SU968837A1 - Linear displacement-to-code converter - Google Patents

Description

of nonmagnetic round integers itnTHTH, and the length of the movable magnetic circuit is equal to the length of the section of the stationary cylindrical magnetic circuit.

The drawing shows a schematic representation of the linear transducer 5 movement in the code.

The converter contains a stationary cylindrical magnet 1 with two external longitudinal grooves 2 in the diametrical plane, consisting of 10 sections 3, 4 and 5 of equal length, sections 3 and 5 are made of circular plates b from a ferromagnetic material with a rectangular hysteresis loop (BCP), section 4 — of circular plates 7 IE of a nonmagnetic material, equal in thickness to the plate b, at the same distance from the central axis of the magnetic system 1 two central holes 8 are made in the same Q-diametral plane as grooves 2 and forming between the central jumper 9 on the plates 6 (the plates 7 are made without a central jumper), the bias winding 10, laid in the hole 8, the read winding is made of sections 11 and 12, connected in series and oppositely, which cover the jumpers 9 of ferromagnetic sections 3 and 5 , the winding 13 of the magnetic reversal, laid in the grooves 2 and the movable magnetic circuit 14 in the form of a hollow ferromagnetic ring, covers a fixed cylindrical magnetic core 1 with a small gap and n: about 35 length equal to the length of its sections.

The Converter operates as follows.

The bias winding 10 and the magnetization winding 13 are stuffed with 40 direct current. The magnetic flux F generated by the bias winding 10 brings the jumper 9 of the plates 6 of a ferromagnetic material with a BCP to the saturation state. When moving the movable magnetic circuit 14, alternating overlapping of the plates b of the fixed magnetic circuit 1 occurs. At the same time, a magnetic flux Fr arises, which rewinds the jumper 9 in an avalanche-like manner and brings it to saturation. In this case, an emf pulse is induced in section 11 or 12 of the read winding. When moving the movable magnetic circuit 14 in the opposite direction, the magnetic 55 flux Fr disappears alternately in the plates b and the jumper 9 is magnetic. the current Fr is avalanche-free re-magnetized to the saturation state and, in this case, in sections 11 or 12 of the winding

The readout induces a reverse EMF pulse. Due to the sequential and counter-switching of section 11 and 12 of the read winding, positive pulses are induced from one end of the fixed magnetic circuit 1 to the other end in sections 11 and 12, and negative movement is generated in the opposite direction when the moving magnetic core 14 moves.

Thus, when moving the movable magnetic core 14 in sections 11 and 12 of the read winding, EMF pulses are induced, characterized by a short front and amplitude sufficient to operate subsequent digital devices without additional pulse formers, the number of pulses proportional to the path traveled by the movable magnetic core 14 and the sign of the pulses is the direction of movement.

The economic effect from the use of the proposed technical solution is due to its technical advantages.

Claims (2)

1.Zaripov M.F. Converters with distributed parameters for automation and information-measuring equipment. M., Energie, 1969, with. 51-52, 2. USSR author's certificate for application No. 3007696, cl. G 08 9/04, 1980 (prototype).