SU851674A1 - Vibration exciter - Google Patents

Description

(54) VIBRATING SPEAKER

The invention relates to a testing technique and can be used for vibration tests of electronic and measuring devices used in aircraft. Known vibration exciters of straight-line oscillations, contain a direct inductor and a movable inductor with alternating and direct current windings mounted on a fixed inductor til. The performance of the vibration exciter allows the unit to increase reliability, but the disadvantage of this design is the limitation of the amplitude of oscillations of the core and the decrease in the power factor associated with an increase in the equivalent air gap. . Also known is an exciter comprising a two-part stator with multiphase windings and measles fixed by means of elastic elements consisting of axially located links. Such an embodiment of the exciter allows reducing the equivalent air gap and increasing the stroke of the core 2. A disadvantage of the known exciter is the difficulty of mounting the internal inductor. and the difficulties associated with the placement, cooling and repair of the winding of the internal inductor. The purpose of the invention is to simplify the construction and expand the functionality of the vibration exciter by obtaining a variable in magnitude and direction of the disturbing force. The goal is achieved by the fact that each of the parts of the stator is made in the form of two intersecting flat m 1 conduits forming between themselves angles of 90, and the core links have four poles placed opposite each of the flat stator magnetic circuits, and the poles lying opposite one part of the stator have the same polarity,; false polarity of two other poles of this link, as well as polarity of adjacent poles of neighboring links, and multiphase stator windings have the opposite order of phase alternation. FIG. 1 shows the inventive vibration exciter, a transverse section; FIG. 2 shows section A-A in FIG. 1. The vibration exciter contains a stator made of two parts 1 and 2 of equal length, Ks1zhd from KOTOIXJX image

yana intersecting at angles with flat magnetic cores.

Multiphase, for example, three-phase windings 3 and 4 are placed on the stator with the same number of poles and with the opposite order of phase alternation. The stator taps 5 serve to pull out the frontal parts of the windings 3 and 4. The movable measles of the vibration exciter is located inside the stator and consists of a ferromagnetic body 6 and ferromagnetic links 7, the number of which is equal to the number of poles of windings 3t and 4. Each of the ferromagnetic links 7 core has four poles .8 placed against each of the flat stator magnetic cores, and the poles lying against one part of the stator have the same polarity opposite to the polarity of the other two poles of this link, as well as the polarity of the adjacent polar yusov neighboring links.

Excitation windings 9, located on links x 7 core, serve to create a magnetic flux Φ, the direction of which is shown by arrows in FIG. 2. The elastic elements 10 fix the measles in a vertical position, the elastic elements 11 and 12 in a horizontal position.

Vibro works as follows.

When windings 3 and 4 are connected to a multiphase network, for example, a three-phase current, in the air gap between the headsets 1 and 2 and the poles 8 of the Ferromagnetic links 7 core two oppositely moving fields are created.

When traveling magnetic fields of windings 3 and 4 are exposed to 8 poles of ferromagnetic links 7 core, a disturbing force acting on the measles, which has three components - in the direction of the X, Y and Z axes, is formed variable. Thus, the measles makes spatial oscillations having components m, x, y and z. The oscillation frequency of the core on all axes is equal to the frequency of the voltage applied to the stator windings 3 and 4. The amplitude of oscillations of the core on each of the axes is regulated by changing the magnetization of the respective poles 8, which is achieved by adjusting the direct current applied to the excitation windings 9 and, in addition, by changing the voltage applied to the stator windings 3 and 4.

The design of the proposed exciter allows to increase reliability, ease of installation and operation by eliminating the internal inductor, and also allows to expand the functionality.

Claims (2)

Invention Formula . A vibration exciter comprising a two-part stator with multiphase windings and measles, sealed with elastic elements and consisting of axially arranged links, characterized in that, in order to simplify the design and extend the functionality by obtaining a variable in magnitude and direction of the disturbing force, each of the stator parts is made as two crossings flat magnetic cores, angles of 90 each other, and the core links have four poles placed opposite each of the flat stator magnetic circuits, with the poles facing one part the stator. The same polarity is opposite to the polarity of the two other poles of the given link, as well as the polarities of the adjacent poles from the links, and the multiphase stator windings have the opposite order of phase alternation. Sources of information taken into account in the examination 1. USSR author's certificate. 445970, cl. H 02 K 33 / 04,1971. 2. USSR author's certificate 425279, cl. H 02 K 33/12, 1971.