SU485468A1 - Multi-turn transducer - Google Patents

Description

; . . one .

The invention relates to computing, information and measuring technology and can be used to transform and multiply angular displacements.

Known turnaround. A converter containing a closed three-core magnetic circuit with pentral and additional openings in three parallel rods, excitation windings located in the bases of the middle rod, two movable. windings and two cylindrical magnetic conductors with longitudinal openings mounted concentrically to each other in the central openings of a closed three-core magnetic conductor.

The purpose of the invention is the expansion of the class of tasks.

The proposed multi-turn converter is characterized in that cylindrical magnetic cores are movable in it, the first movable winding is made in the form of two sections located on the end portions of the internal cylindrical magnetic core in its longitudinal openings and in additional openings

extreme rods closed three-core magnetic, and the second movable winding is short-circuited and located on the outer cylindrical magnetic core in its longitudinal hole and in the additional hole of the middle rod closed three-core magnetic core.

The drawing shows a multi-turn transducer.

The converter contains a closed three-core magnetic circuit 1. In the central and additional openings of its three parallel rods two movable cylindrical magnetic circuits 2 and 3 are installed, moreover through the longitudinal ones. In the internal cylindrical magnetic core 2, two sections of the first movable winding 4 are widened, and through the external

cylindrical magnetic core 3 (its mid-hole averaged stern of non-magnetic core) is missing a short-circuited second movable winding 5. The middle core of the magnetic core 1 at the bases

covered by field windings 6. When I

supplying the excitation windings 6 with alternating current, the total flux created by the windings will be redetermined to opposite sides of the center of the jorhort rod of a closed three-core magnetic conductor along the axis of rotation of the movable cylindrical magnetic conduits depending on the angle of rotation of the magnetic conductor 3, namely proportional to the angles 180 and 180t (.j. This is due to the fact that during the rotation of the cylindrical magnetic core 3 the short-circuited second movable winding 5 rewinds from bottom to top or vice versa by directing vrasheni.

The role of the coring-closed second movable winding 5 is to increase the magnetic resistance of the area.

In the case when the short-circuited second movable winding 5 is rewound so that half of it is below the middle rod of the closed three-core magnetic circuit 1, and the other half is higher, the magnetic flux is redistributed up and down into equal parts. The position of the cylindrical magnetic core 3 corresponds to zero. If the magnetic flux going down is designated F .., and upward F, then by rotating the cylindrical magnesium line to the right (left) FROM the zero position by the angle oii,

F (8ai)

1360

wed 5 () gtAgg

where F is the total magnetic flux generated by the excitation windings 6. The components F and F2 of the total flux create 1X1Coscale with sections of the first movable winding 4 proportional to the rotation of the cylindrical mappch wires 2, as sections of this winding winding on the cylindrical magnetic circuit 2 are wound on it . In consequence of the sequential and counter-coupling of the sections of the first moving blanking 4, the output signal will be proportional to the emf.-ijieit of the emf difference induced in.: Ecc11x.

No)

-FJ-H

2

out

where Ej and Е2 Э.Д.С., induced in sections of the measuring winding /,,

,

p - (j;

   .; ::, 360-. .,. .

 η is the frequency of the feed current, Wu, the number of cores of the movable i winding niepBou 4. Substitution of the fluxes 1 from equations J and if into equations / y and. V, 1 receive

 - t / V (dSO

if.nO

, - / Ц Wu У -оСг, dLi)

f, y - -. . .. fi r i

660

) and the value of E; and E2 from equations VI and UE in control | Y, get

F. —j Jt “7W% (: t; o (

ObW -J60 °

Thus, output emf change, is proportional to the product of Two angular independent displacements with. volume of their directions.j

Subject matter

Multiturn transducer containing a closed three-core magnetic core with a central and additional | holes in three parallel

rods, excitation windings, located in the bases of the middle rods, two movable windings and two pyhshndricny magnetic circuits with longitudinal holes, mounted concentrically to each other in the central openings of three parallel rods of the magnetic conductor, and what with

the purpose of extending the class of tasks to be solved, in it the first movable winding is made in the form of two sections located on the end parts of the internal cylindrical magnetic core in its longitudinal

openings and in additional openings of the I of the outermost rods of the closed-core rod magnetic conductor, and the second movable winding is made short-circuited and located on the outer cylindrical

the magnetic core in its longitudinal hole and in the additional hole of the middle rod of the closed three-core Magnetic circuit.