CS210405B1 - Facility for measuring the rotation speed by means of induction scanner - Google Patents

Description

disassembly of the defect, not to increase the possibility of damage to the meter when pulling work. However, tachometric measurements which otherwise satisfy, for example due to the large mass of the rotating device being measured, are not very suitable for this reason.

The above mentioned disadvantages are eliminated by a device for measuring the rotation speed by means of an inductive sensor according to the invention consisting of a transmitter comprising a source of direct magnetic field, for example a permanent magnet mounted perpendicular to the measured object and a receiver comprising a sensor coil and a core of magnetically conductive material and connected to an evaluation circuit, the principle being that a DC magnetic field device, for example a permanent magnet, is inserted between the transmitter and the sensing coil, wherein the magnetic field axis of the embedded DC magnetic field source symmetry of the core coil.

Advantages of the device for measuring the speed of rotation by means of the inductive sensor according to the invention are that it is possible to realize non-contact speed measurement at a greater distance than hitherto, that is to place the receiving part of the sensor outside the area where . In addition, in the frequency processing of transmitted immersion, this measurement is virtually independent of disturbance effects. Chaemkterletické for this device are low maintenance, simple construction and associated low cost.

In order to illustrate the essence of the invention in greater detail, an exemplary embodiment of the invention is shown in the figure.

In principle, the rotation speed sensor consists of two basic parts. It consists of a permanent magnet 2, mounted asymmetrically on the object to be measured, such as a shaft, such that its axis of magnetic field intersects perpendicularly the axis of the measured rotational movement. The receiver 2 comprises a second permanent magnet 4 and a sensor coil 2 provided with a core of a magnetically bonded material. Probe coil symmetry axis. 2 in line with both magnetic fields of the second permanent magnet 6 and intersects perpendicularly the axis of the measured rotational movement. To the terminals of the sensor coil 2 connected to J ^e £ yyhodnocovací circuit. By rotating the shaft and thereby rotating the transmitter 1, a variable magnetic field is created in the surrounding space, which induces an alternating voltage in the sensing target, the amplitude and frequency of which are dependent on the rotation speed. The magnitude of the induced voltage is greatly increased by the inclusion of a permanent magnet.

The signal thus obtained is processed in the evaluation circuit J.

The described arrangements can also be applied in other cases, for example in the search for electrical cables. The role of the first permanent magnet is then taken up by the alternating current through the conductor.

Claims (1)

FIELD OF THE INVENTION An apparatus for measuring rotation speed by means of an inductive transducer consisting of a transmitter consisting of a source of direct magnetic field, for example a permanent magnet mounted perpendicular to the object to be measured and a receiver comprising a pick-up coil with symmetry axis perpendicular to the object. and connected to an evaluation circuit, characterized in that a source of a direct magnetic field, for example a permanent magnet (4), is inserted between the transmitter (1) and the sensor coil (5), the axis of the magnetic field of the inserted source of a direct magnetic field. The magnet (4) is identical to the axis of symmetry of the sensing coil (5) and the core (6). 1 drawing