RU173994U1 - Device for magnetic particle control of gears - Google Patents

Abstract

The invention relates to devices for magnetic particle inspection of products and can be used in the production process for non-destructive testing of gears and gears. The technical result is an increase in the reliability and reliability of magnetic particle inspection of gears. The essence of the utility model lies in the fact that the device for magnetic powder control of gears, comprising a control unit, a magnetizing pulse generating unit and an inductor, is additionally equipped with a demagnetizing pulse generating unit, the first switch connected to the control unit, to the magnetizing pulse generating unit and to the generating unit demagnetizing pulses are also equipped with an inductor for controlling transverse cracks and a second switch connected to the magnetization forming unit impulse pulses, to the block of the formation of demagnetizing pulses and to both inductors. 3 ill.

Description

The invention relates to devices for magnetic particle inspection of products and can be used in the production process for non-destructive testing of gears and gears.

Typically, in the process of magnetic particle inspection, the gear is magnetized with a cable laid in the hollows between the teeth. The disadvantage of such devices (see, for example, UNM-300/2000, [1]) is the low monitoring performance.

A device is known from the technology for magnetic particle inspection of gears of the UMDZ type, comprising a control unit, a magnetizing pulse generating unit and an inductor [2].

The disadvantage of this device is the inability to detect cracks oriented across the tooth, as well as the absence of a block for the demagnetization of the gear after monitoring. As practice shows, the residual magnetization of the teeth after the control is stored for quite a long time up to several days, and sometimes months. The powder or metal dust remaining on the teeth serves as an abrasive, which reduces the life of the part.

The technical problem solved by the claimed utility model is to increase the reliability and reliability of magnetic particle inspection of gears.

The essence of the proposal lies in the fact that the device for magnetic particle control of gears, containing a control unit, a magnetizing pulse generation unit and an inductor, is additionally equipped with a demagnetizing pulse generating unit, a first switch connected to the control unit, to a magnetizing pulse generating unit and to a demagnetizing generating unit pulses, also equipped with an inductor for controlling transverse cracks and a second switch connected to the magnetization forming unit lev els pulses to the block forming demagnetizing pulses and to the two inductors.

In FIG. 1 shows the principle of magnetization of the gear with a standard inductor UMDZ to identify longitudinal cracks.

In FIG. 2 shows the principle of magnetization of the gear by an additional inductor for detecting transverse cracks, made according to this utility model. In this case, the inductor can be either single or double.

In FIG. 3 shows a block diagram of a device made according to this utility model.

A device for magnetic powder control of gears includes a control unit 1, a first commutator 2, a magnetizing pulse generating unit 3, a demagnetizing pulse generating unit 4, a second commutator 5, an inductor for detecting longitudinal cracks 6 and an inductor for detecting transverse cracks 7.

Gear control takes place in two stages. At the first stage, the control unit 1 through the first switch 2 starts the unit for generating magnetizing pulses 3. The magnetizing pulses through the second switch 5 are fed to the inductor to detect longitudinal cracks 6. The second stage of control is different from the first in that the magnetizing pulses through the second switch 5 are fed to the inductor to identify transverse cracks 7. After control, the gear is demagnetized, for which the control unit 1 through the first switch 2 starts the demagnetizing unit pulses 4. Demagnetizing pulses through the second switch 5 are fed to the inductor to detect longitudinal cracks 6 or to the inductor to detect transverse cracks 7.

Tests of the proposed device showed reliable detection of both longitudinal and transverse cracks, which increases the reliability and reliability of the magnetic particle inspection of gears. The presence of the demagnetization mode extends the service life of gears.

Literature

1. Internet resource of CJSC “NIIIN” MNPO “Spectrum”: http://www.nio12.ru/RE/unm.pdf.

2. Internet resource of the NPO Pribor company: http://www.npopribor.ru/c44.htm.

Claims (2)

A device for magnetic particle control of gears, comprising a control unit, a magnetizing pulse generating unit and an inductor, characterized in that it is additionally equipped with a demagnetizing pulse generating unit, a first switch connected to the control unit, to a magnetizing pulse generating unit and a demagnetizing pulse generating unit, is also equipped with an inductor for controlling transverse cracks and a second switch connected to a magnetizing pulse generating unit, to a demagnetizing pulse generation unit and to both inductors.

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