RU2467441C1 - Device to measure brush pressure at collector of electric machines - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device comprises a recording instrument and a force sensor arranged in the body in the form of two elastic magnetic elements with excitation windings and metering windings. The first elastic magnetic element via a metal ball and a protective device is connected with a brush. Excitation windings of elastic magnetic elements are included into oscillating circuits of two generators of sinusoidal voltage. Outside the force sensor body there is a transmitting and a receiving magnetic antennas with windings. A winding of a transmitting magnetic antenna is connected with a mixer's output, and a winding of a receiving magnetic antenna via a converter is connected to a recording instrument. Additionally there is a circular guide and two metal balls. The first elastic magnetic element is arranged with smaller dimensions and is installed inside the second elastic magnetic element in a mutually perpendicular plane, and is joined with it via a circular guide and two metal balls, installed at both sides of the first elastic magnetic element in the same plane. Metering windings of the first and second elastic magnetic elements are accordingly connected with the first and second inputs of the mixer, and the protective device is arranged in the form of a flat spring.

EFFECT: expansion of amplitude and frequency ranges of measurements, due to increasing sensitivity, accuracy of measurements and increased distance of remote signal transfer.

1 dwg

Description

The invention relates to electrical engineering, in particular to devices for measuring brush pressure on the collector of electrical machines, and can be used in the repair industry of the electrical, railway and other industries.

A device for measuring brush presses on the collector of electrical machines contains a recording device, a force sensor in the form of an elastic sensing and compensation elements with field windings and measuring windings located in the housing, the sensor element of the force sensor is connected through a metal ball and protective device to the brush located in the brush holder , a sinusoidal voltage generator with a loop capacitor connected to the output winding and measuring, connected to a recording instrument m (AS USSR No. 919004, MKI: H01R 39/58, BI No. 14 of 1992. A device for measuring brush pressure on the collector of electric machines, auth. A.E. Dubinin, A.V. Potapov and V. G. Tolkachev).

The disadvantage of this device is the limited functionality and unreliability of the device, due to the low quality of isolation of the measuring device from the force sensor.

A device is known for measuring brush presses on the collector of electric machines, comprising a recording device, a force sensor in the form of an elastic sensing and compensation elements with field windings and measuring windings located in the housing, a sensor element of the force sensor through a metal ball and a protective device connected to a brush located in brush holder, a sinusoidal voltage generator with a loop capacitor, a second sinusoidal voltage generator with a loop capacitor, a mixer, transducer, receiving and transmitting magnetic antennas with windings installed outside the body of the force sensor, while the winding of the transmitting magnetic antenna is connected through the mixer to the measuring windings of the sensitive and compensation sensor elements, the excitation windings of which are connected to the loop capacitors of the first and second sinusoidal voltage generators which made in the form of a power supply located in the housing of the force sensor, and the winding of the receiving magnetic antenna through the Converter connected to a recording device (a.s. USSR No. 1192007, MKI: H01R 39/58, BI No. 42 of 1985. A device for measuring brush pressure on the collector of electrical machines, ed. A.E. Dubinin and V.I. Berezhnoy).

The disadvantage of this device is the low frequency and amplitude measurement range.

The technical result is the expansion of the amplitude and frequency ranges of measurements, by increasing the sensitivity, accuracy of measurements and increasing the transmission distance of the signal at a distance.

The technical result is achieved by the fact that in the known device for measuring brush presses on the collector of electrical machines containing a recording device, a force sensor in the form of two elastic magnetic elements with field windings and measuring, located in the housing, the first elastic magnetic element through a metal ball and a protective device is connected with a brush located in the brush holder, made in the form of a power supply two sinusoidal voltage generators, in the oscillatory circuits of which are included together contour capacitors of the field winding of the first and second elastic magnetic elements, transmitting and receiving magnetic antennas with windings mounted outside the body of the force sensor, a mixer, while the winding of the transmitting magnetic antenna is connected to the output of the mixer, and the winding of the receiving magnetic antenna through a converter is connected to a recording device, additionally introduced an annular guide and two metal balls, and the first controlled magnetic element is made smaller and is located inside the second of the controlled magnetic element in a mutually perpendicular plane and connected with it through an annular guide and two metal balls mounted on both sides of the first controlled magnetic element in the same plane, while the measuring windings of the first and second elastic magnetic elements are respectively connected to the first and second inputs mixer, and the protective device is made in the form of a flat spring.

The set of proposed features to achieve this goal in devices of this type has never been used before.

Figure 1 shows a schematic diagram of a device for measuring brush pressure on the collector of electrical machines.

A device for measuring brush presses on the collector of electric machines consists of a housing 1, a brush 2, a brush holder 3, a first elastic magnetic element 4, an excitation coil 5 of the first elastic magnetic element, a measuring winding 6 of the first elastic magnetic element, a second controlled magnetic element 7, excitation windings 8 of the second controlled magnetic element, measuring winding 9 of the second controlled magnetic element, protective device 10, metal ball 11, pressure finger 12, collector 13 machine, annular guide 14, two metal balls 15, grooves 16, screws 17, loop capacitors 18, 19, mixer 20, transmitting magnetic antenna 21, winding 22, receiving magnetic antenna 23, winding 24 of the receiving magnetic antenna, differential frequency amplifier 25 , amplitude limiter 26, frequency discriminator 27, local oscillator 28, recording device 29, sinusoidal voltage generators 31, 32, constant voltage source 33, power supply 34.

The device operates as follows.

Before measurement, the device circuit is restored to its original state, for which, by adjusting the circuits of the sinusoidal voltage generators 31 and 32 in the absence of the effort of pressing a finger 12 on the housing 1 and the first elastic magnetic element 4, a frequency difference is established between them, corresponding to the frequencies of the transmitting 21 and receiving 23 magnetic antennas . In this case, the alternating voltages of the generators 31 and 32, in the oscillatory circuits of which are included capacitors 18 and 19 and the field windings 5 and 8 are changed (transformed) into measuring windings 6 and 9 of the elastic magnetic elements 4 and 7. These voltages are applied to the inputs of the mixer 20, where the voltage of the differential frequency of the generators 31 and 32 is allocated, which is supplied to the winding 22 of the transmitting magnetic antenna 21. The electromagnetic wave emitted by the transmitting magnetic antenna 21 is propagated to a certain distance and a receiving magnet is received oh antenna 23. Induced in the winding 24 of the antenna 23 of the differential frequency EMF of the generators 31 and 32 is fed to the input of the differential frequency amplifier 25 of the converter 30. The amplified voltage from the amplifier 25 is supplied to the input of the amplitude limiter 26. The voltage limited by the amplitude from the output of the limiter 26 is supplied to the first the input of the frequency discriminator 27, to the second input of which the voltage of the local oscillator 28 is supplied, which is equal in frequency to the difference of the frequencies of the generators 31 and 32. In this case, the signal at the output of the frequency discriminator 27 is zero and the recording device 29 is not supplied. By adjusting the local oscillator 28, the recording device 29 is set to zero in the absence of brush 2 pressure on the collector 13. When the finger holder 12 of the brush holder 3 is lowered and collector 13 is rotated, dynamic pressures are created on the housing 1, the first 4 and second 7 elastic magnetic elements, which through a metal ball 11, a protective device 10 connected to the housing 1 by screws 17 by means of grooves 16, and the brush 2 are transferred to the collector 13 of the electric machine. Under the action of pressure, mechanical compression stresses arise in the first elastic magnetic element, and in the second, tensile in a mutually perpendicular plane through the annular guide 14 and two metal balls 15, which lead to a change in their magnetic permeability (under the action of compression in the element 4, the signal decreases, and when stretched in element 7, an increase in the signal, and their difference increases, thereby increasing the signal). As a result of this, the inductance of the windings 5 and 8, the oscillatory circuits of the generators 31, 32, which change the frequency of their oscillations, changes. At the output of the measuring windings 6 and 9 of the elastic magnetic elements 4, 7, frequency-modified signals appear proportional to the pressure of pressing the brush 2 on the collector 13 of the electric machine, which are supplied to the first and second inputs of the mixer 20 simultaneously with the frequency signals of the generators 31, 32 s measuring windings 6 and 9 of elements 4 and 7. At the output of the mixer 20, a signal of a changed frequency difference between the generators 31 and 32 is generated, which is fed to the winding 22 of the transmitting magnetic antenna 21. The receiving magnetic antenna 23 receives this the signal that is amplified by the amplifier 25 is limited by the amplitude limiter 26 and is supplied to the first input of the frequency discriminator 27. At the output of the discriminator 27, a signal proportional to the difference in the difference frequency of the generators 31 and 32 appears, which is fed to the recording device 29, fixing the amount of brush 2 pressing on the collector 13 of the electric machine.

The use of two sinusoidal voltage generators 31 and 32 located in the housing 1, in the oscillatory circuits of which are included the excitation windings 5 and 8 of the elastic magnetic elements 4 and 7 with measuring windings 6 and 9 connected to the mixer 20, can compensate for the effect of destabilizing factors on the circuit (temperature, electromagnetic fields, changes in the parameters of the power supply). Element 10 protects the elastic magnetic elements 4 and 7 from sudden impacts of the pressure finger 12.

The location of the first elastic magnetic element inside the second allowed to increase the amplitude and frequency ranges of measurements, to increase the sensitivity and accuracy of measurements by at least 2 times.

The proposed design of the device allowed to increase the transmission range of the signal at a distance, and the introduction of a protective device made in the form of a flat spring, allowed to reduce the dimensions of the device.

Claims (1)

A device for measuring brush pressure on the collector of electrical machines, containing a recording device, a force sensor in the form of two elastic magnetic elements with excitation windings and measuring, located in the housing, the first elastic magnetic element of the force sensor is connected through a metal ball and a protective device to the brush located in brush holder, made in the form of a power supply two sinusoidal voltage generators, in the oscillatory circuits of which are included together with the loop capacitors of the winding waiting for the first and second elastic magnetic elements, the transmitting and receiving magnetic antennas with windings installed outside the body of the force sensor, a mixer, while the winding of the transmitting magnetic antenna is connected to the output of the mixer, and the winding of the receiving magnetic antenna through the converter is connected to a recording device, characterized in that an annular guide and two metal balls are additionally introduced into it, and the first elastic magnetic element is made smaller and located inside the second elastic magnet element in a mutually perpendicular plane and connected to it through an annular guide and two metal balls that are installed on both sides of the first elastic magnetic element in the same plane, the measuring windings of the first and second elastic magnetic elements are respectively connected to the first and second inputs of the mixer, and the protective device is made in the form of a flat spring.