SU63185A1 - Device for remote transmission of angular movements - Google Patents

Description

The disadvantage of most of the existing systems of distal angle transmission and rotation, fed by constant currents (with the exception of those based on the use of photovoltaic cells), is the use of slider contact in the electrical circuit of the sensor. Slip contact with a flexible current lead (using springs or conductors) leads to a decrease in the transmitted angle. By the way, all such systems lead to a load of the moving part of the primary device (for example, a compass) by some mechanical force (moment).

Subjects of the present invention is a device for remote transmission of angular movements, devoid of these disadvantages. In the proposed device there is no mechanical contact in the sensor circuit, and at the same time the latter practically does not impose on the primary measuring instrument any mechanical force; in addition, the magnitude of the transmitted angle is not limited.

In principle, the proposed device is based on the use of a sensor with bismuth

or the like. Wire that is located in the air gap of the magnet and changes its electrical resistance as the magnetic field moves relative to it corresponding to the transferred motion.

The essence of the invention lies in the original constructive form of the sensor magnetic circuit and consists in the fact that Kpaii "wars of the S-shaped magnet core of the magnet have a common ring pole tip, along which the bismuth wire is fixedly positioned along part of its length, and the middle core is turned around its longitudinal axis and is equipped with a pole tip. in the form of a half disk.

Moreover, in such a sensor along the annular pole tip, several bismuth irovok connected to the shoulders of Wheatstone bridges are shifted relative to each other in the tangenzion direction, with output diameters being fed to: the windings of the gauge serving as the receiver The invention is shown by drawing in which FIG. one

depicts the sensor of the proposed device in a perspective view, FIG. 2 is a plan view of the sensor; FIG. 3- electric scheme of the modified device.

Magnetic 1 sensor: has a W-shaped. Its extreme cores are equipped with a common annular pole tip 2. The middle core is made rotary around its longitudinal axis, equipped with a pole “01” 3 in the form of a half disk and mechanically connected to the axis 4 of the primary measuring device. A winding can be located on the cores, and in this case the sensor will be of the electromagnetic type. However, this winding can be absent if a part of the magnetic circuit is executed in the form of a magnet.

In the gap between the poles N and S, formed by the tips 2 and 3, three (or two) bismuth (or from another material that has similar properties) resistance wires, which each occupy half of the circle and are located relative to each other, are placed at 120 (or 90) degrees. Each of these resistances is part of a cadetb, balanced at this position of the rotary core 3, IB of which the magnetic flux penetrates half of the resistance (Fig. 2). When rotating 1 box 3, an alternating current will flow through the logometer gauge 7 connected to the bridge diagonal, the frequency of which will depend on the speed of rotation. Through three (or two) coils of the gauge, currents displaced in phase by 120 (or 90) degrees will flow. Applying the shaped current of bismuth sog-motivations, it is possible to get currents that are close in shape to sinusoidal. As a result, each position of the core will correspond to a certain rotation of the roller of the arc meter.

Subject invention

Claims (2)

1. A device for remote transmission of angular displacements with an iB sensor in the form of bismuth or other wire located in the air gap of the magnet and changing its resistance when the magnetic field is moved relative to it, corresponding to the transferred displacement due to the fact that the extreme cores of the H-shaped magnetically routed magnet have a common annular pole tip, along which the bismuth wire is fixed on a part of its length, and the middle core is made rotatable around its longitudinal axis. and is provided with a pole tip in the form of a lotion tonic. 2. The device according to claim 1, of the form that along the annular pole tip are placed with a shift of relative to each other in the tangential direction of several bismuth WRD; a) on the windings of the logometer, serving as a receiver. FIG. 3