SU1403113A1 - Arrangement for contact-free transmission of electric power to rotary object - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in measurement technology, in particular for providing power to the transmission part of a non-contact strain gauge system. The aim of the invention is to increase the efficiency and the dispersion of the field of application. The device contains mounted on rotor 5 and stator 6 parts with a gap one relative to the other rotor 1 and stator 2 windings, placed on elements 3, 4 of ferrite. The windings 1, 2 are placed at the same distance from the axis of rotation of the device. The ends of the elements 3 about | aiimp 1 towards the ends of the elements 4. (tat () |) and winding 2 is made in the form of consistently connected windings. The elements 4 are installed in the circumferential direction inside each other and are isolated from the stator part by the dielectric element 7. The number of stator elements is greater than the number of rotor cores. The windings 1 are connected to the transmitters 8 of tensometric information, the exception of the magnetic flux closure along the metallic elements of the carrier part leads to an increase in efficiency. 3 il. § (L

Description

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I The invention is designed for electrical engineering and 1 is intended for use in measurement technology, in particular, in order to ensure the energy saving of the transmitting part of the non-contact strain gauge system. LUvib invention - increase efficiency and the diversion of the scope.

FIG. 1 1 the device is shown, but the slide is 1 |; th section; in fig. 2 is a diagram of the dimensions of the elements of the fixed mate- nism with the winding sections; in fig. 3 -

c: heme of the exchange of elements of the rolling Magnetoconductor with winding sections.

The device contains installed on the 1st) MI and non-moving parts with a gap (1 point relative to the other winding 1 and 2. | elements 3 and 4 of the magnetic conductor are made1 of ferrite and installed in the slots of the corresponding parts 5 and 6. 2 are placed at the same distance from the axis of the device's lag. () The winding 2 consists of a sequence of H.tm.ochen1 1 x sections. 1Uchen1 1 And not |) to 8 sensors tensometric infor - || .ii mounted on the rotor manzhny.

During the operation of the device, the stator winding is fed from ijero to the generator on a generator with a frequency of 1 ~ 25-25 kHz. In operation, the elements 3 of the movable part are moved relative to () the elements 4 of the fixed part. In one case, one of the three parts of the movable part forms, with its UiM element 4, a non-moving part of the transfer (s () mat with two ferrite cores U-shaped, installed with an air gap. Thus, ) m magnetic field is out of metal elements. I.6

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Compiled by V. Ko.marov

Edit |) ii. CasarlaGehred I. VeresKorrektor N. Korol

Order 2866, 4; Circulation 746 Subscription

BIIHI IIIM State Committee of the CL CL; ie. inventions n discovery

I hSG). , W-35. Rau1neka iab., D. 4/5) children (nl. 1Graphichek) e iredi riie. Uzhgorod, st. Design. four

In the process of rotation, each of the windings of the moving part successively interacts with the windings of the non-moving part. When applied to the winding 2, a nanowire from an external special generator with a frequency of 15–25 kHz in winding 1 induces a voltage that is applied to the input of the transmitter of tensometric information.

The rotating transformer has low eddy current losses, since practically all the magnetic field is concentrated in the gap between the U-shaped cores. The performance of separate rotor windings does not provide an independent power supply to individual consumers.

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Claims (1)

Invention Formula A device for contactless transmission of electricity to a rotating object, containing stationary and movable magnetic pipelines with a U-shaped cross-section in the radial plane, facing each other with grooves, mounted on supporting elements, and located on the magnetic windings, In order to increase the efficiency and decomposition of the field of application, it is equipped with dielectric elements, the magnetic cores are made as separate elements of ferrite, between the fixed carrier element and the electrical components installed on it the elements of the fixed magnetic core installed the dielectric elements, the windings on the fixed and movable magnetic cores are made in the form of separate sections, the fixed winding sections are connected in series, and the number of elements of the fixed magnetic core of the magnetic core.