exciter of oscillations is equipped with control means containing a three-component vibrator 13, mounted on the table 4 and two spaced apart along the length of the rod 5 / pair, capacitive converters 14 and 15; 16 and 17, located in mutually perpendicular planes between the rod .5 and the core 18 of the magnetic circuit 1, made with a central hole 19, the oscillation activator also has a vibration level control unit 20, a power amplifier 21, you- The drive 22, the centering control unit 23 and the six-channel DC power amplifier 24. The outputs of the capacitive converters 14-1.7 are directly, and two of the three outputs of the three-component vibrating core 13 via the rectifier 2 are connected to the inputs of the centering control unit 23 connected in series with the six-channel DC amplifier 24. The outputs of the direct current amplifier 24 can be connected to the indicator. (Not shown) the horizontal position of the test object25 or to the control input, which is current from the pd-magnetization system (not shown) of the source of the magnetic field in order to automatically adjust the transverse rigidity suspensions; The vibration exciter can also be equipped with an emergency protection unit 26 connected to the output of the vibration converter 13. The vibration exciter operates as follows. Using the indications of the horizontal position indicator, a rough installation of the test object on the table 4 is performed. After the test object is fixed according to the signals from the capacitive transducers. 1417, a static centering of the moving system is automatically or manually carried out by connecting a magnetic field source magnetization system. At. In this case, the magnitude of the magnetisation magnetising the winding of one or the other of electromagnets 9-12 is determined by the output signal taken from the corresponding capacitive converter. After the operation of the static centering, the transducers 14-17 are blocked and the dynamic centering circuits are turned on. Vibrator 13 - rectifier 22- - unit 23 - amplifier 24 - magnetic field source biasing system. After supplying power from the unit 20 through the amplifier 21 to the winding 3 of the excitation table 4 rigidly bonded to the latter, will begin to make vertical oscillations Z (-t) together with the test object 25 and the three-component vibration converter 13 fixed on it. oscillations x (t) and V (t), then dynamic centering circuits are triggered, changing accordingly the magnetic induction in the gaps between cores 7. and 8 Bo and electromagnets 9-12, which in turn changes the magnitude of the forces - ttalkivani between respective, poles of the electromagnets and the armature, whereby the mobile system is centered. The emergency protection unit 26 protects the excitation windings 3 from damage if the transverse oscillations of the mobile (oscillator exciters exceed the allowable ones. This block implements an algorithm for comparing the current H (t-) transverse oscillations of the MOBILE system with the maximum allowable) white light

Claims (2)

Claim 1. Electrodynamic ’oscillator, containing a magnetic circuit with a winding, magnetization, a movable system, including a field winding connected to each other, a table and passing through the cent. the core hole of the core of the magnetic circuit rod, and the suspension of the movable system in the form of a membrane, a magnetic field source with adjustable magnetization and an anchor attached to the rod placed between the poles of the magnetic field source, characterized in that, in order to increase the accuracy of reproduction of a given waveform, it is equipped by means of control of transverse displacements of the moving system, the anchor is made in the form of two mutually perpendicular cores lying in a plane perpendicular to the axis of the central rod, and the source m gnitnogo field is provided with two pair of electromagnets E ^ set 5 identical armature cores, the cores of the electromagnets and the armature face each other with like poles, 2. Electrodynamic excitation. An oscillator according to claim 1, characterized in that the lateral displacement control means contain a three-component measuring vibration transducer installed: jc on the table and two spaced apart, not central rod pairs of capacitive transducers arranged in mutually perpendicular planes between the stem and core. . Sources of information, 20 taken into account during the examination 1. USSR author's certificate No. 185522, cl. Q 01 M 7/00, 1965. 2. Copyright certificate of the USSR No. 169842, cl. G 01 M 7/00, 1963 25 (prototype). Aa Fig-2