SU1238806A1 - Electrodynamic vibration exciter - Google Patents

Abstract

The invention relates to a vibration technique and can be used mainly for testing instruments for vibration and calibrating vibro-measuring transducers. The purpose of the invention is to improve the accuracy of vibration reproduction, by: reducing parasitic transverse and angular vibration. To achieve this goal, in the electrodynamic exciter, the central core of the magnetic core is made up of a CONSTANT magnet and a pole tip pressed against it, the latter is mounted for movement relative to a permanent magnet in a plane perpendicular to the core axis. This movement and clamping of the pole tip is accomplished with the psychic power of two pairs of adjustment screws screwed into the threaded holes of the magnetic core housing, which are installed in pairs on opposite sides of the pole tip under the clamp to the plane of its movement. When the pole tip is displaced, the distribution of magnetic induction around the working gap of the magnetic circuit changes, resulting in a change in the position of the line of action of the ejection force of the vibration exciter relative to the center of mass of its moving system with the item under test. 1 il. i (L Is9 CO o 00 o O)

Description

The invention relates to vibration technology, namely to electrodynamic vibration exciters, and can be used for vibration testing of instruments and calibration of vibration measuring transducers.

. The purpose of the invention is to improve the accuracy of vibration reproduction due to the reduction of parasitic transverse and angular vibrations.

The invention consists in adjusting the position of the axis of force developed by the exciter relative to the center of mass of its moving system by varying the distribution of magnetic induction around the working gap of the magnetic core by lateral displacement of the core of the central core of the magnetic circuit.

The drawing shows the expected electrodynamic vibration exciter longitudinal section.

The vibration exciter comprises a base 1, an assembly magnetic core mounted on it, comprising a housing 2, a central core made of a composite magnet 3 and an under-load pin and the end 4 pressed to it, and a flange 5, a slide-in) system including a power connection rigidly connected to each other. the coil 6 is located in the working gap of the magnetic circuit, the table 7 with the rod 8 passing through the central holes 9 and 10, placed respectively in the central core and the flange 5, the elastic suspension, the elements 11 and 12 (in particular the membrane) Torah installed in parallel on opposite sides of the magnetic circuit. The pole tip 4 is clamped to the permanent magnet 3 and mounted for movement relative to the latter in a plane perpendicular to the core axis. The means of pressing the pole tip 4, which also serves to move it, are made in the form of two pairs of adjusting wires 13 (one pair is visible) screwed into the threaded holes of the body 2 of the magnetic core. The adjustment screws 13 are installed in pairs on opposite sides of the pole tip at an angle to the plane of its movement and rested with the ends of the pole tip 4.

Electrodynamic vibrator works as follows.

 If the center of mass of the moving system of the vibration exciter with the test product mounted on the table 7 does not coincide with the center of stiffness of the elastic suspension, or if the axis along which the ejecting force developed by the exciter does not pass through the center of mass of the mobile system, along with the useful longitudinal vibration is mobile the system performs parasitic transverse and angular vibrations. To compensate for parasitic vibration, the pole tip 4 is moved in a plane,

perpendicular to the axis of the core. When one adjusting screw 13 is released, one pole of the other screw of this pair moves the pole tip 4. in one direction, and then the adjustment screws of the other pair move in the other, perpendicular to the first, direction,

 When the pole tip 4 is moved, the distribution of magnetic induction around the working gap of the magnetic circuit changes, and, as a consequence, the position of the line of action of the pulling force. Controlling after each movement the table vibration

7, using two pairs of vibration measuring transducers mounted on the table 7 in pairs symmetrically with respect to the center of the table 7, find such a position of the pole tip 4, in which the transverse and angular vibrations are minimal. The positioning of the adjusting screws 13 at an angle to the plane of movement of the pole piece 4 allows them to be used simultaneously for moving and pressing the pole piece 4 (to prevent it from detaching from the permanent magnet 3 during vibration).

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Claims (1)

Invention Formula Electrodynamic vibration exciter containing prefabricated magnetic core, the central core of which made of composite. constant the magnet and the pole tip pressed to it, and a moving system including a power coil rigidly interconnected, located in the working gap of the magnetic conductor, an STT with a stem passing through the central holes in the central core and the flange of the magnetowire, an elastic suspension, the elements of which set31 parallel to the opposite sides of the magnetic circuit, and the means of pressing the pole tip to the center of the magnet, characterized in that, in order to increase the vibration reproduction accuracy by reducing parasitic transverse and angular vibrations, the pole connector is mounted with the possibility of displacement relative to constant magni38806 .4 In the plane perpendicular to the axis of the core, and pressing the pole tip, which also serves to move it, are made in the form of two pairs of adjusting screws screwed into the threaded holes of the body of the magnetic circuit, which are installed in pairs on opposite sides of the pole tip at an angle to fo the plane of its movement.  6 / 12 / Compiled by V. Shakhter Editor M. Vlanar Tehred O. Gortvay Order 3326/4 Circulation 428 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proof-reader I.Erdeyi