UA54048C2 - Rotation frequency transducer - Google Patents

Abstract

The proposed rotation frequency transducer contains a casing, an inductor installed in the casing, a disk armature, witch shaft is supported by bearings in the casing, and current collectors. The inductor is designed as an U-shaped magnetic core with a permanent magnet. The disk armature is made of nonmagnetic steel and is installed in the air gap of the magnetic core.

Description

Description of the invention

The invention relates to measuring equipment and can be used in automatic control 2 and regulation systems to convert mechanical movement - shaft rotation - into a direct current electrical signal.

Known direct and alternating current tachogenerators, pulse-induction and optical speed sensors (E.V. Armeyskyi and G.B. Fapka "Zlectricheskie mikromashiny". Moscow, "Vyissaya shkola" - 1975, p.143-162; M. M. Katsmana and F. M. Yuferov "Electric machines of automatic systems". Moscow, "Vyissaya 70 school - 1979, p. 74-78, p. 179-1861.

Of the known converters of the frequency of rotation of the shaft into an electric signal of direct current, the closest in terms of technical essence is the executive motor of direct current with a disk armature and a printed winding

IM.M. Katsman and F.M. Yuferov "Electrical machines and automatic systems". Moscow, "Vyissaya Shkola", - 1979, p. 66-67), which is taken as a prototype. This engine can also serve as a speed sensor 12 (tachogenerator) if its shaft is connected to the shaft of the speed mechanism that needs to be measured.

The motor contains a magnetically conductive housing with bearing shields in which are placed: an inductor - permanent magnets with pole tips, a disk armature with a printed winding fixed on the shaft, which is installed in the bearings, and current-carrying devices - brushes, which are placed in a diametrical plane perpendicular to the plane anchor

Such a speed sensor has almost all the disadvantages of direct current tachogenerators: non-linearity of the output characteristic w-(«n) with increasing load current, the influence of the winding temperature on the value of the output voltage, the presence of pulsations that introduce errors into the measurement, the presence of asymmetry of the output voltage during shaft rotation in the reverse direction and the zone of insensitivity (the range of speeds within which the output voltage is zero). In addition, this sensor has a relatively short service life due to the wear of the flat printed winding 29, on which the brushes slide directly. Gee)

The basis of the invention is the task of simplifying the design of the sensor and increasing the accuracy of measuring the rotation frequency.

The task is achieved by the fact that in the speed sensor, which contains a housing with bearing shields, inside which there are an inductor, a disk armature fixed to the shaft, which is installed in the bearings, and current-carrying devices, the disk armature is made in the form of a flat disk with " It is made of non-magnetic metal, and the inductor is a U-shaped magnetic conductor with a permanent magnet, which is made with an air gap in which the disk armature is placed, while the current-carrying devices are installed in a diametrical plane that is perpendicular to the plane of the disk on the longitudinal axis of the magnetic conductor on one side " And from the axis of the disk, and the case is made of non-magnetic material.

The set of essential features of the proposed technical solution makes the speed sensor practically inertialess, there are no voltage pulsations in the output signal and asymmetry of the output voltage in different directions of shaft rotation. In addition, the linearity of the characteristic is ensured when the load resistance is from units of Ohm and above, because the internal resistance of the sensor does not exceed a few hundredths of Ohm, and for this reason, the stability of the output signal is ensured in a wide temperature range. C 50 Fig. 1 shows the general view of the speed sensor in an open section, in Fig. 2 - a view along the arrow A. c The speed sensor includes a housing 1 with bearing shields 2, a magnet wire 3, a permanent magnet

From" 4, disc anchor 5 fixed on the shaft 6, current-carrying devices 7, for example, magnetic graphite brushes.

Magnetic wire C on the radial axis has windows 8 for installing current-carrying devices 7.

The sensor works as follows. When the shaft 6 rotates, the disk armature 5 rotates in the magnetic field of the gap of the magnet wire 3, which is formed by the permanent magnet 4. At the same time, in the sector of the disk of the armature 5, which rotates in the ith magnetic field, an electromotive force of induction directed from the center to the circumference of the disk is induced or "drive" on the contrary, depending on the direction of rotation of the shaft 6. The electromotive force, which is induced in the elementary conductors of the armature disk 5, is removed by current-carrying devices 7. drive 50

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Claims (2)

The formula of the invention 1. The speed sensor, which contains a case with bearing shields, inside which are placed an inductor, a disk armature fixed on a shaft, which is installed in bearings, and current-carrying devices, which is characterized by the fact that the disk armature is made in the form of a flat disk of non-magnetic of metal, and the 60 inductor is a U-shaped magnet wire with a permanent magnet, which is made with an air gap, in which a disk armature is placed. 2. The sensor according to claim 1, which is characterized by the fact that the current-collecting devices are installed in a diametrical plane that is perpendicular to the disk plane on the longitudinal axis of the magnetic conductor on one side of the disk axis. C. The sensor according to claim 1, which is characterized by the fact that the housing is made of non-magnetic material. b5 Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 8, 15.08.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. c o c « «c) « IS c) shi s ;" 1 sh" (c) drive 50 IR e) F) name) 60 b5