DD150118A1 - ARRANGEMENT FOR TESTING INSULATING BODIES - Google Patents

Abstract

It is an arrangement for electrical Spannungsfuehrung v. Insulators of the feed-through type, in particular spark plug insulating bodies, described which, when dividing one of the electrodes into a plurality of mutually insulated sections, provides separate information about breakdown or overturning of the test piece. This makes it possible to objectify and automate the testing of such insulating bodies for defects and weak points which influence the dielectric strength.

Description

20 2

- л

Invent him

Dr.-Ing * Siegfried Schibilski

Title of the invention

Arrangement for testing insulating bodies

Л η w сndungsgebiet the invention

The invention is for testing insulation type penetrators, particularly spark plug insulators, for defects such as cracks, pores, conductive inclusions, etc., which have an effect on electrical strength.

Characteristic of the known technical solution The current test practice uses a pin electrode, onto which the insulating body to be tested is plugged. A second electrode is formed as a ring enclosing the insulator. For testing, an alternating voltage of 50 Hz is applied between the two electrodes, the height of which is chosen such that flashover occurs from the ring electrode to both ends of the insulating body. Defects in the insulating lead in addition to breakdowns through the insulator and can be recognized by trained test personnel as spark channels that end in bright light spots on the insulator surface. The test is based on visual observation and is therefore subjective in nature "carrion for the same reason is da.s method

22029

not automatable ·

Object of the invention

The aim of the invention is to increase the quality of the produced spark plug and the saving of living work in carrying out the test and subsequent processing of the insulator by objectifying the test method and introduction of automated piece inspection *

Explanation of the essence of the invention

Electrical discharges on the DUT lead to steep current pulses in the electrical test circuit. Such discharges occur, due to the special Prüflingsgeometrie, mainly as sliding discharges on the Prüflingsoberfläche as a stripe discharge, Punkschlagschlag from the strip discharge and as a strike from the strip discharge on 'all' mentioned discharge forms, due to their physical structure mechanism, steep discharge pulses in the test with almost equal current peak values ·

The error criterion used is the occurrence of breakdowns. The problem consists in the selective recognition of the breakdown-related pulse from the multiplicity of simultaneously occurring pulses of the other discharge forms. For this purpose the earth-side (pin) electrode is divided into sections such that the flashover channels have their bases on the outer sections. the penetration channels on the other hand end on the middle section. An additional measure is to prevent the flashovers by attaching Isolierstoffbarrieren at the Prüfkörperenden for the purpose of increasing the flashover voltage on the applied and required for the breakdown voltage addition "which at the same time to a desirable

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dm

Tightening the test leads.

The separation of the punch-through pulses from the accompanying pulses of the strip discharge is carried out by suitable Di dimensioning of the high-voltage test circuit and coupled via a measuring impedance Impulsmeßkreises such that the transmission behavior of the overall arrangement, for. B «assumes bandpass characteristics by using resonant circuits. Thus, the breakdown pulses are selected on the basis of their temporal duration.

The breakdown pulses are used after pulse shaping and amplification 7.VlT fully automated rejection of defective test specimens.

To shorten the test time, the frequency of the test voltage can be increased beyond the mains frequency »

From ^ i ^

The puncture of the test device will be explained in the following embodiment:

Figure 1 shows a device for testing spark plug insulators. The test voltage is generated with a high-voltage transformer 1 and fed via an RLC quadrupole 2 of the ring electrode 3. The earth-side electrode system consists of the mutually insulated partial electrodes 4, 5 and 6.

Overhanging channels run along the surface of the test piece 7 and end on the electrodes 5 or 6. Each flashover generates a voltage pulse on the measuring impedance 8,

Punctures through the test piece 7 take place to the partial electrode 4 and generate voltage pulses at the measuring impedance 9.

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The voltage pulses are fed via two separate channels, besiöend from one RLC four-pole 10 and one electronic pulse shaper and amplifier 11 an electro-mechanical V / andler 12, which makes the removal of defective specimens in an automated test.

Figure 2 shows an arrangement analogous to Pigur 1, but with attached barriers 13 and 14 made of silicone rubber.

Claims (2)

220293 - ^ -, Claims 1. Arrangement for testing insulators of the feedthrough type, in particular spark plug, on defects that affect the electrical strength, characterized in that one of the two test electrodes is divided into at least two mutually insulated sections and that the breakdown and the flashover currents via separate lines be fed to separate evaluation circles, 2, arrangement according to point 1, its breakdown voltage
is increased by extending the Überschlagsweges, characterized in that elastic Isolierstoffbarrieren mainly applied axially to the DUT v / earth * YTo 1 SoHo drawings