SU1456786A1 - Transducer for non-contact transmission of signals from rotating object - Google Patents

Abstract

The invention relates to an information-measuring technique and allows to increase the noise immunity of the device. The disk (D) 1 is fixed on the rotating object. In the radial section of the ferromagnetic core (c) 3 is placed D 1. C 4 with a signal winding is placed inside the measuring winding C 7. The conductor, (II.) 5 short-circuited winding is located along the perimeter D 1, connected to II 6 short-circuited winding, is parallel to it , sequentially and counter and covered by C 4. Outside C 3 is located P 6. The short-circuited winding is divided into two parallel P 5 and. 6. Induced disturbance currents in each:. P 5 and 6 are mutually destroyed, and therefore do not affect the transmitted signal. . silt

Description

on disk 1 and size 25 should be taken into account in the design process.

with a gap inside the measuring winding with a first toroidal ferromagnetic core 3, a short-circuited winding made in the form of two conductors 5 and 6. Moreover, the first conductor 5 is located along the perimeter of the disk 1 and connected to the second conductor 6 parallel to it, in series and oppositely and is covered by the second toroidal ferromagnetic core 4 with the signal winding, and the second conductor 6 is located outside the first toroidal core 3 with the measuring winding.

The Converter operates as follows.

The disk 1, together with the object 2, rotates at the same angular velocity. Through the signal winding, the transmission of signals from rotating

located on the heart, chunky 4, skips the alternating current. As a result, a magnetic flux occurs in the window of the core 4, which interacts with the short-circuited winding (conductors 5 and 6). The current arising in this case in this winding induces a magnetic flux in the core 3 and, accordingly, the EMF in the measuring winding, which is fed to the measuring equipment for further processing. In this way, a measurement signal is transmitted from a rotating object. At the same time

55

an object containing a disk of insulating material, fixed by a rotating object coaxially with it, a first toroidal ferromine core with a measuring coil, fixed fixedly and made with a radial slit in which the padded disc is placed with a gap, the second toroidal romagnetic core with a signal winding mounted on the aforementioned disk and placed with a gap inside the measuring winding with the first long-range ferromagnetic core

no converter.

Thus, the invention in comparison with the known device increases the noise immunity of the converter by eliminating the influence of external interference on the signal transmitted from the rotating object. In addition, the application of the invention makes it possible to reject the known methods of protecting equipment from external interference (for example, by shielding), thereby reducing-. with weight and dimensions of equipment and, accordingly, its metal content.

Claims (1)

Invention Converter for Contactless 0 five object containing a disk of isol, -, -. - of a fixed material fixed on a rotating object coaxially with the latter, the first toroidal ferromagnetic core with the measuring winding fixed and made with a radial cut in which the said disk is located with a gap, the second toroidal ferromagnetic core with the signal winding fixed on the mentioned chute and placed with a gap inside the measuring winding with the first toroidal ferromagnetic core. a short-circuited winding placed on the said disk, characterized in that, in order to increase the interference level, the short-circuited winding is made in the form of two conductors, the first conductor located along the perimeter of the said disk connected to the second 56786 the conductor located parallel to it is consistent and counter and encompassed by the second toroidal ferromagnetic core with the signal winding, and the second conductor is located outside the first toroidal ferromagnetic core with the measuring winding. BUT g 1