SU1303810A1 - Variable-induction pickup - Google Patents

Abstract

The invention relates to a measurement technique and can be used to measure linear displacements. The circuit of the invention is to improve the measurement accuracy by reducing the effect of the radial displacements of the core of the inductive sensor, which comprises a housing 1 with two differentially connected coils 3 and 4 of the inductance placed on the frame 2. On the inner surface of the frame, there are fastened coaxially supports 5 and 6 friction, made in the form of stu-p foam sleeves of a material with a low coefficient of friction. In the friction supports there is a tubular core 7 made of a non-magnetic material with a ferromagnetic element 8 placed in its middle. The tubular core 7 is made with a length equal to two or more distances between the friction supports, and one of its ends designed for attachment to the object It has a rigid insert 9. When the control object is moved, the tubular core 7 moves in the supports 5 and 6 of the friction, which causes the position of the ferromagnetic element 8 to change relative to the inductance coils 3 and 4. Due to the precise coaxial installation of the core relative to the sensor inductors, the measurement accuracy of linear displacements in the range of up to 100 mm is improved. 2 3.p. f-ly, 1 ill. 7ff O $ (L with about co 00

Description

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The invention relates to a measurement technique and can be used to measure the parameters of the forward motion, for example, in electrohydraulic drives.

The aim of the invention is to improve the measurement accuracy by reducing the influence of the radial displacements of the sensor core during the measurement of motion parameters.

The drawing shows an inductive sensor, a longitudinal section.

The inductive sensor contains a core, a start 1 with two inductance catuits 3 and 4 placed on the frame, and a differential differential enabled (. On the inner surface of frame 2, bearings 5 and 6 coaxially fixed are made in the form of stepped sleeves of a material with a low coefficient of friction. Support 5 and 6 with its outer surface centering the frame 2 of the inductors in the housing 1 and using special nuts 8 and 7 and technological pads 9 and 10 still hold the frame 2 in the sensor housing 1. In supports 5 and 6 of the friction tube is installed A chuck 11 made of a non-magnetic material with a ferromagnetic element 12 placed in its middle. The tubular core 11 is made with a length equal to two or more distances between the friction supports, and one end intended to be fixed to the volume has a rigid insert 13 For example, from metal.

Inductive sensor works as follows.

When the control is moved, the pipe moves the core 1 1 in the supports 5 and 6 of the friction. In doing so, the ferromagnetic element 12 is moved relative to the inductance coils 3 and 4, changing their inductance magnitude. The execution of the core 11 in the form of a thin-walled tube, and the supports of the friction - stepped, provide an exact coaxial installation of the tubular gray.

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This allows measuring the measurement of an object in the range up to 100 (due to preventing radial displacements of the tubular core due to its precise centering). By placing a rigid insert at the point of attachment of the thin-walled tubular core to the object, prevent the core from deforming, resulting in a decrease radial bias in the process of measuring motion parameters. When a ferromagnetic element 12 is made of magnetic material, the sensor can be used to measure the velocity These object movements in the direction of controlled movements.

Claims (3)

1. An inductive sensor, comprising a case, placed therein on a frame and included differentially conductors of inductance and a tubular core installed in coaxially arranged friction supports, in order to improve measurement accuracy by reducing the effect of radial displacements of the core, the tubular core made of a non-magnetic material with a ferromagnetic element placed in its middle, and the friction bearings are made in the form of stepped cylindrical sleeves of a material with a low coefficient of friction, replenished on the inner surface of the frame of the inductor. 2-. The POP.1 sensor, characterized in that the tubular core is made with a length equal to two or more distances between the friction bearings. 3. The sensor according to claims 1 and 2, which means that one end of the tubular core, intended for attachment to the object, has a rigid insert.