RU67704U1 - INDUCTION SENSOR - Google Patents

Abstract

The utility model relates to the field of measurement and can be used in equipment designed for dynamic balancing of rotors. The induction sensor contains a housing in which a magnetic system of an induction coil is installed, located in the housing on the axis. The sensor is equipped with additional induction coil and its magnetic system, as well as a sleeve located in the middle part of the housing, an additional induction coil is mounted on an axis mounted in the sleeve on its other side relative to the first coil, and the magnetic system of the additional induction coil is mounted in the housing on the other side sleeves relative to the first magnetic system. 1 p. Fs, 2 ill.

Description

The utility model relates to the field of measurement and can be used in equipment designed for dynamic balancing of rotors.

A known induction sensor comprising a housing in which a rotor (induction coil) is mounted on the shaft (axis). A magnetic system is located in the sensor housing.

(see RF patent No. 2029230, class G01B 7/30, 1995) is the closest analogue.

As a result of the analysis of the implementation of the known sensor, it should be noted that it cannot be used to work as part of the equipment for balancing rotors, since its design does not provide damping of vibrations of the suspension-product system, which significantly reduces the dynamic range of measurements and the accuracy of determining vibration products.

The objective of this utility model is to develop an induction sensor design that provides a more accurate measurement of product vibrations in a wide range of values due to damping of natural vibrations of the suspension - product system.

The task is ensured by the fact that in the induction sensor containing the housing in which the magnetic system of the induction coil is installed, located in the housing on the axis, it is new that the sensor is equipped with additional induction coil and its magnetic system, as well as a sleeve located in the middle part housing, an additional induction coil is mounted on an axis mounted in the sleeve on its other side relative to the first coil, and the magnetic system of the additional induction coil is mounted in pus on the other side of the sleeve relative to the first magnetic system.

When conducting patent research from the prior art, no solutions were identified that are identical to the claimed, and therefore, the claimed utility model meets the eligibility condition “novelty”.

The information set forth in the application materials is sufficient for the practical implementation of the utility model.

The essence of the utility model is illustrated by graphic materials on which:

figure 1 - induction sensor, axial section;

figure 2 is a functional diagram of the measurement of vibrations.

The induction sensor comprises a housing 1, in the central part of which a sleeve 2 is fixed with radial spokes, on which bushings are fixed in which the axis is mounted. Two induction coils are installed on the axis on both sides relative to the sleeve 2: measuring 3 and power 4. Their magnetic systems are placed in the housing in the area of the coils (5 and 6, respectively). The sleeve with spokes, bushings and an axis forms a suspension system of induction coils 3 and 4. In Fig. 1, the spokes are indicated by 7, and the axis by 8.

To ensure the operation of the sensor, the axis 8 of the elastic element 9 is connected to the system "suspension - product" balancing equipment.

In the functional diagram (Fig. 2), this system (oscillation source) is indicated by 10. The induction coils 3 and 4 are connected to the control unit 11.

The induction sensor operates as follows.

During the operation of the balancing machine, for example, when balancing rotors, the vibrations of the “suspension - product” system are transmitted through the elastic element 9 to the axis 8 and to the induction coils 3 and 4 and, through their magnetic systems 5 and 6, are converted into electrical signals entering the unit control 11 and through a frequency-dependent feedback amplifier of this unit (not shown) are fed to the power coil 4, which provides damping of the natural oscillations of the suspension-product system.

Claims (1)

An induction sensor comprising a housing in which a magnetic system of an induction coil is installed, located in the housing on the axis, characterized in that the sensor is equipped with additional induction coil and its magnetic system, as well as a sleeve located in the middle of the housing, an additional induction coil is mounted on the axis mounted in the sleeve on its other side relative to the first coil, and the magnetic system of the additional induction coil is mounted in the housing on the other side of the sleeve relative to the first th magnetic system.